World Bank         70069




Review of Public and Private Disaster Risk Financing
           Mechanisms in Central Europe



     Eugene N. Gurenko, Lead Insurance Specialist
             Denisa Dumitru, Consultant



                       DRAFT


                    August 8, 2009
                                Executive Summary

Central Europe’s Risk Exposure to Natural Hazards

This study comprises a review of government post-disaster safety nets as well as those
provided by the private insurance market in four countries of Central Europe, namely the
Czech Republic, Hungary, Poland and Slovakia.

As frequency and severity of major natural hazards and economic and insured losses
caused by them have considerably increased world-wide, the countries of Central Europe
have been no exception. Central Europe is vulnerable to a number of natural hazards,
such as flood, landslide/mudslide/debris-flow, avalanche, wind-storm, weight of snow,
and fluctuations of extreme temperature.

Between 1980 and 2006, Europe has witnessed a major growth in the scale and frequency
of extreme weather events, which represented 89 per cent (238 billion of euro) out of the
366 billion of euro overall losses from disasters caused by the impact of natural hazards
in this region. The European Environmental Agency’s current projections suggest that
South Eastern, Mediterranean and Central Europe regions are among the most vulnerable
to climate change. Considerable adverse impacts are expected to occur to natural and
human systems that are already under pressure from changes in land use and settlement.

The 1997, 2005 and 2006 floods in Central Europe demonstrated that large disasters
caused by the impact of natural hazards can be very costly and can have major negative
impacts on national budgets.

For instance, the 1997 floods caused over EUR 5.6 bn in economic damages mainly to
Poland (2.9 bn), the Czech Republic (1.8 bn) and Slovakia (0.06 bn).

The 1997 floods were followed by another devastating flood across the Central European
region in 2002. On that year, total economic losses from floods in Central Europe
exceeded EUR 3 bn. During this event, the Vltava river exceeded the water level of the
major 1890 floods in Prague. Some 200 000 Czech residents were evacuated during the
flooding, which caused the total economic loss of EUR 2.3 bn in the Czech Republic
alone.

The 2006 floods affected Hungary, Bulgaria and Romania with economic damages
estimated in excess of EUR 0.5 bn.

Despite considerable economic loss potential from flood in the region, Central Europe
appears to fare much better than most disaster prone areas in the world in terms of its
financial preparedness for natural disasters. On average, over 50 percent of homeowners
across the region are insured against natural disasters and governments, cognizant of
devastating floods at the turn of the last century, have been allocating significant




                                                                                           i
budgetary resources annually for emergency preparedness and post-disaster
reconstruction and aid.


Fiscal Disaster Risk Financing Mechanisms at the Country Level

In all surveyed CE countries, national annual budgetary allocations for emergencies are
significant. All national emergency funds are annual non-accruing funds, meaning that
they maintain the same statutory size in budget percentage terms and cannot be
accumulated or carried forward from one year to another.

In all surveyed CE countries, the emergency assistance aid can be made available to
households, businesses, and local governments. None of the surveyed countries have a
means testing requirement as a precondition for emergency assistance, although in Poland
local officials have a considerable discretion in determining the eligibility for post-
disaster aid. Overall, there is no clear delineation of government and private sector
liabilities when it comes to funding economic damages in the aftermath of a disaster.

In all four countries the government stands ready to provide post-disaster financial
assistance to the victims of natural disasters both for emergency relief and reconstruction
purposes. While the former comes in the form of grants, the latter form of assistance in
provided in the form of low interest reconstruction loans and reconstruction grants.

The administrative process involved in mobilizing additional resources in cases of major
disasters caused by the impact of natural hazards appears to rely by and large on the
administrative capabilities of local governments, which are deeply involved in the whole
process of post-disaster loss assessment and eventual distribution of the funds to
beneficiaries. The emergency relief assistance appears to be delivered to victims of
disasters within days.


The Role of Private Catastrophe Insurance in Disaster Risk Financing in CE countries

Due to the very large floods at the turn of century the insurance industry in CE is well
prepared to handle large catastrophic events. The big floods have also helped to increase
the public awareness of risk which translated into a rather high level of property
insurance penetration among households and SMEs. The unique feature of the CE
markets is that traditionally catastrophe insurance perils have been included in the overall
scope of coverage under the homeowners’ policy rather than being an optional policy
endorsement, which is the case in most other markets. As a result, almost all households
with a fire policy are also automatically covered against flood, windstorm, landslides,
hails and avalanches. Table 1 below summarizes our estimates of catastrophe insurance
penetration in the CE region by country.




                                                                                           ii
    Table 1. Catastrophe Insurance Penetration in Central European Countries

Country                                Homeowners with catastrophe insurance (%)
Czech Republic                         49
Poland                                 56
Slovakia                               51
Hungary                                73

The cost of catastrophe insurance coverage varies considerably across the region, not
only because of different levels of disaster risk exposure in different countries but also
because of varying levels of market discipline over risk pricing. For instance, if in the
Czech Republic, most insurers charge adequate risk premium for the catastrophe portion
of the risk, in Poland the situation is markedly different as the risk premium is driven
more by the market competition than by the technical fundamentals.

On the supply side, as the market is dominated predominantly by large international
insurance groups, except for Poland where the state-owned insurer PZU still holds the
lion’s share of the market. Reinsurance for individual country subsidiaries is typically
placed in a centralized fashion through reinsurance departments of mother companies,
which in turn place the cover for the whole group. This approach allows realizing
considerable savings which translates into lower premiums for homeowners. In the case
of PZU, the sheer size of the company allows it to pull the risk country-wide which
results in a well-diversified risk exposure and highly affordable pricing.

Insurance regulators in CE countries seem to be well aware of the importance of adequate
catastrophe risk management in insurance companies. In the Czech Republic, for
instance, the Insurance Regulator requires companies to supply estimates of their overall
Probable Maximum Loss from a 200-year event as well as the details of their reinsurance
programs. In Poland, catastrophe risk scenarios have been incorporated into a planned
stress testing for the whole market.


Conclusions and policy recommendations

Despite considerable risk exposure to natural disasters the existing risk financing
mechanisms in the countries of Central Europe are relatively well developed to address
the consequences of large catastrophic events. The financial preparedness of CE countries
to natural disasters manifests itself in rather high levels of catastrophe insurance coverage
(well over 50%) as well as in considerable commitment of government resources in
national budgets for emergency situations.

Several recommendations emerge from this study. They are intended to guide
government policymakers in developing and applying national and regional disaster risk
financing strategies, suggest ways in which Bank staff and managers can better address
catastrophe risk financing in their dialogue with clients, and provide information and




                                                                                           iii
ideas that may be of value to other stakeholders, such as international donor
organizations, NGOs, academics, and the general public.

Lessening the impact of natural disasters on government budgets. Despite a relatively
high level of insurance penetration in CE countries, governments still carry a
considerable budgetary exposure to catastrophic floods. The current regulatory
frameworks in the Czech Republic and Poland, for instance, make it a government
obligation to assist homeowners in post-disaster recovery and reconstruction efforts.
Moreover, in the case of 1997 flood, the Czech government paid an equal compensation
to both insured and uninsured homeowners for equity reasons. The post-disaster
compensation was funded by additional government borrowing.

This approach to disaster compensation does not seem to optimal. In the case of disaster
compensation, governments should clearly find a way to separate between public and
private liabilities. While the provision of disaster relief, reconstruction of national life-
lines (e.g., utilities, roads, schools and hospitals) is clearly the government responsibility,
recovery of private assets should be funded by individual savings and insurance. This is
particularly the case when such insurance is widely available and quite affordable. To this
end, the governments of CE countries may consider changing the existing post-disaster
compensation policies for housing reconstruction by introducing a strong element of
private responsibility for losses inflicted by natural disasters. Such a policy change is
likely not only to considerably increase insurance penetration among homeowners but
also will help significantly reducing government fiscal exposures to natural disasters.

