Policy Research Working Paper                  11014




                     Coping or Hoping?
        Livelihood Diversification and Food Insecurity
                 in the COVID-19 Pandemic

                          Ann M. Furbush
                          Anna Josephson
                              Talip Kilic
                         Jeffrey D. Michler




Development Economics
Development Data Group
January 2025
Policy Research Working Paper 11014


  Abstract
 This paper examines the impact of livelihood diversification                       not support the hypothesis that livelihood diversification
 on food insecurity amid the COVID-19 pandemic. The                                 boosts household resilience. Although income diversi-
 analysis uses household panel data from Ethiopia, Malawi,                          fication may serve as an effective coping mechanism for
 and Nigeria in which the first round was collected immedi-                         small-scale shocks, the findings show that for a disaster
 ately prior to the pandemic and extends through multiple                           on the scale of the pandemic, this strategy is not effective.
 rounds of monthly data collection during the pandemic.                             Policy makers looking to prepare for the increased occur-
 Using this pre- and post-outbreak data, and guided by a                            rence of large-scale disasters will need to grapple with the
 pre-analysis plan, the paper estimates the causal effect of                        fact that coping strategies that gave people hope in the past
 livelihood diversification on food insecurity. The results do                      may fail them as they try to cope with the future.




 This paper is a product of the Development Data Group, Development Economics. It is part of a larger effort by the
 World Bank to provide open access to its research and make a contribution to development policy discussions around the
 world. Policy Research Working Papers are also posted on the Web at http://www.worldbank.org/prwp. The authors may
 be contacted at jdmichler@email.arizona.edu or tkilic@worldbank.org.




         The Policy Research Working Paper Series disseminates the findings of work in progress to encourage the exchange of ideas about development
         issues. An objective of the series is to get the findings out quickly, even if the presentations are less than fully polished. The papers carry the
         names of the authors and should be cited accordingly. The findings, interpretations, and conclusions expressed in this paper are entirely those
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         its affiliated organizations, or those of the Executive Directors of the World Bank or the governments they represent.


                                                       Produced by the Research Support Team
 Coping or Hoping? Livelihood Diversification and Food Insecurity
                  in the COVID-19 Pandemic∗
           Ann M. Furbush1 , Anna Josephson2 , Talip Kilic3 , and Jeffrey D. Michler2

                                           1
                                            Cambridge Econometrics
                2
                    Department of Agricultural and Resource Economics, University of Arizona
                              3
                                Development Data Group (DECDG), World Bank




JEL Classification: F6, I38, O2, Q18
Keywords: COVID-19 pandemic, coping strategies, food security, pre-analysis plan, Sub-Saharan Africa


  ∗
     Corresponding author email: jdmichler@arizona.edu. Authors are listed alphabetically. A pre-analysis plan for
this study was filed prior to completion of post-outbreak data collection at https://osf.io/nu593. Funding for data
collection and analysis comes from the World Bank Multi-Donor Trust Fund for Integrated Household and Agricultural
Surveys in Low and Middle-Income Countries (TF072496). The funders had no role in study design, data collection
and analysis, decision to publish, or preparation of the manuscript. We acknowledge the research assistance provided
by Lorin Rudin-Rush and Joshua Brubaker. We appreciate comments and feedback from participants at the 2021
NIFA Agriculture Policy Conference, the 31st International Conference of Agricultural Economists, the 2021 World
Bank Development Data Group Learning Series, the Learning from Longitudinal Studies in LMICS: Before, During,
and After COVID-19 workshop in 2021, the IFAD Conference 2022, and the Agricultural and Applied Economics
Association Annual Meeting in Anaheim. We thank the individuals involved in the design, implementation and
dissemination of high-frequency phone surveys on COVID-19, specifically the World Bank LSMS team, and the
phone survey managers and interviewers at the Malawi National Statistical Office, the Nigeria Bureau of Statistics,
the Uganda Bureau of Statistics and Laterite Ethiopia.
1    Introduction
The COVID-19 pandemic exacerbated many of the hardships faced by impoverished households.
Due to their limited resources, households across Sub-Saharan Africa are particularly vulnerable
to shocks, such as natural disasters and pandemics. While households cannot control their risk of
exposure, they can employ ex ante and ex post coping strategies to mitigate the impact of realized
risks and enhance their own resilience. For households in Sub-Saharan Africa, among whom formal
insurance is uncommon, these coping strategies often involve reallocation of resources, monies, and
labor within the family or household (Ellis, 1998). Households can diversify their incomes to bolster
resilience to future shocks and uncertainty - an ex ante coping behavior (Welderufael, 2014; Arslan
et al., 2018; Khan and Morrissey, 2023) - or decide to diversify only after a shock exposes their
vulnerability - an ex post coping behavior (Asfaw et al., 2019; Mulwa and Visser, 2020; Cely-Santos
and Hernández-Manrique, 2021).
    We study the impact of livelihood diversification on mitigating food insecurity, a proxy for
welfare, during the COVID-19 pandemic. To do this, we use household panel data collected by the
World Bank, which combines face-to-face survey data collected in Ethiopia, Malawi, and Nigeria
prior to the COVID-19 pandemic with monthly post-outbreak phone surveys. This allows us to
establish causal relationships to understand how households coped with the impacts of the pandemic
through livelihood diversification. Prior to the public release of the phone survey data, we pre-
specified our analysis and registered the pre-analysis plan with the Open Science Foundation (OSF)
(Furbush et al., 2021). We report on the results of two research questions. First, how has household
income composition and livelihood diversification changed since the onset of the pandemic? And
second, how does household income composition and livelihood diversification impact household
food insecurity amid the pandemic?1
    With respect to our first question, we interrogate the data and produce stylized facts regarding
how livelihood diversification changes during the pandemic relative to pre-pandemic diversity. We
do not observe a substantial nor a systematic change in household income composition nor liveli-
hood diversification since the start of the pandemic. We do observe small differences in Ethiopia
and Malawi, where households become more specialized during the pandemic than before. These
changes are driven by a decline in the percent of households receiving remittances, government
assistance, and wage income following the onset of COVID-19. This effect is relatively modest and
we cannot disentangle whether this was a voluntary coping strategy or an involuntary separation
from diverse activities (e.g., the loss of a wage job rather than leaving a wage job). In Nigeria,
diversification increased slightly after the start of the pandemic, mainly due to increased partici-
pation in farming and greater government assistance. From these modest trends we conclude that
    1
      In our pre-analysis plan, we specify a third research question: how do changes in income composition and
livelihood diversification and subsequent effects on food insecurity vary across different population subgroups? We
discuss findings related to this research question in the Online Appendix.



                                                        2
households made limited use of livelihood diversification as an ex post coping strategy. This may
be due to the unique nature of government response to the pandemic, which placed constraints on
how households could respond, though these restrictions also did not lead to an across the board
increase in the specialization of livelihood activities.
   To answer our second question, we use a dynamic panel model and an ANCOVA estimation to
assess changes in household food insecurity. A rich body of literature evaluates livelihood diversi-
fication as a both an ex ante and ex post coping strategy to improve recovery from and resilience
to shocks, particularly those related to climate and civil unrest. These studies generally coalesce
around the conclusion that income diversification improves household welfare (Arslan et al., 2018;
Dagunga et al., 2020; Welderufael, 2014), though there is important heterogeneity based on gender
of the household head and whether the household is urban or rural (Khan and Morrissey, 2023).
We do not find evidence for this positive relationship in our analysis. Across multiple econometric
specifications, combining income sources into various indices, and conducting sub-group analysis
by gender and location, nearly all our results are nulls. We then discuss possible explanations for
our null results, presenting robustness checks where possible. We conclude that the results are true
nulls. The finding that livelihood diversification prior to and during the pandemic has no effect on
welfare, as proxied by food insecurity, which runs contrary to much of the previous literature, may
be due to the extreme conditions of the COVID-19 pandemic.
   This paper contributes to the existing literature on livelihood diversification, as well as to the
emergent literature on the impacts and effects of the COVID-19 pandemic. In terms of livelihood
diversification, many studies conclude that diversification of income sources reduces poverty and
enhances resilience (Dagunga et al., 2020; Welderufael, 2014; Arslan et al., 2018; Mulwa and Visser,
2020). A recent paper examines if diversified firms are more resilient than specialized ones in the
face of the COVID-induced market shock (Stevens and Teal, 2024). Using food insecurity, which is
a common proxy for household welfare in many studies (Ebhuoma and Simatele, 2017; Gupta et al.,
2021; Harttgen et al., 2016; Oskorouchi and Sousa-Poza, 2021; Wossen et al., 2018), we build on
this body of existing literature to extend our understanding of the role of livelihood diversification
in bolstering household resilience to severe socioeconomic shocks like the COVID-19 pandemic.
   Despite the relative recency of the COVID-19 outbreak, there is already a substantial body
of literature summarizing the socioeconomic ramifications of the pandemic on households in low-
income countries, including on income (Balana et al., 2020; Stoop et al., 2021), well-being (Bau
et al., 2022), food security (Hirvonen et al., 2022; Kansiime et al., 2021; Rudin-Rush et al., 2022),
and other welfare outcomes (Furbush et al., 2021; Josephson et al., 2021; Mahmud and Riley, 2021;
Favara et al., 2022). A subset of this literature focuses on understanding specific policies or transfer
programs associated with the pandemic (Bottan et al., 2021; Gulesci et al., 2021; Berkouwer et al.,
2022; Brooks et al., 2022; Dietrich et al., 2022; Gutierrez et al., 2022) or informational transfer
(Bahety et al., 2021; Sadish et al., 2021). However, much of this literature remains descriptive in



                                                    3
nature and does not investigate changes due to the pandemic, but rather changes occurring during
the pandemic. We extend this conversation by estimating causal relationships about coping with
the pandemic through livelihood diversification, using both pre- and post-outbreak data.
    Finally, our paper contributes to the small but growing body of research that uses pre-analysis
plans in observational studies. While pre-analysis plans are generally associated with studies relying
on experimental data (Duflo et al., 2020), the first use of a pre-analysis plan in economics was an
observational study of the impacts of minimum wage laws (Neumark, 2001). The main argument
against using pre-analysis plans in observational studies is the difficulty in credibly committing to
a plan prior to data availability (Olken, 2015). But, as Janzen and Michler (2021) argue, there are
numerous study settings where research questions can be clearly formulated ahead of the release
of data. Democratic elections (Humphreys et al., 2013), policy changes (Neumark, 2001), and the
timed release of government data (Chang et al., 2021) are all examples in which researchers combine
pre-analysis plans with observational data. In our case, in the month immediately following the
outbreak of COVID-19, the World Bank formulated a plan to collect at least 12 rounds of monthly
panel data from households that had been surveyed in the year prior to the pandemic. This
commitment to future data collection, following a standardized survey instrument, allowed us to
formulate hypotheses, develop an empirical approach, and register our plan prior to the collection
and public release of all rounds of data (Furbush et al., 2021). In a research setting in which
there are numerous ways one could define the variables of interest and model their relationships, a
pre-analysis plan lends credibility to our analysis.


2     Data
Our analysis focuses on changes to food insecurity after the outbreak of COVID-19 relative to food
insecurity status pre-COVID. The spread of the virus impacted household finances indirectly, largely
through the closure of businesses and schools and the interruption of supply chains. Governments
in the three countries imposed various restrictions to movement, business interactions, and on
educational institutions throughout the course of the pandemic. While these restrictions sought to
slow the spread of the virus and protect citizens from infection, they disrupted normal activities,
including household income generation.

2.1   COVID-19 Shock
We describe the circumstances in each country, based on government restrictions that were in
place during each data round. In Ethiopia, restrictions were largely implemented at the national-
level. Ethiopia closed schools and suspended public gatherings on 16 March 2020. On 8 April
2020, the country declared a state of emergency which included limiting international and domestic
travel. However, Ethiopia never went into a complete national lockdown in the sense of closing


                                                  4
businesses, restricting movement, or imposing curfews (Hirvonen et al., 2022). In Malawi, the
President declared a state of disaster on 20 March 2020, which included closing schools and limiting
the size of public gatherings. A stay at home order was issued in April. However, this order faced
legal challenges, which culminated in the High Court barring the regulation and preventing the
stay-at-home order from going into effect, leaving daily economic activity largely intact (Josephson
et al., 2021). Nigeria’s response primarily occurred at the state level. Most Nigerian states closed
schools and suspended large gatherings by 24 March 2020 and suspended inter-state travel on 23
April. While non-essential shops as well as restaurants were ordered to close, the government’s
attempts to impose these closures along with curfews, social distancing, and self-quarantine, were
largely ignored, meaning daily economic activity was relatively unchanged (Jacobs and Okeke,
2022). The government lifted the closure order less than a month later. Compared to lockdowns
in China, Europe, and the United States, the closures of businesses and the restrictions to daily
activities in Ethiopia, Malawi, and Nigeria were substantially less strict. This is important since it
means that households in these countries were less constrained in pursuing livelihood opportunities
than those in regions of the world with government imposed lockdowns.
   To account for the variation in COVID-19-related restrictions over time, we use Our World in
Data’s COVID-19 Government Stringency Index in some of our empirical specifications (Mathieu
et al., 2020). The index considers nine metrics to calculate daily scores for each country: school
closures; workplace closures; cancellation of public events; restrictions on public gatherings; clo-
sures of public transport; stay-at-home requirements; public information campaigns; restrictions
on internal movements; and international travel controls. The stringency index is calculated as the
mean score of the nine metrics, each taking a value between 0 and 100. A higher score indicates
a stricter regulatory regime. To match these daily data to each round of our data, we take the
average daily score during each survey period. Figure 1 displays the average government stringency
index in each country over time.

