WPS5594 Policy Research Working Paper 5594 Côte d'Ivoire's Infrastructure A Continental Perspective Vivien Foster Nataliya Pushak The World Bank Africa Region Sustainable Development Department March 2011 Policy Research Working Paper 5594 Abstract Infrastructure contributed 1.8 percentage points to in terminal capacity and road and rail infrastructure Côte d'Ivoire's annual per capita GDP growth over the upgrades on hinterland linkages. The underfunding of mid-2000s before conflict began to erase the country's road maintenance and poor sanitation are additional infrastructure and its growth contributions. Raising the challenges. country's infrastructure endowment to the level of the Côte d'Ivoire's annual infrastructure spending was region's middle-income countries could boost the growth $750 million in the mid-2000s, with going to power rate by a further 2 percentage points. sector operations and maintenance. If the underpricing Private sector contracts signed in the 1990s resulted of power and other inefficiencies (valued at $200 in improved operational performance and funding million annually) were eliminated, the country's annual for investments in the water, power, transport, and infrastructure funding gap would amount to $1 billion, ICT sectors. Impressively, those contracts survived the and infrastructure goals could be reached within 20 years. crisis and delivered uninterrupted service. But private Côte d'Ivoire has relatively good prospects for bridging investment flows have decreased since the mid-2000s. its funding gap by raising public investment from its Côte d'Ivoire's most pressing infrastructural challenge low current level, choosing more efficient technologies, will be to regain the financial equilibrium needed to and harnessing additional private investment for restore a reliable energy supply. Reestablishing the infrastructure. prominence of Abidjan's port will require investments This paper is a product of the Sustainable Development Department, Africa Region. 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://econ.worldbank.org. The author may be contacted at vfoster@worldbank.org and/or cbricenogarmendi@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 of the authors. They do not necessarily represent the views of the International Bank for Reconstruction and Development/World Bank and its affiliated organizations, or those of the Executive Directors of the World Bank or the governments they represent. Produced by the Research Support Team Côte d'Ivoire's Infrastructure: A Continental Perspective Vivien Foster and Nataliya Pushak Acknowledgments This paper draws upon a wide range of contributions from sector specialists from the Africa Infrastructure Country Diagnostic Team; notably, Dick Bullock on railways, Mike Mundy on ports, Heinrich Bofinger on air transport, Maria Shkaratan on power, Elvira Morella on water and sanitation, Michael Minges on information and communication technologies, Nataliya Pushak on public expenditure, and Alvaro Federico Barra on spatial analysis. The paper is based on data collected by local consultants and benefited greatly from feedback provided by colleagues in the relevant World Bank country teams; notably Daniel Sellen (sector leader), Issa Diaw (power), Ibou Diouf (transport), Lorenzo Bertolini (private sector development), Yao Badjo (water and sanitation), and Richard Doffonsou (macro). Contents The continental perspective 2 Why infrastructure matters 2 The state of Côte d'Ivoire's infrastructure 3 Roads 9 Rail 11 Ports 13 Air transport 15 Water supply and sanitation 16 Power 21 Irrigation 25 Information and communication technologies 27 Financing Côte d'Ivoire's infrastructure 30 How much more can be done within the existing resource envelope? 35 Annual funding gap 40 What else can be done? 41 Bibliography 44 General 44 Growth 44 Financing 44 Information and communication technologies 44 Irrigation 45 Power 45 Transport 45 Water supply and sanitation 46 Other 46 About AICD and its country reports 47 iii nfrastructure contributed 1.8 percentage points to Côte d'Ivoire's annual per capita GDP growth in I the mid-2000s. Raising the country's infrastructure endowment to that of the region's middle-income countries could boost annual growth by a further 2 percentage points per capita.Côte d'Ivoire made major strides with respect to infrastructure during the 1990s. As a result, the country has broad-reaching national backbones in the road, energy, and ICT sectors, and relatively high levels of household coverage for utility services. However, much ground was lost to conflict in the mid-2000s. Very little investment has taken place in the last fifteen years, leading to recent power shortages, the deterioration of the road network, and the deceleration of progress on safe water access Côte d'Ivoire was a pioneer with respect to private participation in infrastructure in Africa. This was possible, in part, because of the country's commitment to charging cost-recovery prices for infrastructure services and thereby helping to assure their commercial viability. Building on the early success with SODECI in the water sector, private sector contracts for power generation, power distribution, and railways were signed in the 1990s. These arrangements resulted in improved in operational performance, and in some areas (ICT, power generation, and water) significant funding for investments. Most strikingly, the contracts were robust during the crisis period, delivering uninterrupted supplies. Yet the level of private investment has tailed-off in recent years, and outside of telecommunications no major new deals have been struck. Côte d'Ivoire's most pressing challenge will be to regain