Reducing the financial vulnerability of homeowners and SMEs to natural hazards. While
the study documented rather high levels of catastrophe insurance penetration among
homeowners and SMEs in Central Europe, almost 50 percent of population still remains
uninsured. In this context, the governments of should consider investing in increasing
public risk awareness as well as changing the existing post-disaster compensation policy
(see above). In addition, those countries of the region, which have a lower level of
property insurance coverage among homeowners, should consider introducing a stand-
alone catastrophe insurance coverage for homeowners and small business owners, which
can be backed by a dedicated reinsurance capacity at the regional level. As has been
demonstrated by the international experience, such programs can provide highly
affordable coverage by realizing the benefits of region-wide risk diversification,
economies of scale and the ability to obtain better pricing terms from the global
reinsurance market. The work on a regional catastrophe insurance facility for the
countries of South Eastern Europe has reached a fairly advanced stage. Once created, the
SECE CRIF will enable insurers selling a stand-alone catastrophe insurance cover to
receive access to a dedicated reinsurance capacity on highly attractive terms.

Enhancing the ability of local regulators to assess the solvency implications of insurers’
catastrophe risk exposures. Although the study documented a considerable level of
technical sophistication on the part of CE insurance supervisors in monitoring and
regulating insurers’ risk exposures to natural disasters, the capacity of CE insurance




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regulatory bodies in catastrophe risk management would benefit from further investments
in regulatory (risk assessment and monitoring) tools and specialized staff training.




                                                                                      v
                                 INTRODUCTION
The Impact of Natural Catastrophes on Central Europe

This study comprises a review of government post-disaster safety nets as well as those
provided by the private insurance market in four countries of Central Europe, namely the
Czech Republic, Hungary, Poland, and Slovakia.

As frequency and severity of major natural hazards and economic and insured losses
caused by them have considerably increased world-wide, the countries of Central Europe
have been no exception. Central Europe is vulnerable to a number of disasters both
natural hazards, such as flood, landslide/mudslide/debris-flow, avalanche, wind-storm,
and fluctuations of extreme temperature. However, most of disaster related losses in the
regional can be attributed to the risk of flood.

Objectives, scope and methodology of the study

The study attempts to establish the extent of financial vulnerability of governments and
households to natural hazards in four countries of Central Europe by examining:

        The fiscal policy of four Central European countries in the areas of post-
         disaster relief and reconstruction.

        The extent of catastrophe insurance coverage provided by the private
         insurance industry in the region as well as the technical capacity of national
         insurance markets to manage catastrophe insurance risk.

Besides documenting the current state of government and market-based safety nets for
homeowners and SMEs affected by natural disasters, the study also suggests a range of
practical solutions and policy recommendations with the view of reducing the financial
vulnerability of the region to natural disasters.

The study is intended for four principal audiences: government officials in Central
European countries; World Bank staff involved in disaster risk financing and
reconstruction projects; the international development community as well as the private
insurance and reinsurance industry.

This Report was prepared based on a series of written surveys followed by interviews
with key government officials, government experts and insurers in four countries of the
study. The field work has been supplemented by a review of the pertinent literature.

The structure of the report is as follows. Chapter I reviews the level of catastrophe
insurance penetration in the four countries of Central Europe. It also provides an
overview of fiscal policies and mechanisms currently in place for dealing with national
emergencies. Chapter II presents the main findings and policy recommendations of the
study.


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                               Chapter I
      A Survey of Catastrophe Insurance Markets in Central Europe
Central Europe’s Risk Exposure to Natural Hazards

Central Europe is highly vulnerable to natural disasters such as flood, landslide,
mudslide, debris-flow, wind-storm, weight of snow, and extreme temperature
fluctuations, with the risk of flood being the most significant. As shown in Table 1,
economic and insured losses in four countries of the region from the 1997 flood alone-
which is considered to be the most catastrophic event in the region over the last 200 years
– were in excess of USD 5 billion.

      Table 1. Economic and Insured Losses from 1997 Flood in Central Europe

Country               Poland                          Czech Republic              Slovakia
Economic loss         2900                            1800                        60
(USD million)
Insured loss          450                             305                         10
(USD million)
Sources: Swiss Re and Munich Re (1997)


Catastrophe Risk Policy Coverage.

Over the last 10 years, the non-life insurance industry in Central European countries has
been transformed by the rapid consolidation, privatization and entrance in the market of
large multinational insurance groups (such as Generali, Allianz, ERGO (Munich Re
Group), and VIG), which currently control the lion’s share of the market in all countries
of the region, except Poland where the state-owned PZU still remains the biggest player.
As a result, the insurance terms and conditions offered by most companies to
homeowners and SMEs in the market under the FLEXA1 cover are pretty standard, with
only slight variations across different companies.

Natural Hazards Covered.
In all Central European countries, insurers offer all-risks homeowners coverage which
insurers property damage to private dwellings from FLEXA and all major natural perils
such as flood, land-slide, windstorm, avalanche, hail, earthquake. Most FLEXA policies
offered by the market in Central Europe do not allow the insured to decline natural
hazards cover, which is an integral part of individual property insurance policy. Small
businesses, industrial and commercial customers however can choose perils to be covered
by their insurance policy, which to a large extent explains why a considerably larger
percent of homeowners is covered against natural disasters. Specifically, while in the case
of homeowners, almost 100 percent of those insured against the risk of fire are also

1
  FLEXA is an abbreviation for the following 5 insured perils, which are typically covered under one
insurance policy: fire, lightening, explosion and aviation.


                                                                                                       2
insured against natural perils, only 40-50 percent of SMEs with a FLEXA cover have
coverage against natural perils.


Catastrophe Insurance Penetration
In general, Central European countries have a rather high level of insurance coverage for
natural perils – well over 50 percent, which is considerably higher than in most OECD
countries without a mandatory catastrophe insurance scheme. For comparison,
catastrophe insurance penetration in Germany during 2001 floods stood at a meager 7
percent.

The main drivers of such a high level of catastrophe insurance coverage have been a
heightened level of risk awareness by the public after the 1997 and 2001 major floods,
the expansion of the mortgage lending industry (as lenders typically require a proof of
property insurance), considerably improved distribution and marketing capabilities of
local insurance companies and, finally, rapid economic growth, which translated into
stronger demand for insurance.

Insured Limits
Insured policy limits for natural perils are typically the same as the sum insured under the
underlying FLEXA policy. The limits of coverage however vary significantly from one
country to another. It is worth mentioning that in some countries Central European
countries the insured limits remain artificially low due to the fact that they are linked to
the historic book property values, which have not updated since the early 1990s.

Deductibles
As deductibles are not very popular with individuals and corporations in Central
European countries, they rarely exceed two percent of sum insured or a few hundred
euros. Many companies do not have any deductibles at all under their all-risk property
policies.

Premium rates
The pricing of all-risk property covers varies significantly throughout the region based on
the local market conditions and the pricing sophistication of insurers. The premiums for
all-inclusive property coverage range from 1 to 4 per mille, e.g. (0.01% to 0.04%). The
variation in the rates can be mainly attributed to the level of competition in each market
rather than to risk characteristics of insured dwellings. In some countries however
insurers refuse coverage to dwellings located in the most flood prone areas, e.g. in Zone
IV.

Terms of coverage
The terms of coverage for catastrophic perils offered by the local market appear rather
generous as insurance policies cover all risks (e.g. FLEXA and natural hazards) with low


                                                                                           3
deductibles. In most cases, FLEXA policies include provide coverage for damage to the
building structure alone, with contents of the building insured under a separate policy.

Indemnification basis
In covering catastrophic perils, insurers are often faced with the problem of
underinsurance arising of policyholders buying less coverage than the replacement cost
of their property. To deal with this problem, insurers include underinsurance penalties
into the terms and conditions of the policy which have the effect of reducing the amount
of indemnity paid in the aftermath of a disaster proportionately to the rate of
underinsurance.2 However, as many insurance policies are sold in conjunction with
mortgage loans, the insured limits are typically set to cover the replacement cost of
mortgaged property to protect mortgage lenders against the loss or damage to their
collateral that may be caused by fires or natural perils.


Claims settlement
In Central Europe, loss adjustment is typically carried out by loss adjustors from
insurance companies, although for complex and large commercial/industrial losses
external professional loss adjusters may be engaged as well. Reinsurers may also be
involved if losses exceed a pre-agreed value.