2.2   Sample Selection and Surveys
To examine the relationship between livelihood diversification and welfare outcomes, we use panel
data from high-frequency phone surveys (HFPS) in Ethiopia, Malawi, and Nigeria (WB, 2022;
NSO, 2022; NBS, 2022). In each country, interviewers conducted these surveys on a monthly basis
with households for a period of at least 12 months following the outbreak of COVID-19.2 The
sample for the HFPS is drawn from households that had been interviewed during the most recent
(2019) round of the national longitudinal household survey implemented by the respective national
statistical office, with assistance from the World Bank (CSA, 2019; NSO, 2020; NBS, 2019). These
pre-COVID-19 Living Standards Measurement Study - Integrated Surveys on Agriculture (LSMS-
   2
     The following agencies implement the monthly surveys with support from the World Bank Living Standards
Measurement Study (LSMS): Laterite Ethiopia, the Malawi National Statistical Office, and the Nigeria Bureau of
Statistics.


                                                     5
ISA) data are representative at the national, regional, and urban/rural levels and serve as a baseline
for our post-COVID-19 analysis.
    The HFPS are not nationally representative as participation requires that each household have
(1) at least one member who owns a phone, (2) cell network coverage, and (3) access to electricity.
These requirements may lead to selection bias in the survey sample. Additionally, the surveys may
suffer from non-response bias if targeted households were not willing or able to participate. To
address these challenges, we use survey weights provided in the HFPS data which include selection
bias corrections and post-stratification adjustments. Several studies using the HFPS data have
found that the use of survey weights and post-stratification adjustments substantially reduce the
bias, though it does not fully eradicate the bias, and our results should be interpreted with this in
mind (Ambel et al., 2021; Brubaker et al., 2022; Gourlay et al., 2021). For a detailed description
of the weight calculations used in this study, see Josephson et al. (2021).
    The integration of data from the post-outbreak HFPS and pre-outbreak LSMS-ISA surveys
allows us to capture the variation in the effects of the pandemic across a diverse set of Sub-Saharan
Africa countries and over time. Importantly, the combined data afford us the opportunity to
examine the effects of COVID-19 in relation to a pre-pandemic baseline, allowing us to establish a
causal relationship between our variables of interest. The surveys feature cross-country comparable
questionnaires on a range of topics including participation in income-generating activities and food
insecurity. In total, over 9,000 households are included in this analysis. With baseline LSMS-ISA
data in all three countries plus 10 rounds of HFPS data in Ethiopia and 11 in Malawi and Nigeria,
our research draws from a total of over 34,000 observations. The average numbers of households in
each round of data is: 2,784 in Ethiopia, 1,611 in Malawi, and 1,943 in Nigeria, though the actual
number of households in the baseline and each round differ due to attrition.

2.3    Livelihood Diversification Indices
Prior to describing how we construct each of our livelihood diversification indices, we present the
disaggregated categories in which households engage in income generation (see Table 1). The
table shows pre-COVID income sources in each country at the most detailed level provided by
the classification system used by the World Bank in the LSMS surveys.3 Income data is collected
for all household members and we have summed across individuals to construct a household level
measure. The indices we consider in this paper use aggregated versions of these income sources,
though we show the most detailed level here for completeness.
    The post-outbreak phone surveys collected less detailed income data than the pre-outbreak
in-person surveys. The income module was also not asked in every survey round. In surveys that
did included a module on sources of income, those modules asked “In the last 3 months, which of
   3
     In the LSMS data, income is reported in the local currency. To allow for cross-country comparisons, we convert
income values to constant 2019 US dollars.



                                                        6
the following were your household’s sources of livelihood?” Options included: 1) Family farming,
livestock or fishing; 2) Non-farm family business, including family business; 3) Wage employment
of household members; 4) Remittances from abroad; 5) Assistance from family within the country;
6) Assistance from other non-family individuals; 7) Income from properties, investments or savings;
8) Pension; 9) Assistance from the Government; 10) Assistance from NGOs / charitable organiza-
tion/religious bodies; 11) Other income source. A household is assigned a one if it reports “yes” to
the question and zero if it reports “no.”
       Our variable of interest in our analysis consists of a series of indices measuring income diver-
sification. Following methodology from Michler and Josephson (2017), we use two measures to
evaluate household income diversification: (1) a simple fractional index (FI) and (2) a Herfindahl-
Hirschman Index (HHI).4 HHI scores are negatively related to diversification. That is, they are
larger for less diversified households and smaller for more diversified households. For consistency,
we adjust the fractional index to maintain this negative relationship. Both indices can be inter-
preted as specialization indices that are inversely related to diversification. Table 2 summarizes the
characteristics of each index.
       The simple fractional index is calculated using the count of the income sources each household
is engaged in (m) at time t given the total number of income-generating opportunities (n) in their
region (j ) over the entire time series:

                                                                  mit
                                                   F Iijt = 1 −       .                                              (2.1)
                                                                  nj
The fraction is subtracted from one so that a higher score is associated with fewer income-generating
activities, while a lower score indicates a more diversified income portfolio. The fractional index
is calculated for both pre- and post-COVID-19 data. To generate the index, we collapse multiple
income categories into seven categories standardized across the three countries: (1) farm, (2) wage,
(3) pension, (4) remittances, (5) non-farm enterprises, (6) income from properties, savings, and
investment, and (7) other, which includes asset sales, income from NGOs, and other government
assistance. This index accounts for geographic area to capture livelihood specialization relative to
regional diversification opportunities. We count the total number of income sources households
participate in for all geographic areas available in the data (e.g., region, zone, district, postal code,
ward). We then determine the smallest geographic area with at least 10 available observations.
The count of income sources households are engaged in within that smallest geographic area with
sufficient observations then serves as the denominator (nj ) in the index calculation for households
residing in that area.5
   4
     We also generate four variations of these indices, following our pre-analysis plan, that differ in if they standardize
income categories across countries and/or across time. Summaries of these additional indices are presented in Online
Appendix A.
   5
     Our final results are robust to changes in this benchmark: if we include a control for the size of the benchmark or
standardize the geographic region that is the benchmark for diversification, we see no difference in how diversification



                                                            7
    The HHI considers the portion of a household’s income generated from each income source. In
calculating the HHI, we include all revenue generated by households but do not net out costs of
production. The HHI is calculated as:

                                                      ∑
                                                      M
                                          HHIi =            p2
                                                             m,                                   (2.2)
                                                      m=1

where M represents each household’s total number of income sources. Each pm represents the
percentage of the household’s income generated from income source m. A highly specialized house-
hold with only one income source would receive the highest possible score of 1 (12 ). Similarly,
a household with two income sources each accounting for 50 percent of household’s total income
would receive a score of .5 (.52 + .52 ). As with the simple fractional index, higher scores indicate
more income specialization and less diversification. The HHI includes only pre-COVID data and
so there are no time sub-scripts. To generate the index, we use 12 income categories standard-
ized across countries, and the respective amount of income each household earns from each source.
These categories are: (1) remittances, (2) in-kind assistance from family and friends, (3) invest-
ments and savings, (4) income from properties, (5) pension, (6) non-farm enterprises, (7) crop sales
and consumption, (8) livestock sales, (9) livestock product sales and consumption, (10) wages, (11)
government and NGO assistance, and (12) other.
    Before proceeding, it is necessary to comment on the limitations of our measure. First, when
it comes to survey-based measures of household finances, asking questions about consumption is
generally preferred to asking questions about earned income. Wealthier households tend to under-
report earned income (Carletto et al., 2022). In this study, however, we examine specifically the
sources of income, and so a consumption approach would provide no information on the sources
from which a household earns its livelihood. Second, diversification as a coping strategy is not
about how many different sources of income one has but about spreading the risk by diversifying
to income sources with different risk profiles. To that end, one would want to have information on
crop choice and the sectoral composition of wages. Unfortunately, the data, particularly the HFPS
data, does not capture this information. Third, the way in which we have measured diversification
cannot distinguish between voluntary and involuntary changes in diversification. For example,
a person may be separated from a job, which would appear to be a decrease in diversification,
though an involuntary one, not a deliberate coping strategy. Ideally, we could differentiate between
involuntary and voluntary diversification actions, but we can only observe the level of diversification
and the subsequently related associated food insecurity. Finally, as job searches, crop production,
and starting a new business typically extend over several months, one would want to have data
over a long enough time frame to adequately allow for inter-household adjustments to livelihood
sources. While our data span a time period of more than two years, we acknowledge that this time
relates to food insecurity.



                                                  8
frame is shorter than most other studies of livelihood diversification, some of which span decades
(Michler and Josephson, 2017; Khan and Morrissey, 2023).

2.4     Food Insecurity
We examine food insecurity as our primary outcome variable to measure household well-being. We
use the Food Insecurity Experience Scale (FIES), which is an experience-based metric which can be
used to compare prevalence rates of food insecurity across national and sub-national populations.
Following the FIES standard survey model (Smith et al., 2017), respondents to the pre- and post-
outbreak surveys answer eight questions aimed to capture whether the respondent or other adult
households members:

   1. were worried they would not have enough to eat,

   2. were unable to eat healthy and nutritious food,

   3. ate only a few kinds of food,

   4. had to skip a meal,

   5. ate less than they thought they should,

   6. ran out of food,

   7. were hungry but did not eat, or

   8. went without eating for a whole day.

Following standard practice (Bloem and Farris, 2022), we count the number of affirmative answers
to these eight questions to categorize households into mild, moderate, and severe food insecurity.
Households which answered affirmatively to between one and three FIES questions are classified
as experiencing mild food insecurity. Households which answered yes to between four and seven
questions are classified as experiencing moderate food insecure. Households are classified as severely
food insecure if they responded affirmatively to all eight questions.
      FIES scores using these integer values may be limited by several factors. First, some post-
outbreak rounds do not include food insecurity modules, so there are gaps in the data, just as
there are with income sources. Second, there are inconsistencies in the reference period for food
insecurity questions in the pre-outbreak data.6 In Ethiopia and Malawi, the reference period in the
pre-outbreak data is the last seven days while in the post-outbreak period it is 30 days. In Nigeria,
the reference period is consistent (30 days) both pre- and post-outbreak. Finally, in Malawi, only
six of the eight questions were included in the pre-outbreak survey.
  6
    Online Appendix A includes a the exact wording of each question (including reference periods) in each country
both before and after the pandemic began.


                                                       9
        To ensure our measures of food insecurity are as similar as possible over time, we create a
standardized FIES score developed by Adjognon et al. (2021) and implemented in Rudin-Rush
et al. (2022) that is in addition to our mild, moderate, and severe indicators. The standardized
measure counts the number of affirmative answers to FIES questions in the pre-outbreak data by
country and uses survey weights to standardize the variable such that its mean is zero and standard
deviation is one.7 Following a similar process, the post-outbreak data are standardized by country
across all data rounds. As such, the standardization process facilitates comparison between pre-
and post-outbreak data and across country by ensuring our measure of food insecurity is as similar
as possible over time and across countries. This allows for comparisons of deviations from the
pre-pandemic mean and the mean of the variables after the onset of the pandemic within each
country. Additionally, standardization allows us to interpret estimated coefficients in terms of
standard deviations instead of a unitless score.
        As seen in Figure 2, food insecurity in all three countries increased substantially between 2019
and the summer of 2020, following the onset of the pandemic. Recovery in food security throughout
the subsequent year was slow in all three countries, with about 80 percent of households in Malawi
and Nigeria and about 60 percent in Ethiopia experiencing mild food insecurity in almost every
month following the outbreak. Prior to the onset of the pandemic, mild food insecurity affected less
than 30 percent of households in Ethiopia and about 60 percent in Malawi and Nigeria. Similarly,
moderate food insecurity spiked after the COVID-19 outbreak and slowly recovered in subsequent
months. Severe food insecurity increased in Malawi and Nigeria in June 2020 and rose slightly in
Ethiopia after the initial outbreak period. In all three countries, food security has not returned to
pre-pandemic levels.


3        Method
We use two econometric approaches to investigate the causal effect of livelihood diversification on
mitigating the impact of COVID-19 on food insecurity. The first approach is a dynamic panel
data estimator in which food insecurity for a particular round is explained by the diversity index
from the previous round. This approach is designed to capture the potential ex post effects of
changing livelihood diversification strategies in response to the pandemic. The second approach
is an ANCOVA estimator, in which we regress food insecurity for a particular round on the pre-
COVID-19 diversity index. This approach is designed to capture the potential ex ante effects of
livelihood diversification in anticipation of a shock. For each specification, we run regressions for
each country separately. Survey weights are included in all specifications.
    7
    The standardization process creates a z -score by subtracting the mean and dividing by the standard deviation
to get F IES ∼ N (0, 1). In calculating the mean and standard deviation, we use weights so that the mean is the
weighted mean and the standard deviation is the weighted standard deviation. This preserves the representativeness
in the standardized variable.