the financial equilibrium needed to restore a reliable energy supply. Reestablishing the prominence of Abidjan's port will require investments in terminal capacity, as well as road and rail infrastructure upgrades on hinterland linkages. The underfunding of road maintenance must also be addressed. Another challenge lies in sanitation, as it is currently unlikely that the country will meet the associated Millennium Development Goal. Addressing Côte d'Ivoire's infrastructure deficit will require sustained expenditure of $2.4 billion per year over the next decade. Almost half of that amount relates to the power sector, and much of the remainder to the water and sanitation MDGs. At 10 percent of GDP in 2008, this level of effort is significantly lower than that required by neighboring countries and significantly below what China has expended in recent years. Côte d'Ivoire's spending on infrastructure was around $0.75 billion in the mid-2000s, or less than 5 percent of GDP, about half of what many neighboring West African countries have been devoting to infrastructure. The majority of spending has gone to the power sector, almost all of it for operations and maintenance, leaving little for capital expenditure. Public investment in infrastructure has been particularly low, with the bulk of recent investments being funded either by the private sector (ICT) or by households (on-site sanitation). Inefficiencies impose significant additional costs throughout the infrastructure sectors. By far the most serious inefficiency is underpricing of power, which creates financial losses of around $0.2 billion annually. If all inefficiencies were eliminated, the remaining funding gap would amount to $1.0 billion annually. Relative to other West African neighbors, Côte d'Ivoire has good prospects for bridging its funding gap, whether by allocating additional public funds toward infrastructure or harnessing further private investment. Careful technological choices could reduce the funding gap by half. Under business as usual, CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Côte d'Ivoire could take many decades to reach the infrastructure targets. However, if inefficiencies were addressed, the goals could be reached within 20 years, even without increased spending. The continental perspective The Africa Infrastructure Country Diagnostic (AICD) has gathered and analyzed extensive data on infrastructure across almost all African countries, including Côte d'Ivoire. The results have been presented in reports covering different sectors of infrastructure (ICT, irrigation, power, transport, water and sanitation) and different policy areas (including investment needs, fiscal costs, and sector performance). This report presents the key AICD findings for Côte d'Ivoire, allowing the country's infrastructure situation to be benchmarked against that of its African peers. A social and economic crisis in Côte d'Ivoire has crippled its growth trajectory, which had been that of a middle-income country. It will therefore be compared to low-income countries (fragile and non-fragile groups) and middle-income countries, as well as immediate regional neighbors in West Africa. The study presented several methodological issues. First, because of the cross-country nature of data collection, a time lag is inevitable. The period covered by the AICD runs from 2001 to 2006. Most technical data presented are for 2006 (or the most recent year available), while financial data are typically averaged over the available period to smooth out the effects of short-term fluctuations. Second, the indicators and analyses were standardized to ensure that comparisons across countries were consistent. As a result, some of the indicators presented here may be slightly different from those that are routinely reported and discussed at the country level. Why infrastructure matters During the five years from 2003 to 2007, Côte d'Ivoire's economy grew at an average annual rate of 1.5 percent, considerably lower than the 2.1 percent recorded in the previous decade. Infrastructure contributed 1.3 percentage points to per capita economic growth over this period. This contribution came mainly from the ICT revolution, while deficient power infrastructure held growth back by 0.3 percentage points. Simulations suggest that if Côte d'Ivoire's infrastructure could be improved to the level of the African leader--Mauritius--annual per capita growth rateswould increase by 1 percent, from 1.3 to 2.3 percent (figure 1). 2 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 1 Infrastructure has contributed much to economic growth--but could contribute much more Infrastructure`s contribution to annual per capita economic growth in selected countries, 2003­07, in percentage points telecom electricity roads Potential contributions of infrastructure to annual per capita economic growth in selected countries, in percentage points telecom electricity roads Source: Calderon 2009. The state of Côte d'Ivoire's infrastructure Côte d'Ivoire's population is concentrated in the southwest and southeast of the country. Almost a quarter of the population lives in the economic capital city of Abidjan (figure 2a). However, the bulk of the mining activity is located in the central and northern part of the country (figure 2b). The northern area is sparsely populated, and nearly 4 out 5 persons living there were below the poverty line in 2008 (Government of Côte d'Ivoire PRSP 2008). 