In most countries of the region, claim settlement is typically done either on the new
replacement cost or residual value basis. The residual value approach enables insured to
reduce the insured limit (initially set at a historic book value) by the amount of accrued
depreciation and hence pay less for coverage which consequently, in the case of a loss,
results in a corresponding reduction of indemnity payment. T Under the new replacement
cost approach the insured limit is set based on the estimated current replacement cost of
the dwelling, which is updated annually, which naturally results in higher insurance
premiums and indemnity payments.

Risk Management
In all Central European markets, large insurance companies have the necessary risk
management skills and expertise to adequately manage their catastrophic risk. As
catastrophe risk accumulations of local insurers can be quite significant relative to their
capital base, large companies actively monitor their risk accumulations and buy
considerable amounts of catastrophe excess of loss reinsurance to reduce their overall risk
exposures to major floods. In the case of large insurance groups reinsurance is typically
placed at a group level for all country subsidiaries, which results in a considerably
improved quality and amount of available reinsurance protection. Typically, reinsurance
treaties are concluded with large reputable international reinsurance companies. The
amount of reinsurance bought by large groups is sufficient to cover catastrophic events
with a 250-year return period. Most of surveyed large insurers had quantitative estimates
of their probable maximum loss potentials (for different return periods) as probabilistic
2
    In the insurance industry, this approach is known as a rule of averaging.


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commercial flood risk models have been made available by several European risk
modeling companies (a Prague-based Inter-map is one example) as well as large
reinsurers (Swiss Re and Munich Re) and commercial reinsurance brokers. As a result,
several companies reported that they use at least 2-3 risk models before committing to a
given estimate of PML for a chosen return period (typically 200-250 return periods are
used).


The above described level of sophistication in risk management is rarely the case for
smaller companies, which do not have the necessary capital and human resources to
afford sophisticated risk management systems. Those however account for 10-15 percent
of market share and hence are unlikely to pose a systemic threat to the market in case of a
major flood event.

Insurance Laws and Regulations
None of the countries of the region, except for Czech Republic have any specific
requirements for pricing, reserving, reinsuring or reporting catastrophe risk underwritten
by local insurers. The Czech Insurance Regulator requires companies to regularly report
their estimates of 250 year PMLs (based on their own risk models) as well as the details
of their reinsurance treaties. In Poland, the monitoring of companies’ catastrophe risk
exposures is viewed by the local regulator as an integral part of preparatory work for
Solvency II. Hence, plans have been made to incorporate catastrophe risk scenarios into
the stress testing of insurers scheduled for the next year.

Poland is in the process of developing a mandatory catastrophe insurance law which
would make catastrophe insurance mandatory for all homeowners. The law however is at
the very early stages of development.

Product Distribution Channels
In Central Europe, to distribute their products, insurers use mainly their own sales force,
and often tied agents. Bank-assurance is also becoming more and more common.




                                                                                              5
                                 The Czech Republic


Catastrophe insurance market overview
Country disaster risk profile

Flood is by far the main natural hazard in the Czech Republic, causing insured losses of
CZK 9.8bn (USD 305.8mn) in 1997 and CZK 36.79bn (USD 1.13bn) in 2002. Floods
result from the limited drainage capacity and the lack of regulation of some of the
country's major rivers. Flooding normally occurs in the summer months when annual
rainfall is at its highest but can also be caused by snow melt. The most hazardous areas
are the river valleys of Moravia and East Bohemia, some of which form narrow, steep-
sided channels deeply cut through the surrounding plateau lands. As the July 1997 floods
demonstrated, however, almost every part of the country is potentially exposed. Flooding
is an annual occurrence in the Czech Republic, but was regarded as little more than a
nuisance until the catastrophic floods of July 1997, which inundated 35% of the country.
This led to a huge increase in the penetration of industrial and residential flood insurance,
with the result that further floods in August 2002 caused insured losses of CZK 36.79bn
(USD 1.13bn), up from CZK 9.78bn (USD 305.8mn) in 1997. Events of this magnitude
are reckoned to have a return period of 500 years on the Vltava and Labe rivers and 250
years on the Berounka, though the fact that two catastrophes occurred only five years
apart must throw all such calculations into doubt. A list of major recent flood events in
the Czech Republic is presented in Table 1 below.

The country is also exposed to a greater or lesser extent to windstorm, hail, weight of
snow, snow melt, and earthquake, although the latter is very insignificant. The risks of
windstorm and weight of snow, however, appear to be quite real. For instance, there have
been two unexpected windstorm catastrophes in the last two years caused by "Kyrill" and
"Emma" causing over €100 million in damages. An atmospheric hazard which caused
unexpectedly high losses in 2006 was weight of snow, followed by flooding caused by
snow-melt. Contrary to initial indications, most of the damage was caused by flooding
rather than weight of snow, which mainly affected disused buildings in the residential and
small business sectors. There is no published estimate for the total market loss, though
Ceska Pojistovna alone paid weather-related claims of CZK 1.5bn (USD 66.37mn) in the
first half of 2006, which would be an equivalent of about USD180 million for the whole
market.




                                                                                            6
Source: AXCO Country Report, 2008.



Natural hazards insurance

Currently, the local insurance market offers an all-risk inclusive property insurance
policy, which besides traditional FLEXA perils also provides coverage against almost all
known types of natural disasters. While in theory, homeowners can exclude natural perils
from their coverage, in practice very few are doing so as the design of homeowners
policies by most companies does not provide consumers with an option to opt out of
natural perils coverage. There are no stand-alone catastrophe insurance policies in the
market today.

The scope of coverage under the homeowners policies includes damage to structures and
internal fixtures. House contents must be insured under a separate policy. A standard
contents coverage includes a small insurance sub-limit on the value of insured contents in



                                                                                         7
house basements, which are the most vulnerable to floods. The sub-limit can be increased
for an additional premium.

Due to the floods of 1997 and 2002 and the rapid growth the market has experienced ever
since, the number of individual property policies at the end of 2007 stood at 1,875,5233.
This corresponds to about 49 percent of all residential dwellings in the Czech Republic,
which is a rather high level of catastrophe insurance penetration by OECD standards.
This high number however conceals the problem with obtaining coverage for people
living in flood prone areas as most insurers do not provide the coverage. In contrast to
Hungary, however, non-availability of flood cover has not become a political issue and
there is no pressure for the establishment of a national flood insurance pool. The problem
with insurability of houses located in close proximity to rivers is also being gradually
addressed by the government investments in flood protection barriers as well as the
government decision to prohibit housing reconstruction in the most flood prone areas.

The main drivers behind such a high level of catastrophe insurance coverage among
homeowners have been the tremendously increased risk awareness among the population
after the two major consecutive floods, exponential growth in mortgage lending (as banks
require proof of property insurance) and the overall economic expansion experienced by
the Czech Republic over the last 10 years.

The level of catastrophe insurance penetration among SMEs is considerably lower as
enterprises can opt out of natural perils coverage and those located in relatively low flood
exposure zones do so.

Most property insurance policies are typically with a small deductible of about 2 percent.
The sum insured for natural hazards is the same as for FLEXA perils and is typically
established at the time of policy issuance. However, the insured limits are typically small
for most of the existing policies (around USD 18,405-USD 30,675)4 due to several
factors. First, non-life policies in the Czech Republic are commonly issued for an
indefinite term or for an annual period with an automatic renewal. This means that the
terms and conditions of coverage remain the same till the policy is cancelled, or a policy-
holder requests a new insured limit, or agrees to switch from the currently prevalent
book-value claims settlement to a replacement cost approach which will considerably
increase the insured limit. The main reason behind homeowners’ reluctance to switch to a
replacement cost approach is a considerable increase in annual insurance premiums
entailed by such a change. Also, as a result of the August 2002 floods, some insurers
limit flood coverage to 20-50 percent of the total sum insured, which limits the market
average for overall individual coverage limits. While floods are unlikely to cause
complete property loss for most homeowners, such low limits of coverage are likely to
trigger considerable underinsurance penalties in case of a major claim.

In the case of loss, claims are settled by insurance companies’ own loss adjustors.