                                                       10
    Following Giles and Murtazashvili (2013), who investigate poverty outcomes in linear and non-
linear settings, our dynamic panel data model with lagged variables takes the following form:


               yit = α + β1 yit−1 + β2 (yit−1 ∗ divit−1 ) + β3 divit−1 + δt + rj ∗ tt + ui + ϵit ,            (3.1)

where yit is food insecurity for household i at time t. yit−1 is the lagged value of food insecurity
and divit−1 is the lagged value of the diversity index. We lag these values to account for the time it
takes for livelihood diversification to actually affect welfare. Diversification does not have an instant
impact. Rather, households may use diversification, ex ante, to cope with shocks and thus improve
food security in the future. Including lagged food insecurity yit−1 in our specifications ensures that
the variation we observe in our dependent variable is due to livelihood diversification rather than
household level characteristics or differences. In this specification, β2 is our variable of interest,
measuring how lagged income diversification impacts a household’s food insecurity, dependent on
that household’s food insecurity status in the prior round of data.8
    In estimation, we account for regional and time differences in COVID-19 policies and mitigation
strategies. We include time (i.e., round) indicators (δt ) to capture variation in COVID-19 cases
and COVID-19-related policies occurring nation-wide. This also captures other large-scale temporal
events such as elections in Malawi and civil unrest in Ethiopia. Regional indicators (rj ) are inter-
acted with a time trend tt to control for regional differences in COVID-19 mitigation strategies over
the evolution of the pandemic as well as other regional shocks such as drought or conflict. Lastly,
ui is a household fixed effect to control for time-invariant, unobservable household heterogeneity,
and ϵit is an idiosyncratic error term. Robust standard errors are clustered by household to correct
for within-household correlation over time.
    The dynamic panel data specification captures causal impacts if the livelihood diversification
index is not correlated with the error term. We address issues of endogeneity which might arise from
(1) simultaneity or reverse causality between the independent and dependent variables, (2) omitted
variable bias, or (3) non-classical measurement error. With regard to the first issue, it is possible
that households with better welfare outcomes have more resources, enabling them to diversify their
livelihoods. In this case, a simultaneity problem arises as the dependent and independent variables
are co-determined. To account for simultaneity, we use lagged independent variables to ensure
temporal precedence of livelihood diversification relative to observed household food insecurity,
thus isolating the relationship between past diversification and subsequent outcomes.9 Our panel
data, with a pre-COVID baseline helps us avoid omitted variable bias. By including household
   8
     We pre-specified using past income level and focused on diversification as the coping strategy, but our results
are robust to alternative proxies, such changes in income level, and use of other coping strategies and alternative
estimators. See Online Appendix B for additional details and results.
   9
     The use of lagged variables has the potential to bias coefficients downward, which Arellano and Bond (1991) and
others address through instrumental variables. In Online Appendix B we implement the Arellano-Blover/Blundell-
Bond (Arellano and Bover, 1995; Blundell and Bond, 1998) GMM estimator and show that the size of the downward
bias is small and does not affect the interpretation of our results.


                                                        11
fixed effects, we account for observable and unobservable time-invariant household characteristics
that might influence food insecurity. Including time dummies and region-time trends control for
unobserved time varying heterogeneity, albeit not at the household level. As a result, we greatly
reduce the probability of omitting crucial variables. Finally, we address potential non-classical
measurement error by pre-specifying multiple measures of livelihood diversification that categorize
and aggregate income in different ways. All robustness checks are presented in Online Appendix B.
While we cannot account for all possible sources of endogeneity, such as contemporaneous, time-
varying, idiosyncratic shocks to the household, our dynamic model, series of controls, and multiple
livelihood diversification measures reduce the likelihood of correlation between dependent and in-
dependent variables and enable us to credibly claim to identify causal relationships.
       To enrich the dynamic panel data model, we add interaction effects to account for the socioe-
conomic impacts associated with COVID-19 government restrictions:

              yit = α + β1 yit−1 + β2 divit−1 + β3 strt + β4 (yit−1 ∗ divit−1 ) + β5 (yit−1 ∗ strt )        (3.2)
                    + β6 (divit−1 ∗ strt ) + β7 (yit−1 ∗ divit−1 ∗ strt ) + δt + rj ∗ tt + ui + ϵit .

Here strt is the government stringency score at time t. The triple interaction term (β7 ) indicates
the combined impact of lagged food insecurity, lagged income diversity, and contemporaneous gov-
ernment stringency. As with Equation (3.1), the specification of Equation (3.2) includes household
fixed effects, time dummies, region-time trends, and clustered standard errors by household.
       In addition to the dynamic panel data models, we use an ANCOVA estimator to generate
difference-in-difference-type estimates (McKenzie, 2012).10             Here we explicitly control for pre-
pandemic welfare:


                  yit = α + β1 yit=0 + β2 (yit=0 ∗ divit=0 ) + β3 divit=0 + δt + rj ∗ tt + ϵit .            (3.3)

In this equation, divit=0 and yit=0 are the diversity index and food insecurity in the pre-COVID-
19 data. All other terms are as previously defined. Including the pre-COVID outcome variable
yit=0 more precisely attributes the variation in food insecurity to our variable of interest. In this
model, we evaluate the impact of ex ante income diversification on post-shock food insecurity. In
this context, β2 is the variable of interest, which is the relationship between pre-COVID-19 income
diversification and household food insecurity during the pandemic, dependent on that household’s
food insecurity status before the pandemic. As with the other models, we include time dummies,
region-time trends, and cluster standard errors at the household level.
       With respect to identification, by observing the impacts of pre-COVID diversification on post-
outbreak food insecurity, we avoid simultaneity issues and potential reverse causality. As we
  10
    We also pre-specified the use of simple difference-in-difference (DID) models in which we include an indicator
for the start of the lockdown. We prefer the ANCOVA specifications to simple DID because coefficients are more
precisely estimated. However, we present DID results in Online Appendix B.



                                                        12
compare within-household changes relative to the baseline, the ANCOVA estimator controls for
unobserved time-invariant heterogeneity between households. Additionally, our set of controls cap-
ture geographic and temporal shocks that evolve over the pandemic. That said, it is still possible
that baseline livelihood diversification affects the probability of a household suffering from a time-
varying, idiosyncratic shock at some point during the pandemic that impacts household welfare.


4     Results
4.1   Income Composition over Time
We describe a set of stylized facts using graphical analysis and non-parametric regressions in order
to evaluate changes in income composition over time. Recall our first research question is: how has
household income sources for households and household diversification changed since the onset of
the pandemic?
    Figure 3 reports on changes in the mean number of households earning income from each of the
seven income categories included in our fractional index. A first stylized fact that emerges from
these non-parametric regressions is that households in all three countries are fairly specialized.
While the data are weighted so as to be nationally representative, a majority of households are
engage in farming. In Ethiopia, farming far dominates other sources of income. Wages and non-
farm enterprises are the next most common sources of income, though less than 40 percent of
household earn income from these sources. In Malawi, over 80 percent of the population earn
income from farming, though unlike in Ethiopia, a majority of household report earning income
from wages and remittances. In Nigeria, nearly as many households (60 percent) report earning
income from farming as from non-farm enterprises.
    A second stylized fact is that in most countries there was a small but significant increase
during the pandemic in the number of households engaged in farming. In Malawi and Nigeria the
number of households reporting income from farming increased after the start of the lockdowns
and then slowly decreased over the length of the pandemic. Some of this change is likely due to
seasonality, as June and July are harvest season for maize and beans in these countries. However
the agro-climatic variation in each country, their location in the tropics, and the diversified nature
of smallholder agriculture means that seasonality is unlikely to account for all the temporal change
in farm income. A second likely reason for the increase in farm income is household adaptation to
business closures and travel restrictions. In fact, we see declines in wage labor and/or remittances
that are contemporaneous with the increase in farm income in each of the countries. Ethiopia is
the outlier, with farm income decreasing after the pandemic. Again seasonality offers a partial
explanation: harvest for crops grown during the long-rains (mehir ) is November and December,
though crops grown during the short-rains (belg) is in May and June, when we see participation in
farm income declining. The decline in farm income as well as the contemporaneous decline in wage


                                                 13
and non-farm enterprises suggests households in Ethiopia became more specialized as a result of
seasonal labor demands and government restrictions related to COVID-19.
   A third stylized fact is that most households in most countries lost sources of income during
the pandemic, particularly in its first months. In Ethiopia, we see a decline in the share of house-
holds reporting income from farming, wages, non-farm enterprises, remittances, and assistance. In
Malawi, we see declines in wages, remittances, and assistance. That Ethiopia sees a decline in
participation from almost every source again suggests a tend towards specialization in response
to the pandemic. In Malawi, while households stopped receiving income from various sources, the
increase in participation in farming means that the direction of a household’s response is indeter-
minate. Relative to these two countries, Nigeria is an outlier. While remittance income declined,
more households report participating in farming, wage labor, and receiving assistance after the
start of the pandemic. There was no apparent immediate effect of the pandemic on non-farm en-
terprise. All of this suggests that households in Nigeria responded to the pandemic by becoming
more diversified.
   Figure 4 illustrates how engagement in income-generating sources changed over time. Recall
that our fractional index in constructed so that the number of categories one could earn income
from are standardized across country and across time. Despite changes in specific income sources,
a fourth stylized fact that emerges from the data is that on average households did not change their
income diversification pattern since the onset of the pandemic. We do observe small differences
in Ethiopia and Malawi, where households become more specialized during the pandemic than
before. These changes are driven by a decline in the percent of households receiving remittances,
government assistance, and wage income. This effect is relatively modest. In Nigeria, diversification
increased slightly after the start of the pandemic, mainly due to increased participation in farming
and greater government assistance.
   From these modest stylized facts we conclude that households made limited use of livelihood
diversification as a coping strategy after the onset of the pandemic or their attempts to do so were
offset by job losses from illness and/or government restrictions throughout 2020.

4.2   Livelihood Diversification and Food Insecurity
We present country-level results for our two empirical models, examining the impact of livelihood
diversification on household welfare as proxied by food insecurity. Our dynamic panel specification
relies on the fractional index measured across all rounds, both pre- and post-outbreak, and aims
to test the effectiveness of diversification as an ex post coping strategy. Our ANCOVA specifica-
tion relies on the HHI, which is only measured at baseline, and aims to test the effectiveness of
diversification as an ex ante coping strategy.
   From equation 3.1, we are interested in β1 yit−1 + β2 (yit−1 ∗ divit−1 ) + β3 divit−1 . The coefficient
β1 measures the persistence of food insecurity for the household as current food insecurity is likely


                                                  14
to be affected by food insecurity in the previous period. The coefficient β3 captures the impact
of past decisions about livelihood diversification on current food insecurity, as it takes time for
those decisions to manifest in income shifts. Finally, the coefficient β2 captures the heterogeneity
in how past decisions about income diversification impact current food insecurity based on past
food insecurity.
   Using this framework, we see that by and large our coefficients of interest are relatively small and
not significant. Looking first at Table 3, coefficients are not significant across all measures of food
insecurity across nearly all countries. Of the twelve regressions, the coefficient on the interaction
between the lagged fractional index and the lagged food insecurity measure is significant only for
the moderate measure of food insecurity in Ethiopia. In Ethiopia, coefficients are small and tend to
be negative, suggesting a null or possibly negative effect in which increased specialization may lead
to less food insecurity (greater food security). In Malawi and Nigeria, coefficients are small and
tend to be positive, suggesting a null or possibly positive effect in which increased specialization
may lead to more food insecurity (less food security). However, as 11 of 12 results are null, we do
not place great weight on the signs of regression coefficients.
   Next, in Table 4 we examine the effects of the triple interaction of the lagged fractional index,
lagged food insecurity, and contemporaneous government stringency score. For all four measures
of food insecurity and across all three countries, coefficients on the interaction term of interest are
not significantly different from zero. That said, the same pattern in signs emerges. Three of four
results are small and negative in Ethiopia, potentially suggesting that increased specialization leads
to less food insecurity. In Malawi and Nigeria, the opposite pattern holds, potentially suggesting
that increased specialization leads to more food insecurity. In this specification, we also observe
that COVID stringency is significantly associated with food insecurity, suggesting a positive, albeit
small relationship between the strictness of COVID policies and food insecurity, in Ethiopia and
Malawi. Based on the results in Tables 3 and 4, we conclude that livelihood diversification was not
effective as an ex post coping strategy for improving food insecurity during the pandemic.
   Turning to the ANCOVA specification, Table 5 reports results that relates pre-COVID livelihood
diversification, measured using the HHI, to post-outbreak food insecurity measures. Results using
ANCOVA are fundamentally similar to those using the dynamic panel regressions. The majority
of coefficients on baseline HHI are not significant, with only three coefficients in the interaction
term significant. Food insecurity increases in Malawi with more specialization while it decreases in
Ethiopia. Coefficients are even closer to zero and confidence intervals are tighter in the ANCOVA
regressions, potentially because of the larger sample sizes, since ANCOVA does not rely on a
balanced panel of households. We conclude that livelihood diversification was not effective as an
ex ante coping strategy for improving food insecurity during the pandemic.




                                                 15
4.3   Discussion: Interpreting Our Results
Summarizing the results, the preponderance of evidence points to a lack of a statistically significant
relationship between livelihood diversification and food insecurity, our proxy for welfare. We see
this both in terms of the stylized facts from our descriptive analysis and in the regression results
from our causal analysis. We see households making limited use of livelihood diversification as a
coping strategy after the onset of the pandemic. And we see almost no evidence that greater levels of
diversification pre-COVID, or changes to diversification during COVID, had a meaningful impact
on food insecurity. Based on this, we conclude that the data fails to support our pre-specified
hypotheses.
   In interpreting our results, there are four potential mechanisms that could offer an explanation.
The first is that livelihood diversification truly is effective but that our measure of livelihood diver-
sification or food insecurity does not adequately capture what really matters. This is a reasonable
explanation given that there is no single, fully agreed upon way to measure diversification or food
insecurity in the literature and no settled theory about if some sources of income matter more than
others. Thus, any index of diversification or quantification of food insecurity is inherently ad hoc.
In anticipation of potential mismeasurement leading to null or unexpected results, we pre-specified
a total of six measures of livelihood diversification. In the body of the paper we have presented
results from our two preferred diversification measures while in Online Appendix A we describe
the other four pre-specified indices. As is evident in Online Appendix B, a minority of results are
statistically significant, with the vast majority of coefficients being not significant. While there
are clearly more than just six ways to measure livelihood diversification, we believe the weight of
the evidence from these various robustness checks that our main findings are not simply due to
mis-categorization of livelihood diversification.
   A second explanation for the null findings is that significant results are masked by uncontrolled
heterogeneity. Here the logic is that while the average effects are zero, if we conducted a subgroup
analysis we would find significant results for these smaller populations. This is exactly what Khan
and Morrissey (2023) find: diversification impacts male versus female headed households differ-
ently. Urban households are also differently impacted, relative to rural households. Anticipating
the presence of heterogeneous effects, we pre-specified subgroup analysis by gender of the head of
household and by whether the household lives in a rural or urban area. Previous research, includ-
ing research on the effects of COVID-19 (?Josephson et al., 2021; Rudin-Rush et al., 2022), has
shown shocks and welfare impacts vary by these sub-populations (Mottaleb et al., 2015; Smith and
Frankenberger, 2018; Rahut et al., 2021). In Online Appendix C we present all of our analyses us-
ing these pre-specified subgroups. Nearly every estimate is statistically indistinguishable from zero.
We find no consistent or coherent evidence that our primary findings of null effects are masking
significant effects for certain subgroups.
   A third explanation is that our study lacks sufficient power to detect significant effects. The logic


                                                    16
here is that we are failing to detect a true, statistically significant, and economically meaningful
effect because we lack sufficient observations with sufficient variation. We cannot conclusively rule
out this explanation because we did not conduct ex ante power calculations as part of our pre-
analysis plan. We failed to do this for two reasons. First, it was not clear what values should be
used in a power calculation for means and standard deviations in the control group nor what a
reasonable expected effect size would be. Second, and quite honestly, we did not think it necessary
given the large size of the data collection effort. In total, the pre- and post-outbreak LSMS-ISA
data sets contain more than 84,000 observations. Country-specific regressions contain between
3,000 and 15,000 observations. In writing the pre-analysis plan, we did not expect a lack of power
to be something we would eventually need to address. Given the evidence on how misleading
ex post power calculations can be, we have not done this sort of calculation (Hoenig and Heisey,
2001; Gelman, 2019). Our failure to conduct ex ante power calculations means we cannot provide
definitive evidence against the explanation that our analysis lacks power. However, we believe that
the large number of observations used in the analysis makes the lack of power an unlikely story.
    A final explanation, and the one we find most compelling, is that in the face of a global pan-
demic and related government restrictions, livelihood diversification was not an effective coping
strategy. This is true both in terms of using livelihood diversification as an ex ante strategy, to
prepare for a potential shock, and an ex post strategy, to react to a realized shock. Health con-
cerns and government restrictions to stop the spread of the virus may have stripped resource-rich
households of their comparative advantage and equalized the vulnerability of income-diverse and
income-specialized households. Or perhaps moving away from subsistence farming left households
unable to access sufficient food during times of crisis, leaving income-diverse households worse off.
In the end, we do not find evidence that income diverse households were better equipped to cope
with the socioeconomic impacts of the COVID-19 pandemic. Unlike transitory or localized shocks,
which are frequently the setting for research on livelihood diversification as a coping strategy, the
pandemic lasted several years and occurred at a global scale. To combat the spread of the virus,
governments imposed restrictions on travel and business operations, which may have limited a
household’s ability to diversify income in response to the pandemic. The evidence presented in this
paper suggests that livelihood diversification is ill-fit as a coping strategy for households preparing
for or reacting to a shock of the immensity and length of the pandemic.


5    Conclusions
The COVID-19 pandemic exacerbated the challenges faced by households in Sub-Saharan Africa.
Much of the existing literature suggests that income diversification bolsters household resilience to
shocks and improves household welfare after the experience of unanticipated events. However, the
focus of this literature is on weather shocks and localized conflict events and so does not capture
the nature of a large-scale disaster, like the COVID-19 pandemic. With this study, we seek to fill

                                                  17
that gap, exploring two questions related to household income composition and welfare outcomes
in this new and unprecedented context. We take advantage of rich survey data to assess trends in
income composition over time and to understand the relationship between livelihood diversification
and household welfare outcomes, in particular, food security. As our data include a pre-outbreak
baseline, we are able to observe households’ status prior to the pandemic and then track them
through and beyond the first year of the pandemic. This panel data, along with our empirical
strategies, allows us to identify causal relationships between a household’s choice of livelihood
activities, income sources, and their level of food insecurity during the pandemic.
   In terms of how household livelihood diversification has changed since the onset of the pandemic,
we do not observe substantial or systematic changes in household income composition. Small
differences exist in Ethiopia and Malawi, where households became more specialized during the
pandemic than before. Conversely, in Nigeria diversification increased slightly after the start of
the pandemic. From these trends we conclude that households made limited use of livelihood
diversification as a coping strategy during the pandemic.
   In terms of how household income composition impacts food insecurity, our regressions provide
little evidence to support the idea that livelihood diversification improved food insecurity during the
pandemic. The preponderance of evidence, across countries, estimation methods, and measures of
diversification is that there is no significant relationship between livelihood diversification and food
insecurity. We provide a number of robustness checks and evidence that we believe demonstrates
that the null results are true nulls. Though income diversification may serve as an effective ex ante
or ex post coping mechanism for many shocks, in particular small transitory shocks, we find that
for a disaster on the scale of the COVID-19 pandemic, this strategy does not appear to be effective.
   An optimistic interpretation of the evidence in this paper would be that the extreme socioe-
conomic impacts of the pandemic appear to necessitate alternative adaptation strategies. A pes-
simistic interpretation is that a pandemic is too disastrous and omnipresent to prepare for or
adequately adapt to. Either interpretation leads to the conclusion that commonly promoted cop-
ing strategies, such as livelihood diversification, that households are encouraged to undertake on
their own are inadequate for large-scale or long-term disruptions and disasters. As households, de-
velopment agencies, and governments look to prepare for the increased occurrence of such disasters,
either due to climate change or the increased spread of zoonotic disease, this point bears keeping in
mind. Future research and development will need to grapple with the fact that the coping strategies
that gave people hope in the past may fail them as they try to cope with the increased scale of
shocks in the future.




                                                  18
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                                               23
                        Figure 1: COVID-19 Government Restriction Stringency Score Over Time



                      100


                      80
   Stringency Score




                      60


                      40


                      20


                       0
                            0
                                20

                                          0

                                              0

                                                     0

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                                                         Ethiopia        Malawi   Nigeria




Note: The figure presents government stringency scores for each of the three countries over time. The scores are
provided by Our World in Data and measure the severity of COVID-19-related government restrictions on a daily
basis, with higher scores indicating stricter regulatory regimes (Mathieu et al., 2020). We average these daily scores
to match with our monthly data. In general, government restrictions were most stringent in early 2020 and relaxed
in late 2020. In some cases, new restrictions were imposed in early 2021 as cases surged.




                                                                    24
                                                                                 Figure 2: Food Insecurity Measures Over Time



                                                                                 Ethiopia                                                                 Malawi
                                       100                                                                             100



                                        80                                                                              80
   Percent Reporting Food Insecurity




                                        60                                                                              60



                                        40                                                                              40


                                        20
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                                            0
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                                                                                 Nigeria
                                       100



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                                        60



                                        40



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                                            0
                                                                                                                                                                                     Mild Food Insecurity
                                                8




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                                                                                                                                                                                     Moderate Food Insecurity
                                       g/S




                                                      n/F
                                                    Ja
                                       Au




                                                                                                                                                                                     Severe Food Insecurity




Note: The figure shows the percentage of households experiencing mild, moderate, and severe food insecurity in
each round of available data. In Nigeria, the pre-outbreak surveys ask respondents food security questions in both a
post-planting (labeled “pp”) and a post-harvest (labeled “ph”) survey.




                                                                                                                  25
                                                                     Figure 3: Fractional Index: Income Sources Over Time



                                                                  Ethiopia                                                  Malawi
                                  100                                                                 100

                                   80                                                                 80
                Percent Engaged




                                   60                                                                 60

                                   40                                                                 40

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26




                                                                     Nigeria
                                  100

                                   80
                Percent Engaged




                                   60

                                   40                                                                                                   Farm
                                                                                                                                        Wages
                                   20
                                                                                                                                        Non-Farm Enterprise

                                    0                                                                                                   Remittances
                                                                                                                                        Assistance and Other
                                    19


                                              20




                                                                  0


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                                                                                                  1
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                                          ay




                                                                                                                                        Savings and Investments
                                                             Au


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                                                                                             Ja
                                          M




                                                                                                                                        Pension




     Note: The figure shows the percentage of households earning income in each of the seven categories used to generate the standardized pre- and post-outbreak
     fractional index by country and by round.
                                                   Figure 4: Fractional Index Over Time



                          100


                          80
   Specialization Index




                          60


                          40


                          20


                           0
                            19

                                 0
                                         20

                                                0

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                                     M




                                                            Ethiopia        Malawi   Nigeria




Note: The figure shows the mean values of the fractional index by country over rounds of available data. Higher
average values indicate more household specialization (less income diversification).




                                                                       27
   Table 1: Pre-COVID Engagement in and Earnings from Income Sources
                                                                 Income (USD)
                                        Share Engaged    Mean      Standard Deviation
                                    Panel A: Ethiopia
Crop Income                                  0.522        279             498
Livestock Sales                              0.318        249             240
Livestock Product Income                     0.489        533            1,202
Wages                                        0.215       1,490           3,740
Casual Employment Wages                      0.088        179             387
Temporary Employment Wages                   0.087         96              97
Non-Farm Enterprises                         0.224       1,271           2,933
In-Kind Transfers/Gifts                      0.024         57              96
Cash Transfers/Gifts                         0.099        304             504
Food Transfers/Gifts                         0.048         61              79
In-kind Transfers from Govt and NGOs         0.009         39              30
Cash Transfers from Govt and NGOs            0.032         64              62
Free Food                                    0.049         36              47
Pension                                      0.013        279             242
Rental Income                                0.084        337             584
Asset Sales                                  0.087        262             244
Savings, Interest, Investment                0.002        145             355
Other                                        0.008        354             424
Observations                                               3,247
                                    Panel B: Malawi
Crop Income                                  0.776        131             206
Tree Crop Sales                              0.062         28              32
Livestock Sales                              0.263         56              76
Livestock Product Income                     0.298         42              89
Wages                                        0.261       1,617           3,109
Casual Employment Wages                      0.609        314             453
Non-Farm Enterprises                         0.438       1,894           5,154
Cash Transfers/Gifts                         0.263         68             131
Food Transfers/Gifts                         0.272         13              11
In-Kind Transfers/Gifts                      0.114         30              50
Cash from Children                           0.197         65              87
In-Kind Transfers from children              0.131         45              48
Free Food                                    0.182         20              14
Cash Transfers from Govt and NGOs            0.064         57              36
Cash or Inputs for Work                      0.019         56              28
MASAF Public Works Program                   0.043         32              15
Pension                                      0.011       1,355           1,320
Rental Income                                0.080        321             392
Asset Sales                                  0.076         87             102
Savings, Interest, Investment                0.068         64              77
Other                                        0.043         43             108
Observations                                               1,726
                                    Panel C: Nigeria
Crop Income                                  0.644       401              449
Tree Crop Sales                              0.064       233              369
Livestock Sales                              0.216       165              214
                               Continued on Next Page…



                                           28
                                                                     Income (USD)
                                         Share Engaged       Mean      Standard Deviation
Livestock Product Income                       0.187           93               178
Wages                                          0.260         1,598             1,419
Non-Farm Enterprises                           0.624         2,926             4,109
Domestic Remittances                           0.266          110               115
Foreign Remittances                            0.034          267               295
In-Kind Remittances                            0.125           47                61
Cash, Food, or In-kind Assistance              0.042           54                54
Pension                                        0.030          689               900
Rental Income (Non-Ag)                         0.049          347               437
Rental Income (Ag)                             0.039           45                88
Savings, Interest, Investment                  0.021          277               804
Other                                          0.011          610               485
Observations                                                    1,950
Note: The table displays the share of households engaged in each category of livelihood
activity and the mean and standard deviation of income earned from that category. In
the LSMS-ISA data, income is reported in the local currency. To allow for cross-country
comparisons, we convert income values to US dollars using 2019 exchange rates.




                                            29
                                                      Table 2: Livelihood Diversification Indices Summary
                Standardized
     Index                       Time
                   Across                                           Description                                                  Pre-COVID-19 Kernel Density Graph
     Type                        Period
                 Countries
                                                                                                                                                 Ethiopia                                          Malawi
                                                                                                                        4                                                        4


                                                                                                                        3                                                        3

                                              To generate this fraction index, we collapse multiple




                                                                                                              Density
                                                                                                                        2                                                        2

                                               income sources into seven broad income-generation                        1                                                        1


                                             categories that are consistent across rounds and across                    0                                                        0
                                Pre- and                                                                                    .2         .4            .6            .8        1       0   .2       .4       .6        .8   1
                                              countries. These categories are: farm; wage; pension;                                                                                           Specialization Index
                                 Post-
     Fraction       Yes                           remittances; non-farm enterprise; income from
                                COVID-                                                                                                           Nigeria
                                              properties, investments and savings; and other. The                       4

                                   19
                                               “other” income category varies across countries and                      3




                                                                                                              Density
                                             rounds but generally includes asset sales, income from                     2


                                                                                                                        1
                                                       NGOs, and government assistance.                                 0
                                                                                                                            0    .2             .4        .6            .8   1
                                                                                                                                            Specialization Index
30




                                                                                                                                                 Ethiopia                                          Malawi
                                                                                                                        4                                                        4


                                                                                                                        3                                                        3




                                                                                                              Density
                                                                                                                        2                                                        2



                                              Given the level of detail provided in the pre-COVID                       1                                                        1


                                                                                                                        0                                                        0
                                             survey data, we are able to generate an HHI to capture                         0     .2            .4        .6            .8   1       0   .2       .4       .6        .8   1
                                 Pre-                                                                                                                                                         Specialization Index
                                               household income diversity more precisely. For this
      HHI           Yes         COVID-
                                              index, we use the same 12 income categories used in                                                Nigeria
                                  19                                                                                    4

                                               the simple fraction index but consider the amount                        3

                                                            earned from each source.