3
    See Annual Report of the Czech Insurance Association, 2007, p. 62.
4
    See AXCO Country Report for the Czech Republic, 2008.


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As 75 percent of the residential property insurance market is controlled by only two
companies – Generali and Kooperativa (VIG), competition on residential property rates
for the existing business is rather week, which enables insurers to charge actuarially
sound rates for the coverage and remain profitable. The situation with the rates was
however dramatically different before the major floods of 1997 and 2002, which served
as a major catalyst for re-pricing the flood risk by the market. After the 2002 floods the
premium rates have been increased by 400 percent and currently remain at around 250
percent level of the pre-2002 flood rates. A summary of flood premium rates charged by
the market is presented in Table 2 below.

                Table 2. Flood premium rates in different flood risk zones

Flood zones (Return Periods in years)                   HHs and SMEs                Commercial and
                                                        premium rates             industrial premium
                                                          (per mille)                   rates*
                                                                                      (per mille)
Zone I (risk of flood is highly remote)                         0.4                       0.7
Zone II (50 or above)                                           0.8                       1.4
Zone III (20-50)                                                2.0                       3.0
Zone IV (<20)                                                   NA                        NA
Notes: *Commercial and industrial are defined as policies with insured limit in excess of Kcz 100 million

Despite the fact that at least 20-25 percent of risk premium is paid back to insurance
agents in the form of sales commissions, these rates still compare rather well with other
flood prone countries in Europe, such as Poland, where the premium rates are driven
predominantly by competition rather than by actuarial risk models.

Virtually, all homeowners policies are sold through companies’ own sale force, agents, or
bank-assurance channels.

Since the 2002 floods the risk management capabilities of the local market have been
transformed and are now on par with the best international practice. Most companies
adopted highly sophisticated risk accumulation control systems that enable them to link
each insured property to a geo-code and hence trace their risk accumulations in real time.
In addition, due to the efforts of large international reinsurance brokers (AON/Benfield)
and reinsurers (Swiss Re and Munich Re), the local insurance market now has rather
accurate flood risk modeling tools which are used to determine companies’ probable
maximum loss (PML) potentials by risk accumulation and at the portfolio level. Model
generated estimates of risk are then used by companies to determine the amount of
reinsurance they need to protect themselves against severe catastrophic events. Currently,
most companies buy reinsurance protection with the view of surviving a 1-in-200 or 250
loss scenario. This roughly comes to about a €1.5 billion insured loss for the whole Czech
market. For comparison, the 1997 and 2002 floods caused insured losses of USD 305 and
USD 1.13 bn, respectively. To reduce the uncertainty of risk modeling estimates large
companies use at least 2 external models, as well as their own. One company recently




                                                                                                            9
hired the Prague University to review major risk models currently in use by the market to
validate the assumptions and methodology employed by the external modelers.

However, the above description of risk management capabilities of the Czech market
applies only to large international insurance groups as the remaining few small
domestically owned companies still do business the old-fashioned way. The problem of
inadequate risk management capabilities in small insurance companies is further
exacerbated by the fact that they must aggressively compete on price with large players,
which leaves them with insufficient premium for placing adequate reinsurance protection
(e.g., with reputable reinsurers and of sufficient quantity).

The insurance market is regulated by the Czech National Bank (CNB). Despite the fact
that the insurance supervision of catastrophe risk management in the market began only
in 2006 it is currently rather advanced by international standards. In brief, companies are
required to submit their reinsurance programs along with estimates of net catastrophe risk
exposure derived from internal risk models. The regulator requires at least a 200-300 year
PML estimate for the whole risk portfolio along with the calculation of aggregate
company’s risk retentions under all reinsurance treaties. A ratio of net retentions arising
from a 200-250 year flood event to solvency capital should not exceed 2-5 percent. From
this year onwards, besides the aggregate retentions the CNB will also be requesting all
sums insured by flood risk zones that were covered by reinsurance treaties.

The CNB appears to be cognizant of the possibility of larger size catastrophe events that
may threaten insurers’ solvency but deems it impractical to require the level of claims
paying capacity in excess of those required by 1-in-250 year events. The government
appears to be clearly committed to provide necessary financial assistance to the insurance
industry in the case of such an unlikely catastrophic scenario. During the 1997 floods, for
instance, the government paid claims for an insolvent locally owned insurer, whose
claims paying capacity was clearly insufficient to survive such a catastrophic event.

The CNB also plans in the very near future to have the technical capacity to validate
internal companies’ catastrophe risk models. To this effect, the CNB is in the process of
establishing a special risk-based solvency group with advanced quantitative capabilities.

Government post-disaster safety nets

According to the Czech Ministry of Finance, the existing regulatory framework provides
for two types of budgetary emergency allocations in the aftermath of natural disasters.
These are as follows:

   1. Budgetary allocations for emergency and immediate measures aimed at rescue
      and health protection of affected population. To this effect, according to
      Regulatory Acts No. 239/2000 Sb. and No.240/2000 Sb, the government makes
      an annual CZK100 million allocation in the state budget under the chapter of
      Public Treasury Administration. Mentioned financial aid can reach ultimate
      beneficiaries within hours if necessary, as was demonstrated during the 2002



                                                                                        10
        flood. A similar structure of emergency financial aid exists at the level of local
        administrations.

    2. Budgetary allocations for property reconstruction and revitalization. There are
       several short to medium time programs managed by the Ministry of Industry and
       Trade and the Ministry for Regional Development which allocate government
       post-disaster financial aid for the purposes of reconstruction of destroyed property
       in the form of interest-free loans to municipalities, firms and households. This
       type of assistance is based on Acts No. 12/200 Sb and No.186/2002 Sb. – titled
       “State Aid for Territorial Restoration.� This assistance is funded by a 0.3 percent
       annual state budget allocation. In 2009, this amount was CZK 3.5 billion. The
       speed with which assistance is delivered to ultimate beneficiaries depends on
       individual case by case evaluations of the needs of aid applicants5.

Disaster reconstruction can also be funded from the following additional sources:

    ï‚·   Insurance indemnities (Act No.: 218/2000 on Budget Rules explicitly provides for
        the possibility of insuring state property);
    ï‚·   Local and regional budgets;
    ï‚·   State budget chapters (i.e. government departments) by the savings or inhibition
        of some governmental expenditure of the current year;
    ï‚·   State budget by the global or selective reduction of the expenditures of state
        budget chapters of the current year based on the government decision and
        Parliament approval in certain cases (so called government packages);
    ï‚·   Proceeds from the privatization of state property (for example, in 2005, the
        privatization of ÄŒEZ and OSINEK generated CZK 5 billion for the state treasury);
    ï‚·   Issuance of state bonds as stipulated by Act No.: 163/1997. For instance, in the
        aftermath of the 1997 flood, in 1997-1998, the Ministry of Finance issued CZK 5
        billion of bonds to finance reconstruction and rehabilitation efforts;
    ï‚·   Issuance of bonds and other debt obligations by the regions and local authorities;
    ï‚·   Commercial loans.




5
 For more detailed information there is a link on MRD web pages http://www.mmr.cz/Regionalni-
politika/Programy-Dotace/Poskytovani-statni-pomoci-po-zivelni-nebo-jine-poh


                                                                                                11
                                      POLAND

Catastrophe insurance market overview
Country disaster risk profile

Although the country is exposed to a variety of natural perils, flood is by far the most
common and significant. Of all historical events, the 1997 Odra river flood was the most
devastating to the country and the insurance industry. The overall economic losses caused
by the event were USD 3.7 billion, with most of them uninsured. Although large floods in
the Odra river and its tributaries are rather frequent - in the 19th century, four major
floods were recorded in 1813, 1829, 1854 and 1880, while in the 20th century 12 large
floods were recorded – the 1997 event was the biggest on record. The July 1997 flood
was caused by extremely heavy rain, with some meteorological stations recording as
much as 400 mm over a four-day period, which was four times of the long-term average.
A brief summary of the most recent floods is presented in Table 3 below.

                 Table 3. Most significant floods in Poland (1997-2008)




Source: AXCO Country Report, 2008.