                                                                                                              Density
                                                                                                                        2


                                                                                                                        1


                                                                                                                        0
                                                                                                                            0    .2             .4        .6            .8   1
                                                                                                                                            Specialization Index



     Note: The table summarizes the two livelihood diversification indices used in the main analysis. Higher index values indicate more household specialization (less
     income diversification). Appendix A contains similar summary information regarding the other four indices we pre-specified.
                                                              Table 3: Dynamic Panel Regressions

                                                      Ethiopia                                       Malawi                                         Nigeria
                                       FS Index     Mild   Moderate        Severe    FS Index     Mild   Moderate        Severe    FS Index     Mild   Moderate         Mild
     Lagged Fractional Index (FI)        -0.161     0.009       0.027      -0.105      0.139      -0.052       0.044     -0.031      0.309      0.028       0.020        0.071
                                        (0.131)    (0.126)     (0.080)    (0.054)     (0.090)    (0.087)     (0.071)    (0.043)     (0.192)    (0.156)     (0.117)     (0.075)
     Lagged FS × Lagged FI               -0.180     -0.086      -0.339*    0.525       -0.003      0.129       0.032      0.060      0.165      -0.005      0.215        0.087
                                        (0.138)    (0.145)     (0.146)    (0.410)     (0.072)    (0.089)     (0.082)    (0.153)     (0.136)    (0.168)     (0.141)     (0.241)
     Lagged Food Security (FS)            0.110     0.023       0.218      -0.556      0.079      -0.047      -0.003     -0.101      -0.111     0.093       -0.133      -0.213
                                        (0.116)    (0.117)     (0.124)    (0.356)     (0.050)    (0.055)     (0.056)    (0.107)     (0.093)    (0.115)     (0.094)     (0.155)
     Observations                       12,031      12,031     12,031      12,031      9,303      9,303       9,303      9,303       3,277      3,277       3,277       3,277
     Note: The table displays regression results from our dynamic panel specification with household fixed effects, round dummies, and region-time trends (see Equation 3.1).
     FI stands for Fractional Index while FS stands for our standardized index of food insecurity. Standard errors, clustered at the household, are reported in parentheses (***
     p<0.001, ** p<0.01, * p<0.05).
31
                                       Table 4: Dynamic Panel Regressions with Government Stringency Score

                                                                               Ethiopia                                      Malawi                                        Nigeria
                                                             FS Index       Mild    Moderate      Severe    FS Index      Mild   Moderate       Severe    FS Index      Mild   Moderate       Severe
     Lagged Fractional Index (FI)                               7.570*       2.792      0.723      1.288       0.312     -0.795       0.505      -0.185      1.100       0.423      0.131       0.271
                                                              (3.036)      (2.887)    (1.754)    (0.832)     (0.430)    (0.577)     (0.421)     (0.219)    (0.644)     (0.670)    (0.480)     (0.225)
     Lagged FS × Lagged FI                                      5.086       -2.887      7.670     14.879      -0.466     0.927       -0.486      -0.442     -0.502      -0.348      0.358      -0.360
                                                              (3.054)      (3.623)    (4.371)    (8.628)     (0.393)    (0.615)     (0.539)     (0.919)    (0.540)     (0.710)    (0.607)     (1.079)
     Lagged Food Security (FS)                                 -3.837       2.239      -6.233    -11.453       0.579*    -0.041       0.593      0.515      0.383        0.539     -0.032      -0.193
                                                              (2.578)      (2.820)    (3.626)    (7.484)     (0.273)    (0.420)     (0.371)     (0.682)    (0.354)     (0.455)    (0.384)     (0.712)
     COVID-19 Stringency                                        0.120***     0.069*     0.013      0.012       0.015*    0.000        0.008      0.004       0.021*      0.011      0.007       0.003
                                                              (0.034)      (0.030)    (0.019)    (0.009)     (0.007)    (0.007)     (0.005)     (0.003)    (0.010)     (0.006)    (0.006)     (0.002)
     Lagged FS × COVID-19 Stringency                            0.050       -0.028      0.081      0.138      -0.009     0.001       -0.011      -0.011     -0.007      -0.006     -0.002       0.000
                                                              (0.033)      (0.036)    (0.046)    (0.095)     (0.005)    (0.007)     (0.006)     (0.012)    (0.006)     (0.006)    (0.006)     (0.013)
     Lagged FI × COVID-19 Stringency                           -0.097*      -0.035     -0.009     -0.018      -0.003      0.015      -0.008      0.003      -0.011      -0.006     -0.002      -0.003
                                                              (0.038)      (0.036)    (0.022)    (0.011)     (0.008)    (0.010)     (0.007)     (0.004)    (0.009)     (0.008)    (0.006)     (0.003)
     Lagged FS × COVID-19 Stringency × Lagged FI               -0.066        0.035     -0.101     -0.182       0.008     -0.017       0.009       0.009      0.010      0.005      -0.002       0.007
                                                              (0.039)      (0.046)    (0.055)    (0.110)     (0.007)    (0.011)     (0.009)     (0.016)    (0.008)     (0.009)    (0.009)     (0.019)
     Observations                                              12,031      12,031     12,031      12,031      9,303      9,303       9,303       9,303      3,277       3,277      3,277       3,277
     Note: The table displays regression results from our dynamic panel specification with household fixed effects, round dummies, and region-time trends (see Equation 3.2). FI stands for Fractional
     Index while FS stands for our standardized index of food insecurity. Standard errors, clustered at the household, are reported in parentheses (*** p<0.001, ** p<0.01, * p<0.05).
32
                                                               Table 5: ANCOVA Regressions

                                                       Ethiopia                                  Malawi                                  Nigeria
                                      FS Index       Mild   Moderate      Severe    FS Index      Mild  Moderate         FS Index     Mild   Moderate         Mild
     Baseline HHI                       -0.107       0.014       -0.039    -0.031    -0.101       -0.175*     -0.182**     0.017      -0.019      -0.013      -0.013
                                       (0.106)      (0.042)     (0.043)   (0.022)   (0.116)      (0.072)     (0.055)      (0.107)    (0.062)     (0.061)     (0.048)
     Baseline FS × Baseline HHI         -0.066       0.017       0.084     -0.204*** 0.412*        0.087       0.270*      -0.012      0.005      0.051       -0.259
                                       (0.126)      (0.067)     (0.119)   (0.042)   (0.182)      (0.082)     (0.113)      (0.095)    (0.074)     (0.084)     (0.220)
     Baseline Food Security (FS)         0.287***    0.152**     0.103     0.148*** 0.176          0.075       0.018       0.189*     0.072       0.108       0.311
                                       (0.085)      (0.051)     (0.084)   (0.031)   (0.117)      (0.053)     (0.076)      (0.074)    (0.058)     (0.066)     (0.164)
     Observations                       14,506      14,506      14,506    14,506      14,370     14,370      14,370        5,335      5,335       5,335       5,335
     Note: The table displays regression results from our ANCOVA specification with round and regioncontrols (see Equation 3.3). HHI stands for Herfindahl-
     Hirschman Index while FS stands for our standardized index of food insecurity. Note that in the Malawi baseline data no respondent reported being severely food
     insecure and so we cannot estimate the ANCOVA specification for severe food insecurity in Malawi. Standard errors, clustered at the household, are reported in
     parentheses (*** p<0.001, ** p<0.01, * p<0.05).
33
Online-Only Online Appendix to “Coping or Hoping? Livelihood
       Diversification and Household Welfare in the COVID-19
                                          Pandemic”


A     Additional Data Considerations
A.1    Diversification Indices
Following our pre-analysis plan, in addition to the indices specified and discussed in the main text,
we also present findings from four additional indices. These are summarized in Table A1.
    Each of the indices, here and in the paper, has advantages and limitations. The fractional indices
consider engagement in income-generating activities. These measures include binary responses and
the dichotomous nature of these variables allows for comparison in income-generating activities
over time with the inclusion of the post-outbreak HFPS rounds. However, these fractional indices
do not consider the amount of income earned from each source. As such, these indices are a less
nuanced representation of household income diversity than the Herfindahl-Hirschman Index (HHI)
measures. For example, suppose Household A was engaged in casual employment for one week in
2019. During that week, the household earned five percent of their total annual income and the
remaining 95 percent was generated through farm work. Suppose their neighbor, Household B, was
also engaged in casual labor and farm work but generated equal incomes from these two sources
(a 50 percent split). In our data, Households A and B would receive the same fraction score, even
though Household A is much more dependent on a single income source than Household B and as a
result Household A would have a higher HHI than Household B. There is a trade-off between using
all of the data, pre- and post-outbreak, and just the pre-COVID data. The former gives us more
observations over time but less detail about income. The later provides more detail about income
but is only a snap shot in time.
    Similarly, there is a trade-off between the simplicity of the fractional indices and the HHI.
The fractional indices lack detail because they encode that detail in simple “yes” or “no” answers.
Conversely, the HHI indices consider the portion of total income generated from each source,
providing a more detailed measure of income diversity. However, these values are influenced by
outliers in the data. Income calculations often involve multiplication of different variables:



             wage earnings = hourly income ∗ hours worked per week ∗
                                weeks worked per month ∗ months worked per year,

aggregation across income sub-categories:


                                                 34
income f rom livestock products = income f rom milk sales + value of household milk
                                 consumption + incomef rom meat sales + value of household
                                 meat consumption + ...,

and other data manipulations. An error, misrepresentation, or miscalculation in any one of these
intermediate variables can lead to erroneous estimations, which compound as one continues to
aggregate values. Additionally, when considering crop and livestock product income, prices are not
available for household consumption. Following standard practices in the literature, we assume the
value of a consumed product is equal to the median sale price for that product in the household’s
geographic area. To account for large outliers, for each income category we winsorize outliers
greater than two standard deviations from the median and impute their values. Despite this
adjustment, the data are still vulnerable to potential error and subjective assumptions that affect
their accuracy, which may lead to inaccuracy and/or bias in our estimated values. Because HHI
scores are calculated based on a percentage, a measurement inaccuracy in one income source can
distort the overall score.

A.2    Food Insecurity Experience Scale Questions
Tables A2 through A4 shows survey questions used to measure food insecurity in each country
included in this study.




                                                35
                                            Table A1: Livelihood Diversification Indices Summary
           Standardized
Index                     Time
              Across                                      Description                                             Pre-COVID-19 Kernel Density Graph
Type                      Period
            Countries
                                                                                                                                 Ethiopia                                          Malawi
                                                                                                                                                                 4
                                                                                                         4

                                                                                                                                                                 3
                                          For this index we collapse variables into income               3




                                                                                               Density
                                                                                                                                                                 2
                                                                                                         2

                                       categories that are consistent across rounds within a             1                                                       1



                          Pre- and      country but vary across countries. As a result, this             0
                                                                                                             .2        .4            .6            .8        1
                                                                                                                                                                 0
                                                                                                                                                                     0   .2       .4       .6        .8   1


                           Post-      index allow us to observe income sources at the most
Fraction       No                                                                                                                Nigeria                                           Uganda
                          COVID-       granular level available over multiple waves for each             4                                                       4


                             19      country individually. This fraction index considers 10              3                                                       3




                                                                                               Density
                                                                                                         2                                                       2
                                     income source categories in Ethiopia, 7 in Malawi and               1                                                       1

                                                     Nigeria, and 8 in Uganda.                           0                                                       0
                                                                                                             0    .2            .4        .6            .8   1       0   .2       .4       .6        .8   1
                                                                                                                            Specialization Index                              Specialization Index




                                                             Continued on Next Page…
           Standardized
Index                     Time
              Across                                     Description                                              Pre-COVID-19 Kernel Density Graph
Type                      Period
            Countries
                                                                                                                                 Ethiopia                                                Malawi
                                    For this index we collapse pre-COVID variables into                  4                                                       4


                                                                                                         3                                                       3
                                   income categories that are consistent across countries.




                                                                                               Density
                                                                                                         2                                                       2

                                   Because the index only draws from the rich pre-COVID                  1                                                       1



                                      data, we are able to include 12 income categories                  0                                                       0


                           Pre-                                                                              .2        .4            .6            .8        1            0   .2        .4        .6            .8   1


                                   available across all four countries: remittances; in-kind
Fraction       Yes        COVID-                                                                                                 Nigeria                                                 Uganda
                                    assistance from friends and family; investments and                  4                                                       4
                            19
                                     savings; income from properties; pension; non-farm                  3                                                       3




                                                                                               Density
                                                                                                         2                                                       2
                                   enterprise; crop sales and consumption; livestock sales;              1                                                       1

                                      livestock products sales and consumption; wages;                   0                                                       0
                                                                                                             0    .2            .4        .6            .8   1            0   .2        .4        .6            .8   1

                                         government and NGO assistance; and other.                                          Specialization Index                                    Specialization Index




                                                                                                                                 Ethiopia                                                Malawi
                                                                                                         4                                                       4


                                                                                                         3                                                       3




                                                                                               Density
                                     For this index we collapse pre-COVID variables into                 2                                                       2


                                                                                                         1                                                       1
                                       income categories that vary across country. As a                  0                                                       0


                           Pre-    result, this index allow us to observe income sources at                  0    .2            .4        .6            .8   1       .2        .4            .6            .8        1




Fraction       No         COVID-     the most granular level available in the pre-COVID                                          Nigeria                                                 Uganda
                                                                                                         4                                                       4
                            19      data. We generate this index using 19 income sources
                                                                                                         3                                                       3

                                      in Ethiopia, 21 in Malawi, 15 in Nigeria, and 13 in




                                                                                               Density
                                                                                                         2                                                       2


                                                            Uganda.                                      1                                                       1


                                                                                                         0                                                       0
                                                                                                             0    .2            .4        .6            .8   1        0       .2        .4        .6            .8   1
                                                                                                                            Specialization Index                                    Specialization Index




                                                            Continued on Next Page…
          Standardized
Index                        Time
             Across                                             Description                                                 Pre-COVID-19 Kernel Density Graph
Type                         Period
           Countries
                                                                                                                                       Ethiopia                                     Malawi
                                                                                                                    4                                             4


                                                                                                                    3                                             3




                                                                                                          Density
                                                                                                                    2                                             2


                                                                                                                    1                                             1



                                         This index is identical to the fractional Pre-COVID-19                     0                                             0


                            Pre-                                                                                        0    .2       .4       .6        .8   1       0   .2       .4       .6        .8   1


                                          index described above but uses an HHI instead of a
 HHI           No          COVID-                                                                                                      Nigeria                                      Uganda
                                          fraction to evaluate the distribution of income from                      4                                             4
                             19
                                             each source. The index varies across country.                          3                                             3




                                                                                                          Density
                                                                                                                    2                                             2


                                                                                                                    1                                             1


                                                                                                                    0                                             0
                                                                                                                        0   .2        .4       .6        .8   1       0   .2       .4       .6        .8   1
                                                                                                                                  Specialization Index                         Specialization Index




Note: The table summarizes the four livelihood diversification indices that we pre-specified but did not include in our main analysis. Higher index values indicate
more household specialization (less income diversification).
                         Table A2: Food Insecurity Experience Scale (FIES) Questions in Ethiopia


                             Pre-COVID-19 Surveys                                             COVID-19 Surveys
     FIES   Question                                             Recall   Question                                              Recall
     FS1    Did you worry that your household would not have     7 day    Was there a time when you or any other adult          30 day
            enough food?                                                  in your household were worried about not having
                                                                          enough food to eat because of lack of money or
                                                                          other resources?
     FS2    How many days have you or someone in your            7 day    Was there a time when you, or any other adult         30 day
            household had to rely on less preferred foods?                in your household, were unable to eat healthy
                                                                          and nutritious/preferred foods because of a lack
                                                                          of money or other resources?
     FS3    How many days have you or someone in your            7 day    Was there a time when you, or any other adult         30 day
            household had to limit the variety of foods eaten?            in your household, ate only a few kinds of foods
                                                                          because of a lack of money or other resources?
39




     FS4    How many days have you or someone in your            7 day    Was there a time when you or others in your           30 day
            household had to limit portion size at meal-times?            household had to skip a meal because there was
                                                                          not enough money or other resources to get food?
     FS5    How many days have you or someone in your            7 day    Was there a time when you or others in your           30 day
            household had to reduce number of meals eaten                 household ate less than you thought you should
            in a day?                                                     because of a lack of money or other resources?
     FS6    How many days have you had no food of any kind       7 day    Was there a time when your household ran out of       30 day
            in your household?                                            food because of a lack of money or other resources?
     FS7    How many days have you or someone in your            7 day    Was there a time when you or others in your           30 day
            household had to restrict consumption by adults               household were hungry but did not eat because
            for small children to eat?                                    there was not enough money or other resources
                                                                          for food?
     FS8    How many days have you or someone in your            7 day    Was there a time when you or others in your           30 day
            household had to go a whole day and night with-               household went without eating for a whole day
            out eating anything?                                          because of a lack of money or other resources?
                          Table A3: Food Insecurity Experience Scale (FIES) Questions in Malawi


                             Pre-COVID-19 Surveys                                              COVID-19 Surveys
     FIES   Question                                              Recall   Question                                              Recall
     FS1    Did you worry that your household would not have      7 day    You or any other adult in your household were         30 day
            enough food?                                                   worried about not having enough food to eat be-
                                                                           cause of lack of money or other resources?
     FS2    How many days have you or someone in your             7 day    You, or any other adult in your household, were       30 day
            household had to rely on less preferred and/or less            unable to eat healthy and nutritious/preferred
            expensive foods?                                               foods because of a lack of money or other re-
                                                                           sources?
     FS3                                                          7 day    You, or any other adult in your household, ate only   30 day
                                                                           a few kinds of foods because of a lack of money or
                                                                           other resources?
40




     FS4    How many days have you or someone in your             7 day    You, or any other adult in your household, had to     30 day
            household had to reduce number of meals eaten                  skip a meal because there was not enough money
            in a day?                                                      or other resources to get food?
     FS5    How many days have you or someone in your             7 day    You, or any other adult in your household, ate less   30 day
            household had to limit portion size at meal-times?             than you thought you should because of a lack of
                                                                           money or other resources?
     FS6    How many days have you or someone in your             7 day    Your household ran out of food because of a lack      30 day
            household had to borrow food or rely on help from              of money or other resources?
            a friend or relative?
     FS7    How many days have you or someone in your             7 day    You, or any other adult in your household, were       30 day
            household had to restrict consumption by adults                hungry but did not eat because there was not
            in order for small children to eat?                            enough money or other resources for food?
     FS8                                                          7 day    You, or any other adult in your household, went       30 day
                                                                           without eating for a whole day because of a lack
                                                                           of money or other resources?
                          Table A4: Food Insecurity Experience Scale (FIES) Questions in Nigeria


                              Pre-COVID-19 Surveys                                             COVID-19 Surveys
     FIES   Question                                              Recall   Question                                              Recall
     FS1    You or any other adult in your household worried      30 day   You or any other adult in your household were         30 day
            about not having enough food to eat because of                 worried about not having enough food to eat be-
            lack of money or other resources?                              cause of lack of money or other resources?
     FS2    You, or any other adult in your household, were       30 day   You, or any other adult in your household, were       30 day
            unable to eat healthy and nutritious/preferred                 unable to eat healthy and nutritious/preferred
            foods because of a lack of money or other re-                  foods because of a lack of money or other re-
            sources?                                                       sources?
     FS3    You, or any other adult in your household, ate only   30 day   You, or any other adult in your household, ate only   30 day
            a few kinds of foods because of a lack of money or             a few kinds of foods because of a lack of money or
            other resources?                                               other resources?
41




     FS4    You, or any other adult in your household, had to     30 day   You, or any other adult in your household, had to     30 day
            skip a meal because there was not enough money                 skip a meal because there was not enough money
            or other resources to get food?                                or other resources to get food?
     FS5    You, or any other adult in your household, re-        30 day   You, or any other adult in your household, ate less   30 day
            stricted consumption in order for children to eat?             than you thought you should because of a lack of
                                                                           money or other resources?
     FS6    You, or any other adult in your household, bor-       30 day   Your household ran out of food because of a lack      30 day
            rowed food, or relied on help from a friend or rel-            of money or other resources?
            ative?
     FS7    You, or any other adult in your household, re-        30 day   You, or any other adult in your household, were       30 day
            stricted consumption in order for children to eat?             hungry but did not eat because there was not
                                                                           enough money or other resources for food?
     FS8    You, or any other adult in your household, went       30 day   You, or any other adult in your household, went       30 day
            without eating for a whole day because of a lack               without eating for a whole day because of a lack
            of money or other resources?                                   of money or other resources?
B     Robustness Checks on Main Analysis
B.1    Results Using Alternative Indices
Per our pre-analysis plan, we pre-specified tests of our primary hypotheses using six indices. After
having collected and cleaned the data and conducted the analysis, we found that nearly all estimates
of the coefficients of interest were not statistically significant. Because of this, we simplified the
presentation of our findings in the main body of the paper to rely solely on our two preferred
indices. These indices are the fractional index and HHI that standardize income categories over
country and over time. This allows for the cleanest possible comparison between countries and
pre/post-outbreak. To complete the pre-specified analysis, we present the results from all of our
main empirical specifications using the other four indices. In short, results do not differ when using
any of these other four pre-specified indices.
    Table B1 presents results using the what we term Fractional Index 2. This index is similar to
our preferred fractional index in that is standardizes income categories across time (pre- and post-
outbreak). It differs from our preferred index in that it does not standardize income categories across
country. This means that each country can have a different number of income sources, taking full
advantage of the richness of the data but making cross country comparisons more difficult. Results
using fractional index 2 are not meaningfully different from those with our preferred fractional
index. Nearly all coefficients of interest are not significant.
    Table B2 provides results for what we terms fractional indices 3 and 4 and HHI 2. Fractional
index 3 standardizes income categories across countries but uses only the pre-COVID data for
construction. Fractional index 4 also uses only pre-COVID data but does not standardize across
countries. Recall our preferred fractional index standardizes across both time and country, making
the index comparable across these dimensions but also resulting in the fewest categories. Fractional
index 4 uses all available data, resulting in the most income categories possible for each country,
but the loss of standardization means the index values from one country are not comparable to
another. Like fractional index 4, income categories in HHI 2 are not standardized across country.
    In Tables B2 and B3 we present results of all three indices’ impact on food security using the
ANCOVA and difference-in-difference specifications. Note that since all of these indices use only
baseline data we cannot employ them in the dynamic panel models. Similar to the results using
our two preferred indices, that vast majority of point estimates are not statistically significant.
    We conclude that our primary results, which show no significant relationship between livelihood
diversification and welfare outcomes, are not an artifact of our definition of livelihood diversification.
Using alternative, pre-specified indices does not change our findings.
    In this Online Appendix we present additional information on our main results. First, we
present tabular versions of the main results from the paper. Second, we present results from our
pre-specified difference-in-difference regressions, which serve as a robustness check on our preferred


                                                   42
ANCOVA results.
   In terms of our main results, Table 4 corresponds to a figure in the main text. The graphical
representation of results in the main text is limited to our variable of interest: an interaction term
in the dynamic panel model and the value of the pre-COVID index in the ANCOVA model. While
the coefficient plots are succinct and condensed, they lack information on sample size as well as
coefficient estimates on other terms that might be of interest in the regressions. Below we present
results from our main specifications in tabular form so as to provide more complete information for
the interested reader.

B.2   Results Using Alternative Specifications
In addition to ANCOVA specifications, we estimate a simple difference-in-difference model in which
we include an indicator for the start of COVID-19-related restrictions in Sub-Saharan Africa. This
specification takes on the following functional form:


           yit = α + β1 divit=0 + β2 (divit=0 ∗ covidt ) + β3 covidt + δt + cj ∗ tt + ui + ϵit .   (B.1)

   Here divit=0 is the diversity index in the pre-pandemic period and covidt is an indicator for
before and after the start of the pandemic. The variable of interest in this specification is β2 , the
difference-in-difference effect of income diversity post-pandemic.
   As seen in Figure B1, results for food insecurity from the difference-in-difference specifications
are generally consistent with their ANCOVA counterpart (Table 5) but with less precise measures
of standard errors. The same is true for results on educational engagement.
   While not pre-specified, we also test the robustness of our results to using using the Arellano-
Blover/Blundell-Bond (Arellano and Bover, 1995; Blundell and Bond, 1998) GMM estimator. These
results are presented in Table B4. With this specification, we demonstrate that the size of the
downward bias is small and does not affect the interpretation of our results, with both specifications
mirroring one another.




                                                    43
     Table B1: Dynamic Panel & Panel with Interactions Regressions - Fractional Index 2 [Dependent Variable: Food Insecurity]


                                                  Dynamic Panel Regressions                                                                                                 Dynamic Panel Regressions with Government Stringency Score
                              Ethiopia                                   Malawi                                           Nigeria                                     Ethiopia                                              Malawi                                          Nigeria




             -1 -.8 -.6 -.4 -.2 0 .2 .4 .6 .8 1          -1 -.8 -.6 -.4 -.2 0   .2 .4 .6 .8   1           -1 -.8 -.6 -.4 -.2 0   .2 .4 .6 .8   1   -.4   -.3    -.2   -.1   0   .1   .2    .3   .4          -.1 -.08-.06-.04-.02 0 .02 .04 .06 .08 .1       -.1 -.08-.06-.04-.02 0 .02 .04 .06 .08 .1
                      Effect on Food Insecurity                  Effect on Food Insecurity                        Effect on Food Insecurity                    Effect on Food Insecurity                            Effect on Food Insecurity                       Effect on Food Insecurity



                                                  Mild          Moderate          Severe          Index                                                                                              Mild           Moderate         Severe         Index




          Note: The figures plot results using our second fractional index that spans pre- and post-outbreak data. This index differs from our main
44




          fractional index in that it is not standardized across countries. Results come from dynamic panel and dynamic panel with interactions
          regression (see Equation 3.1 and 3.2). Horizontal lines represent 95 percent confidence intervals calculated using standard errors clustered at
          the household.
                                                                       Table B2: ANCOVA Regressions [Dependent Variable: Food Insecurity]


                                                                            Fractional Index 3                                                                                                                               Fractional Index 4
                                          Ethiopia                                                                             Malawi                                                          Ethiopia                                                                     Malawi




        -.5 -.4 -.3 -.2 -.1     0   .1    .2   .3   .4    .5                               -.5   -.4   -.3      -.2      -.1     0      .1   .2   .3   .4   .5   -.5   -.4   -.3   -.2   -.1      0       .1   .2       .3    .4    .5    -.5   -.4   -.3    -.2      -.1    0    .1     .2     .3   .4   .5
                                Effect on Food Insecurity                                                            Effect on Food Insecurity                                       Effect on Food Insecurity                                                      Effect on Food Insecurity