                                                                                      12
The existing hazard risk models offered by major reinsurance brokers imply an insured
market loss of about USD 2 billion from a 1-in-200-year event – an event of severity of
the 1997 flood.

Poland is also exposed to wind storms, although the risk is relatively low compared to
that of floods. For comparison, a 1-in-200 wind storm is likely to cause only 1/10 of
economic damage expected from a similar frequency flood.

Hazard Insurance

All natural perils, including flood, are automatically covered by a homeowners’ policy
offered by most local insurers. The most common design of the insurance policy simply
does not provide for an option to opt out of natural hazards coverage. For agricultural
buildings, property insurance cover (including that for flood cover and other acts of god)
is obligatory6, but the legislation is not well enforced and many risks remain uninsured.
As a result of increased flood risk awareness and a growing number of mortgage-
financed properties among newly constructed dwellings, 56 percent of homes in Poland
are insured today against natural perils. This can be considered quite an achievement for
a country where insurance coverage was quite low even 15 years ago. The potential for
expansion is noteworthy due to the growing segment of mortgage-financed construction,
which is 100 percent insured due to the banks’ requirements. In 2007 alone, Poland's
central bank (NBP) reported that mortgage lending increased by 50.4 percent to PLN
116.84bn (USD 41.1bn), which mirrors the significant growth experienced in prior years.
As can be seen from Figure 1 below, today 7.7 million Polish households (or 56 percent
of homeowners) have property flood coverage. This compares to less than 2.5 million
policies in 1996.

Typically, companies do not limit sums insured for flood coverage under the offered
policies. As a result, most of homeowners’ policies do not have flood sub-limits, except
for the areas that are highly exposed to floods.

Due to the increasing competition for the residential property business, which still
remains highly profitable despite a considerable increase in the number of market
players, premium rates are rather low by international or even the Central European
standards. The basic additional premium rate for flood cover historically has been 20
percentof the basic fire rate, but in the current extreme competitive climate coverage is
often included in a global rate. Nevertheless, with an average loss ratio of 40 percent the
residential property business remains highly profitable.

For instance, PZU, the biggest player in the market has been offering all-perils property
covers (e.g., FLEXA and NATCAT) for less than 0.1 percent of insured value, as
compared to 0.25 percent in the neighboring Czech Republic. The average premium
generated per risk is around PLN 99 (USD 44) each for buildings and contents. Despite
the low pricing, the company remains highly profitable and appears to have sufficient

6
 Act of 22 May 2003 on Compulsory Insurance, the Insurance Guarantee Fund and the Motor Insurers'
Bureau


                                                                                                    13
claims paying capacity (comprising reinsurance, own reserves and surplus) to survive a
1-in-200 year flood. PZU’s ability to maintain such low pricing without losing is
profitability can be mainly explained by its country-wide diversification of the risk and a
very large share of the market it commands.

Figure 1. Catastrophe Insurance Coverage Penetration among Homeowners
                                                        Catastrophe Insurance Penetration 1996-2008


                       9,000,000                                                                                              60%



                       8,000,000

                                                                                                                              50%

                       7,000,000



                       6,000,000                                                                                              40%




                                                                                                                                    Insured dwellings (%)
  Insurance policies




                       5,000,000

                                                                                                                              30%

                       4,000,000



                       3,000,000                                                                                              20%



                       2,000,000

                                                                                                                              10%

                       1,000,000



                             -                                                                                                0%
                                   1996   1997   1998   1999   2000   2001   2002   2003   2004   2005   2006   2007   2008


Source: Authors based on the data provided by the Polish Insurance Regulator, 2009

Also, for reasons of competition, most policies in Poland have very low deductibles. In
the case of PZU, for instance, deductibles on a residential property insurance policy are
€100, but even then, they are applied only if the loss is below that amount. Deductibles
for flood and other natural perils are usually the same as for the main FLEXA policy.

Perhaps, one of the key limitations of the current insurance practice is the low insured
limits which rarely approximate the true value of insured dwellings and contents. The
average amount of cover for contents is PLN 15,000 (USD 6,700) and for buildings PLN
130,000 (USD 57,800). Insured limits under most existing policies are set based on the
depreciated book value. However, newly issued policies use the current market value
rather than the historic replacement cost as a basis for claims settlement. These terms of
coverage cannot be changed unless a policy-holder requests it, which most policy-holders
are reluctant to do because of a potential increase in premium. Hence, in case of complete
loss of dwelling, most homeowners will face severe underinsurance penalties – as the rule
of “averaging� is quite common.

As opposed to the residential property segment, most Polish owned SMEs do not buy any
insurance, though awareness is increasing. Companies with foreign capital are generally


                                                                                                                                                            14
better insured and protected. Government property risks in many cases are insured on
written-down book values and not on current or replacement values.

Although the Polish insurance market does not have a commonly shared flood risk model
or high resolution flood risk maps, most companies use their own proprietary
accumulation control systems which enables them to underwrite, price and monitor
residential risk accumulations in flood-prone areas by postal code. For corporations
address based monitoring is used. The PZU, for instance, uses a customized version of
MapInfo program for monitoring its own risk aggregates. For instance, according to
S&P's 2006 credit report, the PZU estimates its probable maximum loss to be between
PLN 860mn (USD 382mn) and PLN 920mn (USD 408mn) based on a one-in-200-year
event.

There are several commercial flood risk models in the market which are offered by large
reinsurance brokers (AON/Benfield, Guy Carpenter), reinsurers (Swiss Re), and risk
modeling companies (RMS). All these models allow monitoring flood risk aggregates at
least by postcode and making estimates of probable maximum loss from events with
different return periods. It is not uncommon for large companies to use several models at
the same time to reduce the level of uncertainty in their estimates of the required claims
paying capacity and, ultimately, the amount of reinsurance protection needed.

Local companies’ risk management efforts are further stimulated by the local regulatory
requirements to report 10 biggest risks as well as by the accumulation control
requirements from the international rating agencies, which are concerned about
companies’ excessive risk exposure to catastrophic risks.

Due to the growing risk retention capabilities of the local market – mainly due to the
market consolidation and buy-outs of locally owned companies by large foreign insurers
– the amount of reinsurance placed with foreign reinsurers has been declining in relative
terms (e.g., as a percent of gross premium written). Nevertheless, for smaller size
insurers reinsurance provides most of claims paying capacity in catastrophic events as
their retentions remain rather insignificant – 5-10 percent, vs. 98.5 percent in the case of
the PZU. The growing risk retentions by larger local companies are partially driven by
the regulatory allowance for claims equalization reserves. The reserves must be set up by
all companies in operation for five years and over. Retentions on any one risk must not
exceed 25% of total technical reserves and own capital, although the regulator can
approve a higher figure in justifiable cases.

While there are no specific catastrophe risk related regulatory requirements, as part of
Solvency II calibration tests (QIS IV), the Insurance Regulator asked companies to
include in their solvency calculations catastrophe risk scenarios for flood and hurricanes
with a 200-year return periods. Further market stress tests are planned by the Regulator
this year, which inter-alia will include major catastrophe risk scenarios and validation of
the modeling methodology used by insurers.




                                                                                          15
Since 1997 floods, the government has been trying to limit land development in flood
prone areas and has been investing heavily into flood protection infrastructure. For
instance, in March 2007, country borrowed USD 189 million from the World Bank for
the Odra River Basin Flood Protection Project. The main development objective of the
project is to protect the population in the Odra basin against loss of life and damage to
property caused by severe flooding. This will be achieved by reducing the extreme flood
peaks through storage in a dry polder on the Odra river, just upstream of Raciborz town,
enabling a reduction of the flood peak downstream of the reservoir, and by increasing the
flood carrying capacity of the Odra river channels through and around Wroclaw. The
project would protect more than 2.5 million people in towns such as Raciborz,
Kedzierzyn, Kozle, Krapkowice, Opole, Brzeg, Olawa and Wroclaw, and settlements in
the three vovoidships of Slaskie, Opolskie and Dolnoslaskie.