                                          Nigeria                                                                                                                                              Nigeria




        -.5   -.4   -.3       -.2   -.1        0     .1        .2      .3    .4    .5                                                                            -.5   -.4   -.3   -.2   -.1      0       .1   .2       .3    .4    .5
                                Effect on Food Insecurity                                                                                                                            Effect on Food Insecurity



                                                                Mild          Moderate     Severe            Index                                                                                               Mild          Moderate   Severe            Index
45




                                                                                   HHI 2
                                          Ethiopia                                                                             Malawi




        -.5   -.4   -.3       -.2   -.1        0     .1        .2      .3    .4    .5      -.5   -.4   -.3      -.2      -.1     0      .1   .2   .3   .4   .5
                                Effect on Food Insecurity                                                            Effect on Food Insecurity



                                          Nigeria




        -.5   -.4   -.3       -.2   -.1        0     .1        .2      .3    .4    .5
                                Effect on Food Insecurity



                                                                Mild          Moderate     Severe            Index




     Note: The figures plot results using our second fractional index that spans pre- and post-outbreak data. This index differs from our main
     fractional index in that it is not standardized across countries. Results come from ANCOVA regression (see Equation 3.3). Horizontal lines
     represent 95 percent confidence intervals calculated using standard errors clustered at the household.
                                                   Table B3: Difference-in-Difference Regressions [Dependent Variable: Food Insecurity]


                                                                                  Fractional Index 3                                                                                                                        Fractional Index 4
                                          Ethiopia                                                                               Malawi                                                        Ethiopia                                                                  Malawi




        -1   -.8   -.6    -.4     -.2      0       .2        .4        .6    .8     1            -1   -.8   -.6      -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4   -.2      0       .2   .4      .6    .8    1     -1   -.8   -.6      -.4   -.2     0      .2   .4   .6   .8   1
                          Effect on Food Insecurity                                                                 Effect on Food Insecurity                                      Effect on Food Insecurity                                                Effect on Food Insecurity


                                          Nigeria                                                                                                                                              Nigeria




        -1   -.8    -.6     -.4     -.2        0        .2        .4        .6     .8    1                                                                        -1   -.8   -.6   -.4   -.2      0       .2   .4      .6    .8    1
                          Effect on Food Insecurity                                                                                                                                Effect on Food Insecurity


                                                                   Mild             Moderate     Severe           Index                                                                                         Mild          Moderate   Severe           Index
46




                                                                                         HHI 2
                                          Ethiopia                                                                               Malawi




        -1   -.8    -.6     -.4     -.2        0        .2        .4        .6     .8    1       -1   -.8   -.6      -.4   -.2     0      .2   .4   .6   .8   1
                          Effect on Food Insecurity                                                                 Effect on Food Insecurity


                                          Nigeria




        -1   -.8    -.6     -.4     -.2        0        .2        .4        .6     .8    1
                          Effect on Food Insecurity


                                                                   Mild             Moderate     Severe           Index




     Note: The figures plot results using our second fractional index that spans pre- and post-outbreak data. This index differs from our main
     fractional index in that it is not standardized across countries. Results come from dynamic panel and dynamic panel with interactions
     regression (see Equation 3.3). Horizontal lines represent 95 percent confidence intervals calculated using standard errors clustered at the
     household.
       Figure B1: Difference-in-Difference Regressions [Dependent Variable: Food Insecurity]


                                                                                    HHI
                         Ethiopia                                                   Malawi                                               Nigeria




      -.4   -.3   -.2   -.1   0   .1   .2     .3   .4          -.4   -.3    -.2   -.1    0   .1   .2   .3   .4       -.4   -.3    -.2   -.1   0    .1   .2   .3   .4
                  Effect on Food Insecurity                                Effect on Food Insecurity                             Effect on Food Insecurity



                                                        Mild               Moderate           Severe         Index




Note: The figure plots difference-in-difference regression results with region and round controls (see Equation B.1).
We display coefficients for baseline, pre-pandemic, Herfindahl-Hirschman Index (HHI) for Ethiopia, Malawi, and
Nigeria. Horizontal lines represent 95 percent confidence intervals. Horizontal lines represent 95 percent confidence
intervals based on standard errors clustered at the household level.




                                                                                        47
                          Table B4: Arellano–Bond Dynamic Panel Estimation

                                                   Ethiopia                                            Malawi
                                  FS Index       Mild   Moderate       Severe     FS Index      Mild     Moderate       Severe
Lagged Fractional Index (FI)         0.548       0.568       0.591**    0.045       -0.051    1.161        -0.223        0.349
                                    (0.369)    (0.292)     (0.188)     (0.061)     (0.394)  (0.699)       (0.469)      (0.188)
Lagged FS × Lagged FI                0.262      -0.292      -0.218      0.203       0.276    -0.968        0.462        -0.311
                                    (0.230)    (0.308)     (0.256)     (0.381)     (0.215)  (0.696)       (0.476)      (0.288)
Lagged Food Security (FS)            0.407*      0.666**     0.667**    0.143       0.401** 0.839           0.131        0.506**
                                    (0.201)    (0.249)     (0.214)     (0.317)     (0.130)  (0.430)       (0.294)      (0.185)
Observations                         9,622      9,622       9,622       9,622       3,987      3,987       3,987        3,987
Note: The table displays regression results from our dynamic panel specification with household fixed effects, round dummies,
and region-time trends. FI stands for Fractional Index while Increased (Decreased) indicates how the household’s income changed
in the past 30 days. Standard errors, clustered at the household, are reported in parentheses (*** p<0.001, ** p<0.01, * p<0.05).




                                                             48
C     Heterogeneous Effects Analysis
In our pre-analysis plan we proposed to investigate the heterogeneous effects of livelihood diversi-
fication for different population subgroups. Specifically, we planned to assess differences for male-
and female-headed households as well as urban and rural households. We did not present these
results in the main body of the paper since our primary results were not significant and because
the subgroup analysis also produced null results. For completeness, we discuss the method used
and results of the sub-group analysis here.
    In Table D1 we present the distributions of all of the indices comparing urban and rural as
well as male- and female-headed households. We only include the pre-COVID-19 data, even when
post-outbreak rounds are available for that index. Urban households tend to be more specialized
than rural households, a result that is particularly evident in Ethiopia. There are not notable
differences in income diversification by head-of-household gender.

C.1    Method
To estimate heterogeneous effects of livelihood diversification on welfare outcomes use the ANCOVA
specifications discussed in section 3. We interact the sub-group indicator variables with livelihood
diversification at baseline to understand the differential impacts for female headed households and
rural households.


            yit = α + β1 divit=0 + β2 (divit=0 ∗ subi ) + β3 subi + β4 yit=0 + δt + rj ∗ tt + ϵit      (C.1)

subi is an indicator variable for population subgroups based on head-of-household gender or house-
hold sector for household i. All other terms are as previously defined. The interaction term, β2 ,
represents the differential impact of pre-COVID-19 livelihood diversification on household welfare
outcomes for these population subgroups. Standard errors are clustered at the household level.
    Similarly, we estimate heterogeneous effects using a standard difference-in-difference model, with
out coefficient of interesting being on the triple difference effect of COVID-diversification-female
headed/rural household (β7 ):



    yit = α + β1 divit=0 + β2 (divit=0 ∗ covidt ) + β3 covidt + β4 (divit=0 ∗ subi ) + β5 (covidt ∗ subi )
       + β6 subi + β7 + (divit=0 ∗ ∗covidt ∗ subi ) + δt + cj ∗ tt + ϵit .                             (C.2)

All other terms are previously defined and standard errors are clustered at the household.




                                                      49
C.2      Heterogeneous Effects of Livelihood Diversification
In the main paper we address two pre-specified research questions. In this section, we explore
our third pre-specified research question: does income diversification have disparate impacts on
different country subgroups in the context of the COVID-19 pandemic? Specifically, we investi-
gate heterogeneous impacts for male- and female-headed households as well as urban and rural
households. To detect these potentially disparate effects, we include binary interactions term in
our ANCOVA and difference-in-difference specifications indicating head-of-household gender and
household sector. Because we use only the ANCOVA and difference-in-difference specification to
answer this question, we restrict our analysis to just the indices that rely on baseline data (fractional
indices 3 and 4 and HHI 1 and 2).
   Table D2 displays coefficient estimates for the ANCOVA specification with a head-of-household
gender interaction. In this context, male-headed households are the comparison group. While
nearly every coefficient of interest is not significant, coefficients tend to be slightly positive coeffi-
cients, suggesting that households headed by women may experience increased food insecurity when
household incomes are more specialized. As seen in Table D3, using the difference-in-difference esti-
mator also produces null results with a similar tendency for most coefficients to be slightly positive.
   We also test for heterogeneous impacts across rural and urban populations. Similar to the
results for differences based on gender of the head-of-household, all of the results for differences
between urban and rural households are statistically insignificant. Unlike the head-of-household
gender results, the specifications that include urban/rural indicators do not point to a consistent
relationship in terms of sign. For these specifications, rural households serve as the comparison
group.
   As seen in Table D4 and Table D5, coefficients for the interaction term do not evidence a
differential impact of livelihood diversification on food security for urban versus rural populations.
Coefficient estimates are never statistically significant and do not follow a discernible trend across
countries.
   Overall we do not find any significant differences in how livelihood diversification impacts welfare
outcomes based on the gender of the head-of-household or whether the household is rural or urban.
There is a slight pattern of female headed households experiencing worse outcomes than male
headed households when female headed households are more specialized. No pattern emerges for
urban/rural households.




                                                   50
              Table D1: Pre-COVID-19 Indices Density by Urban/Rural and Head-of-Household Gender
                                                            Urban/Rural                                                                                                      Male-Headed/Female-Headed
                                       Ethiopia                                                 Malawi                                                                       Ethiopia                                                 Malawi
                                                                              5                                                                 5                                                                   5
          5

          4                                                                   4                                                                 4                                                                   4
Density




                                                                                                                                      Density
          3                                                                   3                                                                 3                                                                   3

          2                                                                   2                                                                 2                                                                   2

          1                                                                   1                                                                 1                                                                   1

          0                                                                   0                                                                 0                                                                   0
                   .2             .4             .6         .8          1         0   .2       .4        .6       .8     1                               .2             .4             .6         .8          1         0   .2       .4        .6       .8   1




                                        Nigeria                                                 Uganda                                                                        Nigeria                                                 Uganda
          5                                                                   5                                                                 5                                                                   5

          4                                                                   4                                                                 4                                                                   4
Density




                                                                                                                                      Density
          3                                                                   3                                                                 3                                                                   3

          2                                                                   2                                                                 2                                                                   2

          1                                                                   1                                                                 1                                                                   1

          0                                                                   0                                                                 0                                                                   0
              0         .2             .4             .6         .8     1         0   .2       .4        .6       .8     1                          0         .2             .4             .6         .8     1         0   .2       .4        .6       .8   1
                                  Specialization Index                                     Specialization Index                                                         Specialization Index                                     Specialization Index


                                                                      Rural   Urban                                                                                                                         Male   Female




                                                                                                                       Fractional Index 1

                                       Ethiopia                                                 Malawi                                                                       Ethiopia                                                 Malawi
          5                                                                   5                                                                 5                                                                   5

          4                                                                   4                                                                 4                                                                   4
Density




                                                                                                                                      Density
          3                                                                   3                                                                 3                                                                   3

          2                                                                   2                                                                 2                                                                   2

          1                                                                   1                                                                 1                                                                   1

          0                                                                   0                                                                 0                                                                   0
              0         .2             .4             .6         .8     1         0   .2       .4        .6       .8     1                          0         .2             .4             .6         .8     1         0   .2       .4        .6       .8   1




                                        Nigeria                                                 Uganda                                                                        Nigeria                                                 Uganda
          5                                                                   5                                                                 5                                                                   5

          4                                                                   4                                                                 4                                                                   4
Density




                                                                                                                                      Density



          3                                                                   3                                                                 3                                                                   3

          2                                                                   2                                                                 2                                                                   2

          1                                                                   1                                                                 1                                                                   1

          0                                                                   0                                                                 0                                                                   0
              0         .2             .4             .6         .8     1         0   .2       .4        .6       .8     1                          0         .2             .4             .6         .8     1         0   .2       .4        .6       .8   1
                                  Specialization Index                                     Specialization Index                                                         Specialization Index                                     Specialization Index


                                                                      Rural   Urban                                                                                                                         Male   Female




                                                                                                                              HHI 1

                                       Ethiopia                                                 Malawi                                                                       Ethiopia                                                 Malawi
          5                                                                   5                                                                 5                                                                   5

          4                                                                   4                                                                 4                                                                   4
Density




                                                                                                                                      Density




          3                                                                   3                                                                 3                                                                   3

          2                                                                   2                                                                 2                                                                   2

          1                                                                   1                                                                 1                                                                   1

          0                                                                   0                                                                 0                                                                   0
              .2             .4             .6             .8           1         0   .2       .4        .6       .8     1                          .2             .4             .6             .8           1         0   .2       .4        .6       .8   1




                                        Nigeria                                                 Uganda                                                                        Nigeria                                                 Uganda
          5                                                                   5                                                                 5                                                                   5

          4                                                                   4                                                                 4                                                                   4
Density




                                                                                                                                      Density




          3                                                                   3                                                                 3                                                                   3

          2                                                                   2                                                                 2                                                                   2

          1                                                                   1                                                                 1                                                                   1