Government post-disaster safety nets

Since 1997, the government allocates PZN 753 million (€171 million) in its annual
budget for emergencies. The funds can be used for (a) disaster risk prevention activities,
such as flood protection works; (b) liquidation of property damages caused by natural
disasters through financial assistance to local governments for housing or infrastructure
reconstruction; and (c) post-disaster assistance to individuals. The latter can be eligible
for small grants (up to €1500) to pay for living expenses incurred due to natural disasters
or housing reconstruction grants. Although there is no official limit on the size of
individual reconstruction grants, the ultimate decision on the individual eligibility and the
amount of reconstruction assistance rests with local government officials. There appears
to be a considerable room for government discretion in making such decisions as the
eligibility for government assistance is linked to the demonstrable deterioration of living
conditions as a consequence of a natural disaster. On average it takes up to 1 month for
the funds to reach the beneficiaries, which is relatively quick by international standards.

Currently, the Ministry of Interior, which is in charge of allocating post-disaster aid in
Poland, is working on the first draft of a compulsory catastrophe insurance law, which
will make flood insurance compulsory for all homeowners in the country. At the moment,
only rural dwellings are subject to this requirement. Under the proposed plan, the two
state-owned companies – PZU and Warta- will offer a stand-alone flood insurance policy
to homeowners, which will be made compulsory by the proposed catastrophe insurance
law. The risk will be then partially retained by the companies and partially reinsured in
the international reinsurance market. No special risk pooling mechanism is envisaged
under the plan.




                                                                                          16
                                      SLOVAKIA

                    Catastrophe insurance market overview

Country disaster risk profile

The Slovak Republic has minimal exposure to earthquake risk, and is not considered to
be an area of particular hazard. The four seismic stations in Slovakia associated with the
Geophysics Institute occasionally record weak tremors below Richter 4. The latest
recorded earthquake occurrence was registered in eastern Slovakia on 21 May 2003. The
tremor measured 4.2 Richter and damaged more than 120 of the 135 houses in one
village. The insured damage is not known, but Allianz Slovenska stated that some
policies only pay when the tremor exceeds 5 or 6 Richter.

Traditionally the Slovak Republic was considered a greater flood risk than the Czech
Republic. Floods occurred when rivers overflown due to water from melting snow or
exceptional rainfall and endangered areas along the river valleys in the lowlands.
However, after the disastrous floods in 1964 a system of dams and dykes was built on the
Danube in Slovakia and Hungary in order to prevent the recurrence of a similar event.
The small losses in Slovakia in summer 2002 seem to indicate that the flood control
system is now quite effective and that the country’s hazard risk profile has been reduced
considerably.

Floods following heavy rain have occurred in recent years, but damage has been
significantly lower than in Austria or the Czech Republic. In July 1998, flooding rivers
devastated villages and Romany camps in both the Czech and the Slovak Republics. In
Slovakia, this resulted in the loss of at least 44 lives. Around 2,500 insurance claims were
filed and approximately SKK 54mn (USD 2.81mn) claims were paid.

In 1999 and 2000, there were more occurrences of floods and severe rain damage. These
events were less severe than the 1998 floods. Areas in eastern Slovakia with low
concentration of domestic or commercial risks were the most affected.
The disastrous floods of summer 2002 caused greater devastation in the Czech Republic
and other countries than in Slovakia. Bratislava was in a state of emergency for eight
days in August, however. Preventive measures including sandbags and evacuation were
effective, and there was only one fatality. It was the highest water level in Bratislava for
65 years. The Slovak government estimate of total economic damage from this event and
earlier floods in March and July was SKK 1.8bn (USD 93.654mn). Insured damage was
relatively light as many affected dwellings were not insured: the insurance association
estimated a market loss of SKK 140mn (USD 7.28mn). In 2004, the National Contact
Centre for Civilian Security registered nine flood events, the biggest ones in July in the
Kosice and Presov areas. The insured loss was insignificant.

AON-Benfield (a reinsurance broker) has the only fully probabilistic model in the
country, which has been available since 2003. The also can help clients to calculate their


                                                                                          17
probable maximum losses for insured portfolios for the purpose of placing reinsurance
coverage. Despite the increasing competition, so far the average market loss ratio for
property has been rather low as Slovakia typically remains unaffected by windstorms
such as Emma which frequently cause considerable property damages in Austria and the
Czech Republic. A full probabilistic flood model has existed.


Hazard Insurance

In contrast to Poland and the Czech Republic, where property owners cannot opt out of
natural perils coverage, in Slovakia coverage for all major natural perils, including flood,
earthquake, hail, wind, burden of slow and landslide is optional and can be obtained for
an additional premium in addition to the standard insurance package of FLEXA perils. As
a result of this consumer discretion over the scope of coverage, over 30 percent of insured
homeowners opt out of the catastrophe insurance coverage. A similar percentage of
SMEs – 30 percent - with general property insurance coverage do not have optional flood
and earthquake endorsements. Yet, the estimated level of catastrophe insurance
penetration in Slovakia is still relatively high – about 51 percent of all homes (e.g., 0.952
million dwellings) are covered against catastrophic perils. This can be considered quite
an achievement for a country where insurance coverage was quite low even 20 years ago.
There is potential for further expansion due to the growing segment of mortgage-financed
construction, which is 100 percent insured due to lenders’requirements.

Deductibles for natural perils are virtually non-existent or very small. Instead, since the
floods of August 2002, insurers typically use sub-limits of about of 20-30 percent of
sums insured under the FLEXA policy. Some insurers check the loss history for new
risks and exclude flood altogether if a risk had a flood loss within the last 10 years.

Replacement is the basis for indemnity of property damage most of the time; very
occasionally, cover is placed on a "book value" basis.

No indications of premium rates are available, since they can vary widely depending on
the area where flood coverage is requested.

Insurers track the flood risk mainly for insured properties in low-lying areas close to
rivers and for the earthquake risk by CRESTA zone. Following the 2002 floods, many
companies are now looking into acquiring more sophisticated flood risk accumulation
control tools. In response to the growing interest from the market in flood modeling tools,
Benfield has produced a flood reinsurance model mainly to calculate aggregate risk
exposures and probable maximum losses from events with different return periods. Swiss
Re has been working with the Slovak Insurance Association and a software company to
develop a rating model for floods in Slovakia, which can also allow monitoring aggregate
risk exposures and estimating probable maximum portfolio losses. The model is very
similar to that developed by the company for the Czech Republic.




                                                                                              18
Large companies appear to track their aggregate accumulations and use modeling tools to
determine their PMLs. A return period of 250-years is used for internal risk management
purposes in calculating insurers’ own risk exposures.

The existing Aquarius model now allows calculating probable maxim portfolio losses in
each of four flood zones for different return periods. It has been almost 50 years since
there was a major flooding incident when the Danube burst its banks. Since then a dam
has been built to contain any future loss exposure. In response to the flood management
regulations, a national program has been set up to reinforce flood prone areas and build
dykes and dams where necessary.

Government Risk Financing

The Ministry of Environment of the Slovak Republic is the main government body
responsible for flood control. The budgetary appropriations for flood management and
post-flood recovery are made under the budgetary chapter VÅ¡eobecná pokladniÄ?ná správa
(General Treasury Administration) which is administered by the Ministry of Finance.

The Law of the National Council of the Slovak Republic Nr. 42/1994 Z.z. (and in the
wording of subsequent directives) regarding the civil protection of the population defines
an extraordinary event as natural disaster, accident, catastrophe or terrorist attack.
Since the time the law has been adopted, flood is always classified as a natural disaster.

The Ministry of Environment is responsible for preparing an annual flood damage report.
The report serves as a basis for budgetary allocations for rescue and relief work as well as
for post-disaster reconstruction and prevention. The government disaster risk financing
mechanism typically involves a budgetary transfer from the Ministry of Finance to the
Ministry of Environment (or other government agencies involved in disaster relief or
rehabilitation work), which in turn make the funds available to the final beneficiaries-
municipalities, regional environment administration offices, and state-owned hydropower
stations. The regional offices of the Ministry of Environment further allocate the funds to
villages and private citizens.

The existing national legislative framework for disaster risk management and financing is
described in the following legislation:

       1. Law Nr. 666/2004 on flood prevention;
       2. Decree Nr. 386/2005 issued by the Ministry of Environment on monitoring
          flood related damages and undertaken response measures;
       3. Decree Nr. 387/2005 by the Ministry of Environment evaluation of damages
          and compensation of flood-related damages.

Typically, it takes at least half a year to get the aid to the flood victims. Ministry of
Environment does not provide any additional resources besides those enviaged under the
above described budgetary allocation from the Minstry of Finance.




                                                                                         19
Provision of post-disaster subsidies is not contingent upon availability of private
insurance.

There is no maximum pre-set in advance amount of financial assistance to victims of
disasters and no means testing requirements.




                                                                                20
                                       HUNGARY

                     Catastrophe insurance market overview
Country disaster risk profile

Hungary’s risk exposure to natural perils is by-and-large limited to earthquake and flood
But even then the country’s overall economic exposure to these perils is rather moderate.

Hungary’s exposure to earthquake results from the compressive motions of the Eurasian
and African plates, which elevated the Carpathian Mountains to the north and east of the
great Hungarian Plain (see Figure 1 below).

A relic of past crustal movements can also be seen in the long-extinct volcanoes on the
northern shores of Lake Balaton. Earthquake is regarded as a minor hazard by most of the
local companies, though the risk appears to be under-estimated and therefore under-rated.
The local market works on the assumption of a moderate earthquake every 30 to 35 years
and a severe earthquake every 90 years.

There is an earthquake construction code which applies to concrete slab and steel frame
and concrete buildings. Most buildings in Hungary either pre-date the code, however, or
are not covered by it. There is said to be a Richter 5 event every year, but damage is
usually negligible. Recorded events in excess of intensity 5 from 1917 onwards are listed
below:
                 Table 1. History of sizeable earthquakes in Hungary




Source: AXCO, 2009




                                                                                       21
                 Figure 1. Earthquake map of South Eastern Europe




The last significant event was in 1985 in the area north of Lake Balaton. The estimated
loss was HUF 200mn (approximately USD 2.4mn) falling mainly on the household
account.

Hungary’s risk exposure to floods arises from the presence of two main rivers on its
territory – Tisza flowing through Szeged and the Danube that flows through Budapest.
The country’s flood plain areas are estimated at 5450 sq. km., out of which 900 sq. km.
were flooded in 2006.

In more distant past Hungary suffered a number of catastrophic floods, two of the most
notable being the Danube flood of 1838 which destroyed Pest and the Tisza flood of 1879
which destroyed Szeged. Such major events have been largely eradicated, however, by
river improvement schemes and the building of dikes to create flood basins along the


                                                                                          22
courses of the major rivers. The success of these measures was dramatically proven in
April 2006 when the Danube rose to its highest level for nearly 150 years but caused
almost no insured flood losses. The river Tisza in the east of the country produced severe
floods in March 1999, 2000 and 2001 but insured losses were low.

                          Table 2. Hungary’s flood exposure




Source: AXCO Country Report, 2009.

Hungary's floods are normally caused by rainfall and snow-melt in the Carpathian and
Tatra mountains, outside Hungary itself. The most exposed areas are the northern reaches
of the Tisza where it enters Hungary from the Ukraine, the Koros where it enters
Hungary from Romania, and the southern reaches of the Tisza after its confluence with
the Koros. There is also a risk of flooding from the Danube south of Budapest.
Altogether, an estimated two million hectares of land are exposed to 1:100 year flooding.
Between 1999 and 2001 there was a marked increase in severe flood incidents in the east
of the country.

Flooding on the upper reaches of the Tisza in 1999 was regarded as a 1:100 year event,
and yet the flood level in March 2000 was nearly 20cm higher. In a further incident in
March 2001 the level of the Tisza rose by 8m in a day as a result of melt-water from the
Carpathians coinciding with unusually heavy rains. This increase in flood incidents is
said to be the result of deforestation in the Tatra Mountains increasing the amount of
rainwater run-off. Flood waters draining from central Europe in August 2002 and April
2006 raised the Danube to dangerously high levels, but the embankments in Budapest
held and insured flood losses further down-river were negligible. As a result of recent
incidents the government has initiated a 10-year flood improvement plan for the Tisza.
Overflow channels are being dug and dikes heightened to 1m above the level of the
highest recorded flood.




                                                                                        23
The local insurance market however does not see the flood PML as being significant,
even in the event of the Danube and Tisza rivers flooding simultaneously. One reason for
a low PML is the fact that the most flood-prone rivers, the Tisza and the Koros, flow
through agricultural areas where insurance penetration is low and there is relatively little
industrial development. Insurers have also taken comfort from the fact that recent floods
have been relatively localized and have affected different stretches of the Tisza valley
each year. In 2001, for example, only four villages were inundated. Insurers are also
protected by restrictive policy wordings, which exclude non-flood-protected properties,
and by specific underwriting measures, such as the exclusion of properties of mud brick
construction. The overall insured loss statistics for the last decade is summarized in Table
3 below.

                                     Table 3. Insured flood losses
Flood date Total losses Insured losses




Source: AXCO Report, 2009.

Most damage was caused to roads, bridges and village houses. A surprising feature of the
floods was the number of total loss buildings claims. These arose because many rural
homes are built of mud brick which can become saturated and unstable after prolonged
exposure to standing water.


Hazard insurance

At the time this report was being prepared there were 30 insurance companies supervised
in Hungary, of which 10 were non-life, 10 life and 10 composite. A total of 11 branches
have been established by EU insurers on a freedom of establishment basis, though most
of these are inactive. Non-life insurance is also written by 34 insurance associations
which are mainly active in agriculture and motor. Every insurance company except the
state export credit insurer is foreign-owned. The market is dominated by Allianz
Hungaria, which retains a market share of around 35 percent.

An unusual feature of the Hungarian property insurance market is the high level of
penetration of household business. According to our estimates, in 2009 the local insurers
held around 2.9 million residential property policies in their portfolios, which represents a
penetration rate of over 70 percent of households. OTP Garancia, Generali-Providencia,
Aegon and Allianz Hungaria have all in excess of 500,000 household policies on their
books, which accounts for a high proportion of their catastrophe accumulations.
As catastrophe insurance coverage is typically offered by the local market as part of the
all-risk property policy at a very competitive rate, very few homeowners (around 5
percent) opt out of it. In fact, it appears that such opting out of the natural hazards
coverage is only possible in the case of smaller insurance companies which use this
feature to remain competitive. Such a high level of property insurance coverage among


                                                                                          24
households can at least be partially explained by the mandatory insurance coverage
requirement introduced by local banks for all new mortgage borrowers. In response to the
government interest rate subsidies for new mortgage borrowers, the mortgage lending
market grew rapidly between 2002 and 2006, hence driving up the level of property
insurance penetration among the Hungarian homeowners. The recent phasing out of
mortgage subsidies has reduced the amount of household new business, and insurers are
now trying to increase their premiums per policy by selling assistance, legal protection,
life and personal accident riders.

A typical comprehensive policy includes the perils of fire, lightning, explosion, aircraft,
storm, hail, weight of snow, landslide, collapse of underground cavities, impact by
vehicles, cloudburst, flood, earthquake, burst pipes, burglary and glass breakage. Flood
wordings generally exclude damage to houses built of mud brick and houses situated
between river banks and flood protection dikes. Policies are normally issued on a
reinstatement basis and sums insured are index-linked. Many policies specify the level of
security protections required for varying sums insured. "Condominium" policies are
available to provide collective insurance on the buildings of apartment blocks.

The earthquake peril includes earthquake fire, landslip and collapse following
subsidence. Most companies define earthquake as "shaking reaching the fifth degree on
the MSK-64 scale", and thus avoid liability for damage to buildings with inadequate
earthquake resistance.

Although there are virtually no deductibles, earthquake is insured either on a replacement
or cash value basis and with a sub-limit above the sum insured specified in the contract –
typically up to USD25,000, e.g. if aggregate losses from flood or earthquake exceed that
amount, individual property damage claims are scaled down proportionately, based on
sum insured. While earthquake insurance is almost universal for foreign-invested
enterprises and householders, penetration is lower for Hungarian enterprises, but it is still
estimated that 80 percent of industrial risks are covered against earthquake. Our survey of
the market indicates that there are about 300,000 all-risk property insurance covers for
SMEs in Hungary.