          0                                                                   0                                                                 0                                                                   0
              0         .2             .4             .6         .8     1         0   .2       .4        .6       .8     1                          0         .2             .4             .6         .8     1         0   .2       .4        .6       .8   1
                                  Specialization Index                                     Specialization Index                                                         Specialization Index                                     Specialization Index


                                                                      Rural   Urban                                                                                                                         Male   Female




                                                                                                                       Fractional Index 2
                                                                                                              Continued on Next Page…




                                                                                                                             51
                                                        Urban/Rural                                                                                                        Male-Headed/Female-Headed

                                     Ethiopia                                                    Malawi                                                                       Ethiopia                                                    Malawi
             5                                                           5                                                                            5                                                           5

             4                                                           4                                                                            4                                                           4
   Density




                                                                                                                                            Density
             3                                                           3                                                                            3                                                           3

             2                                                           2                                                                            2                                                           2

             1                                                           1                                                                            1                                                           1

             0                                                           0                                                                            0                                                           0
                 .2        .4            .6            .8          1         0    .2            .4        .6            .8     1                          .2        .4            .6            .8          1         0    .2            .4        .6            .8   1




                                     Nigeria                                                     Uganda                                                                       Nigeria                                                     Uganda
             5                                                           5                                                                            5                                                           5

             4                                                           4                                                                            4                                                           4
   Density




                                                                                                                                            Density
             3                                                           3                                                                            3                                                           3

             2                                                           2                                                                            2                                                           2

             1                                                           1                                                                            1                                                           1

             0                                                           0                                                                            0                                                           0
                 0    .2            .4        .6            .8     1         0    .2            .4        .6            .8     1                          0    .2            .4        .6            .8     1         0    .2            .4        .6            .8   1
                                Specialization Index                                        Specialization Index                                                         Specialization Index                                        Specialization Index


                                                                 Rural   Urban                                                                                                                            Male   Female




                                                                                                                             Fractional Index 3

                                     Ethiopia                                                    Malawi                                                                       Ethiopia                                                    Malawi
             5                                                           5                                                                            5                                                           5

             4                                                           4                                                                            4                                                           4
   Density




                                                                                                                                            Density
             3                                                           3                                                                            3                                                           3

             2                                                           2                                                                            2                                                           2

             1                                                           1                                                                            1                                                           1

             0                                                           0                                                                            0                                                           0
                 0    .2            .4        .6            .8     1         .2        .4            .6            .8          1                          0    .2            .4        .6            .8     1         .2        .4            .6            .8        1




                                     Nigeria                                                     Uganda                                                                       Nigeria                                                     Uganda
             5                                                           5                                                                            5                                                           5

             4                                                           4                                                                            4                                                           4
   Density




                                                                                                                                            Density
             3                                                           3                                                                            3                                                           3

             2                                                           2                                                                            2                                                           2

             1                                                           1                                                                            1                                                           1

             0                                                           0                                                                            0                                                           0
                 0    .2            .4        .6            .8     1         0    .2            .4        .6            .8     1                          0    .2            .4        .6            .8     1         0    .2            .4        .6            .8   1
                                Specialization Index                                        Specialization Index                                                         Specialization Index                                        Specialization Index


                                                                 Rural   Urban                                                                                                                            Male   Female




                                                                                                                             Fractional Index 4

                                     Ethiopia                                                    Malawi                                                                       Ethiopia                                                    Malawi
             5                                                           5                                                                            5                                                           5

             4                                                           4                                                                            4                                                           4
   Density




                                                                                                                                            Density




             3                                                           3                                                                            3                                                           3

             2                                                           2                                                                            2                                                           2

             1                                                           1                                                                            1                                                           1

             0                                                           0                                                                            0                                                           0
                 0    .2            .4        .6            .8     1         0    .2            .4        .6            .8     1                          0    .2            .4        .6            .8     1         0    .2            .4        .6            .8   1




                                     Nigeria                                                     Uganda                                                                       Nigeria                                                     Uganda
             5                                                           5                                                                            5                                                           5

             4                                                           4                                                                            4                                                           4
   Density




                                                                                                                                            Density




             3                                                           3                                                                            3                                                           3

             2                                                           2                                                                            2                                                           2

             1                                                           1                                                                            1                                                           1

             0                                                           0                                                                            0                                                           0
                 0    .2            .4        .6            .8     1         0    .2            .4        .6            .8     1                          0    .2            .4        .6            .8     1         0    .2            .4        .6            .8   1
                                Specialization Index                                        Specialization Index                                                         Specialization Index                                        Specialization Index


                                                                 Rural   Urban                                                                                                                            Male   Female




                                                                                                                                    HHI 2
Note: The table displays kernel density graphs for the pre-COVID-19 round for each of the six livelihood diversification
indices. The first column of graphs shows densities for urban versus rural populations while the second column of graphs
separates the data by male- versus female-headed households. Higher index values indicate more household specialization
(less income diversification).




                                                                                                                                   52
                         Table D2: ANCOVA Regressions by Head-of-Household Gender [Dependent Variable: Food Insecurity]


                                                                      Fractional Index 3                                                                                                                                Fractional Index 4
                                         Ethiopia                                                                    Malawi                                                            Ethiopia                                                                                          Malawi




        -1   -.8   -.6   -.4      -.2      0       .2     .4    .6    .8    1           -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4       -.2         0    .2     .4        .6        .8       1       -1   -.8    -.6         -.4    -.2    0     .2   .4        .6    .8   1
                               Effect on Food Insecurity                                                   Effect on Food Insecurity                                         Effect on Food Insecurity                                                                        Effect on Food Insecurity



                                         Nigeria                                                                                                                                       Nigeria




        -1   -.8   -.6   -.4       -.2      0       .2     .4    .6    .8       1                                                                     -1   -.8   -.6   -.4      -.2      0       .2     .4    .6        .8        1
                               Effect on Food Insecurity                                                                                                                     Effect on Food Insecurity



                                                         Mild         Moderate          Severe           Index                                                                                         Mild             Moderate              Severe                        Index
53




                                                                                HHI 1                                                                                                                                                 HHI 2
                                         Ethiopia                                                                    Malawi                                                            Ethiopia                                                                                          Malawi




        -1   -.8   -.6   -.4       -.2      0       .2     .4    .6    .8       1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4       -.2         0    .2     .4        .6        .8       1       -1    -.8         -.6         -.4    -.2     0        .2        .4    .6   .8   1
                               Effect on Food Insecurity                                                   Effect on Food Insecurity                                         Effect on Food Insecurity                                                                        Effect on Food Insecurity



                                         Nigeria                                                                                                                                       Nigeria




        -1   -.8   -.6   -.4       -.2      0       .2     .4    .6    .8       1                                                                     -1   -.8   -.6   -.4       -.2         0    .2     .4        .6        .8       1
                               Effect on Food Insecurity                                                                                                                     Effect on Food Insecurity



                                                         Mild         Moderate          Severe           Index                                                                                         Mild             Moderate              Severe                        Index




     Note: The figure plots ANCOVA regression results with region and round controls and standard errors clustered at the household level (see
     Equation C.1). We display coefficients for the interaction of lagged income diversity indices (Indices 3-6) and a head-of-household gender
     indicator. Male-headed households serve as the comparison group. Horizontal lines represent 95 percent confidence intervals.
        Table D3: Difference-in-Difference Regressions by Head-of-Household Gender [Dependent Variable: Food Insecurity]


                                                                                          Fractional Index 3                                                                                                                                  Fractional Index 4
                                                    Ethiopia                                                                             Malawi                                                            Ethiopia                                                                           Malawi




        -1   -.8    -.6         -.4     -.2    0      .2   .4        .6        .8    1                      -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4       -.2         0        .2        .4   .6    .8   1       -1   -.8 -.6 -.4 -.2    0     .2    .4   .6     .8    1
                                      Effect on Food Insecurity                                                              Effect on Food Insecurity                                     Effect on Food Insecurity                                                          Effect on Food Insecurity


                                                    Nigeria                                                                                                                                                Nigeria




        -1    -.8     -.6             -.4     -.2     0       .2          .4        .6    .8    1                                                                         -1 -.8 -.6 -.4 -.2     0   .2     .4       .6   .8    1
                                      Effect on Food Insecurity                                                                                                                            Effect on Food Insecurity


                                                                     Mild                 Moderate          Severe           Index                                                                                             Mild           Moderate      Severe            Index
54




                                                                                                    HHI 1                                                                                                                                           HHI 2
                                                    Ethiopia                                                                             Malawi                                                            Ethiopia                                                                           Malawi




        -1    -.8         -.6         -.4     -.2      0        .2         .4        .6    .8       1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4       -.2         0        .2        .4   .6    .8   1       -1    -.8   -.6   -.4       -.2     0      .2        .4   .6   .8   1
                                      Effect on Food Insecurity                                                              Effect on Food Insecurity                                     Effect on Food Insecurity                                                          Effect on Food Insecurity


                                                    Nigeria                                                                                                                                                Nigeria




        -1    -.8         -.6         -.4     -.2      0        .2         .4        .6    .8       1                                                                     -1   -.8   -.6   -.4       -.2         0        .2        .4   .6    .8   1
                                      Effect on Food Insecurity                                                                                                                            Effect on Food Insecurity


                                                                     Mild                 Moderate          Severe           Index                                                                                             Mild           Moderate      Severe            Index




     Note: The figure plots difference-in-difference regression results with region and round controls and standard errors clustered at the household
     level (see Equation C.2). We display coefficients for the interaction of lagged income diversity indices (Indices 3-6) and a head-of-household
     gender indicator. Male-headed households serve as the comparison group. Horizontal lines represent 95 percent confidence intervals.
                                            Table D4: ANCOVA Regressions by Urban/Rural [Dependent Variable: Food Insecurity]


                                                                 Fractional Index 3                                                                                                                   Fractional Index 4
                                     Ethiopia                                                               Malawi                                                        Ethiopia                                                               Malawi




        -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1
                           Effect on Food Insecurity                                              Effect on Food Insecurity                                     Effect on Food Insecurity                                              Effect on Food Insecurity



                                     Nigeria                                                                                                                              Nigeria




        -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1                                                                     -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1
                           Effect on Food Insecurity                                                                                                            Effect on Food Insecurity



                                                     Mild        Moderate      Severe           Index                                                                                     Mild        Moderate      Severe           Index
55




                                                                       HHI 1                                                                                                                                HHI 2
                                     Ethiopia                                                               Malawi                                                        Ethiopia                                                               Malawi




        -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1
                           Effect on Food Insecurity                                              Effect on Food Insecurity                                     Effect on Food Insecurity                                              Effect on Food Insecurity



                                     Nigeria                                                                                                                              Nigeria




        -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1                                                                     -1   -.8   -.6   -.4   -.2      0       .2     .4   .6    .8   1
                           Effect on Food Insecurity                                                                                                            Effect on Food Insecurity



                                                     Mild        Moderate      Severe           Index                                                                                     Mild        Moderate      Severe           Index




     Note: The figure plots ANCOVA regression results with region and round controls and standard errors clustered at the household level (see
     Equation C.1). We display coefficients for the interaction of lagged income diversity indices (Indices 3-6) and a head-of-household gender
     indicator. Male-headed households serve as the comparison group. Horizontal lines represent 95 percent confidence intervals.
                             Table D5: Difference-in-Difference Regressions by Urban/Rural [Dependent Variable: Food Insecurity]


                                                                                         Fractional Index 3                                                                                                                                   Fractional Index 4
                                                Ethiopia                                                                            Malawi                                                                       Ethiopia                                                                       Malawi




        -1   -.8    -.6     -.4     -.2    0       .2   .4       .6        .8        1                 -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1    -.8     -.6         -.4         -.2       0      .2     .4    .6       .8   1        -1    -.8    -.6    -.4    -.2     0     .2   .4   .6   .8   1
                              Effect on Food Insecurity                                                                 Effect on Food Insecurity                                          Effect on Food Insecurity                                                               Effect on Food Insecurity


                                                Nigeria                                                                                                                                                          Nigeria




        -1    -.8     -.6         -.4     -.2      0       .2         .4        .6        .8   1                                                                     -1   -.8    -.6     -.4         -.2         0   .2     .4     .6   .8    1
                              Effect on Food Insecurity                                                                                                                                    Effect on Food Insecurity


                                                                Mild                     Moderate      Severe           Index                                                                                                    Mild         Moderate         Severe              Index
56




                                                                                               HHI 1                                                                                                                                                   HHI 2
                                                Ethiopia                                                                            Malawi                                                                       Ethiopia                                                                       Malawi




        -1    -.8     -.6         -.4     -.2      0       .2         .4        .6        .8   1       -1   -.8   -.6   -.4   -.2     0      .2   .4   .6   .8   1   -1    -.8     -.6         -.4         -.2       0      .2     .4    .6       .8   1       -1    -.8    -.6    -.4    -.2     0      .2   .4   .6   .8   1
                              Effect on Food Insecurity                                                                 Effect on Food Insecurity                                          Effect on Food Insecurity                                                               Effect on Food Insecurity


                                                Nigeria                                                                                                                                                          Nigeria




        -1    -.8     -.6         -.4     -.2      0       .2         .4        .6        .8   1                                                                     -1    -.8     -.6         -.4         -.2       0      .2     .4    .6       .8   1
                              Effect on Food Insecurity                                                                                                                                    Effect on Food Insecurity


                                                                Mild                     Moderate      Severe           Index                                                                                                    Mild         Moderate         Severe              Index




     Note: The figure plots difference-in-difference regression results with region and round controls and standard errors clustered at the household
     level (see Equation C.2). We display coefficients for the interaction of lagged income diversity indices (Indices 3-6) and a head-of-household
     gender indicator. Male-headed households serve as the comparison group. Horizontal lines represent 95 percent confidence intervals.