Household earthquake rates are the same across Hungary, whereas industrial rates can
vary by region. Because of intense competition, most insurers charge inclusive fire and
perils rates with only a minimal allocation of premium for earthquake.

In addition to earthquake, all-risk residential property policies cover two types of flood,
namely cloudburst and flood. Cloudburst is defined as damage caused by standing water
resulting from excessive rainfall, excluding the effects of rising ground water. Flood is
defined as the "overflow of any permanent or seasonal, natural or artificial waterways,
lakes, ponds or reservoirs which inundates flood-protected areas". The limitation to
flood-protected areas effectively excludes properties located in the flood basins between
riverbanks and dikes, as well as properties which are not protected by dikes or
embankments. Insurers generally survey flood-exposed properties within 15km of a river
and exclude those for which the risk is unacceptably high. Some companies automatically



                                                                                          25
decline risks in areas around the upper reaches of the Tisza which were affected by
flooding in 1999 to 2001. Others take the view that since the floods occurred in different
places in different years, the average incidence of risk along the Tisza remains
acceptable. Some insurers decline mud-brick houses in flood-prone areas because
prolonged exposure to standing water can lead to structural failure. Similarly to
earthquake, flood is insured on a replacement value basis, with losses subject to a sub-
limit above the maximum loss threshold specified in the insurance policy. It is estimated
that approximately 95 percent of household policies and 80 percent of commercial
policies are extended to include flood.

Flood is included in the overall special perils rate, which is the same across the country.

A Law on Social Flood Insurance (popularly known as the Miklos Wesselenyi Law after a
19th century Hungarian river regulator) was passed in August 2003. The law authorized
the establishment of a state-backed flood insurance fund for the benefit of homeowners
who are unable to obtain commercial flood insurance because their properties are situated
in unprotected flood plains. The fund provides maximum cover of HUF 15mn (USD
87,057) per property and compensation is available to any eligible homeowner who elects
to pay premiums. The fund is administered by the state and there is no involvement by
the commercial insurance sector.

The main purpose of the Miklos Wesselenyi Flood Protection Fund is to save the
government from having to make ex gratia payments to uninsured flood victims. Because
many of those who live on unprotected flood plains are poor farmers with low insurance
consciousness and below-average incomes, the number of people buying protection from
the fund is virtually zero. It therefore seems that the main beneficiaries of the scheme will
be the insurance companies, which will no longer be under political pressure to
underwrite flood risks in exposed areas.

Rating levels are low, largely because of the need to remain competitive. A typical
buildings rate for an all-perils-policy, which would be applied throughout Hungary, is
1.06‰. Some companies however make an effort to charge Contents rates are 1.5‰ in
the country but up to 3.6‰ in Budapest because of the higher burglary risk. Policies are
normally issued with nil deductibles.

The average household premium in 2006 was HUF 25,000 (USD125) and of earthquake
cover is HUF 2000 (about USD10). Average limits reach US100,000 for residential and
USD 400,000 for commercial properties.

Risk accumulations are monitored on a postcode basis. All companies are said to base
their catastrophe PMLs on a severe earthquake affecting Budapest, though there is no
generally accepted earthquake model for Hungary and therefore no consensus about the
appropriate level of catastrophe protection. Some models produce PMLs which seem
unrealistically high, whilst others produce PMLs which are unaccountably lower.
Companies which have either produced or are working on Budapest earthquake models
include Munich Re, Equecat, Benfield Group and Aon Re.



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The companies are also required to report their risk aggregates for earthquake and flood
to the local insurance regulator.

Since most of the local companies are foreign owned, most of reinsurance is placed with
the parent companies.


Government Risk Financing

According to the Ministry of Local Governments and National Directorate General for
Disaster Management the government annually allocates HUF 3-4 billion to the national
Force Majeure Fund. The fund proceeds are used for the purposes of reconstructing
government owned assets destroyed by natural disasters. The size of the fund can be
increased by a government decree. In addition to the central FMF, all local and regional
governments must be allocated at least 2-3 percent of their annual budgets for emergency
situations. There are 19 counties and 3200 Local Government offices.

Government financial assistance to homeowners that have been adversely affected by
natural disasters is not predicated upon a proof of insurance.

Typically, it takes 2-3 weeks from the declaration of a national disaster by the
government for the aid from the Calamity fund to reach disaster victims. Local
government offices perform the role of a payment agent.

The County Disaster management Office and insurance companies are involved in
evaluating the extent of loss. There is no statutory maximum amount of financial aid to
be paid per household and amount of assistance may vary significantly from one
catastrophe event to another based on the government assessment of overall economic
damages from a disaster. Unused funds in the National Calamity Fund can be carried
forward in addition to the new budget.




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                                     CHAPTER II
                                   CONCLUSIONS

Despite considerable risk exposure to natural disasters the existing risk financing
mechanisms in the countries of Central Europe are relatively well advanced to mitigate
the consequences of large catastrophic events. Several recommendations emerge from
this study. They are intended to guide government policymakers in developing and
applying national and regional disaster risk financing strategies, suggest ways in which
Bank staff and managers can better address catastrophe risk financing in their dialogue
with clients, and provide information and ideas that may be of value to other
stakeholders, such as international donor organizations, NGOs, academics, and the
general public.

Lessening the impact of natural disasters on government budgets. Despite a relatively
high level of insurance penetration in CE countries, governments still carry a
considerable budgetary exposure to catastrophic floods. The current regulatory
frameworks in the Czech Republic and Poland, for instance, make it a government
obligation to assist homeowners in post-disaster recovery and reconstruction efforts.
Moreover, in the case of 1997 flood, the Czech government paid an equal compensation
to both insured and uninsured homeowners for equity reasons. The post-disaster
compensation was funded by additional government borrowing.

This approach to disaster compensation does not seem to optimal. In the case of disaster
compensation, governments should clearly find a way to separate between public and
private liabilities. While the reconstruction of the former is clearly the government
responsibility, the latter should be covered by private insurance. This is particularly the
case when such insurance is widely available and quite affordable. To this end, the
governments of CE countries may consider changing the existing post-disaster
compensation policies for housing reconstruction by introducing a strong element of
private responsibility for losses inflicted by natural disasters. Such a policy change is
likely not only to considerably increase insurance penetration among homeowners but
also will help significantly reducing government fiscal exposures to natural disasters.

Reducing the financial vulnerability of homeowners and SMEs to natural hazards. While
the study documented rather high levels of catastrophe insurance penetration among
homeowners and SMEs in CE countries, almost 50 percent of population still remains
uninsured. In this context, the governments of CE should consider investing in increasing
public risk awareness as well as changing the post-disaster compensation policy (see
above). In addition, those CE countries which have a lower level of property insurance
coverage among homeowners should consider introducing a stand-alone catastrophe
insurance to homeowners and small business owners, which can be backed by a dedicated
reinsurance capacity at the country or in the case of smaller economies (such as Slovakia)
at the regional level. As has been demonstrated by the international experience, such
programs can provide highly affordable coverage by realizing the benefits of country-
wide risk diversification, economies of scale and the ability to obtain better pricing terms


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from the global reinsurance market. The first country wide catastrophe risk pool in an
emerging market known as the Turkish Catastrophe Insurance Pool (TCIP) has been
pioneered and successfully launched with Bank’s assistance by Turkey in 2000. The
work on a similar program for the countries of South Eastern Europe has reached a fairly
advanced stage. Once created, the SECE CRIF will enable insurers selling a stand-alone
catastrophe insurance cover to receive access to a dedicated reinsurance capacity on
highly attractive terms.

Enhancing the ability of local regulators to assess the solvency implications of insurers’
catastrophe risk exposures. Although the study documented a considerable level of
technical sophistication on the part of CE insurance supervisors in monitoring and
regulating insurers’ risk exposures to natural disasters, the capacity of CE insurance
regulatory bodies in catastrophe risk management would benefit from further investments
in regulatory (risk assessment and monitoring) tools and specialized staff training.




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