3 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Compared with many other African countries, Côte d'Ivoire has relatively well-developed infrastructure backbones. It has a recognizable national grid for power and a national ICT backbone (figure 3). The northern regions of the country, despite having lower population densities than the rest of the country, are connected via backbones with the rest of the country. Côte d'Ivoire's infrastructure backbones (including road, rail, power, and ICT) are generally integrated with those of neighboring Burkina Faso, but not with those of the neighboring coastal countries of Ghana and Liberia. However, the key road artery to Burkina Faso has deteriorated to poor condition. This report begins with a review the main achievements and challenges in each of Côte d'Ivoire's major infrastructure sectors (table 1). Thereafter, the financing of Côte d'Ivoire's outstanding infrastructure needs will be discussed. Table 1 Achievements and challenges in Côte d'Ivoire's infrastructure sectors Achievements Challenges Air transport Good airport infrastructure Improving safety and security standards ICT Highly competitive mobile market with very high Establishing competitive access to submarine cables levels of penetration Extending GSM signal and Internet coverage into rural areas Ports Port of Abidjan has the potential to be a Expanding capacity to deal with traffic growth Moving ahead regional maritime hub with institutional reform Power Well-developed power system and established Expanding generation capacity to improve reliability of regional power exporter power supply Longstanding and successful experience with Addressing growing financial shortfall due to under-pricing private participation of power Railways The rail concession (SITARAIL) has boosted Rebalancing financial structure of the railway concession traffic and performance Finding alternative funding for rehabilitation backlog Roads Second generation road sector institutional Securing adequate funding for road maintenance and reforms are in place rehabilitation Irrigation Expanding irrigated area and rehabilitating abandoned perimeters Water and sanitation Longstanding and successful affermage Adjusting tariffs to stem growing hidden costs of utility (lease contract) has expanded access and Raising access to improved sanitation boosted performance Source: AICD. 4 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 2 Côte d'Ivoire's population, topography, natural resources, and poverty a. Population b. Natural resources Source: AICD Interactive Infrastructure Atlas for Côte d`Ivoire downloadable from http://www.infrastructureafrica.org/aicd/system/files/civ_new_ALL.pdf 5 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE c. Topography d. Poverty Source: AICD Interactive Infrastructure Atlas for Côte d`Ivoire downloadable from http://www.infrastructureafrica.org/aicd/system/files/civ_new_ALL.pdf 6 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 3 Côte d'Ivoire's infrastructure networks a. Roads b. ICT Source: AICD Interactive Infrastructure Atlas for Côte d`Ivoire downloadable from http://www.infrastructureafrica.org/aicd/system/files/civ_new_ALL.pdf 7 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE c. Power d. Water Source: AICD Interactive Infrastructure Atlas for Côte d`Ivoire downloadable from http://www.infrastructureafrica.org/aicd/system/files/civ_new_ALL.pdf 8 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Roads Achievements At first sight, Côte d'Ivoire's road density looks relatively low by African standards (table 2). However, an analysis of the road network suggests that the primary and secondary networks provide sufficient connectivity to link the capital cities, secondary towns, and international borders. Like many other African countries, Côte d'Ivoire has made significant progress with second generation road sector reforms. It has established both a Road Fund and a Road Agency. Yet the Road Fund does not conform to best practice design criteria. In particular, the fund has no clear legal basis, nor is there provision for direct transfer of Road Fund resources to the Road Agency. In contrast to many other African countries that spread Road Fund resources across the main, rural, and urban networks, Côte d'Ivoire allocates 90 percent of Road Fund resources to the main road network and the balance to urban roads. The rural network does not benefit from the Road Fund. Table 2 Côte d'Ivoire's road indicators benchmarked against Africa's low- and middle-income countries, mid 2000s Middle-income Unit Low-income countries Côte d'Ivoire countries Total road network density km/1000 km2 of arable land 133 82 318.4 Classified road density km/1000 km2 88.2 80 278.4 % of rural population within 2 km from all- GIS Rural accessibility 23.1 32.2 31.5 season road Paved road traffic average annual daily traffic 1,287.7 843 2,558.3 Unpaved road traffic average annual daily traffic 38.5 47 74.7 Paved network condition % in good or fair condition 86.2 79.9 82.0 Unpaved classified network % in good or fair condition 55.8 73.0 57.6 condition % of firms identifying transport quality as Perceived transport quality 27.6 38.2 18.2 major business constraint Overengineered % of main road network over-engineered 29.6 24.0 18.4 Underengineered % of main road network under-engineered 13.5 2.6 20.0 Source: Gwillliam and others 2009, derived from AICD national database downloadable from http://www.infrastructureafrica.org/aicd/tools/data. Challenges The Road Fund is supported by a fuel levy, which as of 2006 was set at $0.05 per liter. This is far below the estimated $0.15 per liter needed to fully maintain and rehabilitate the country's classified road network.As a result, as in other neighboring West African states, road sector spending in Côte d'Ivoire falls far short of what is needed to catch-up with the neglect of the recent past and to maintain the network once it is restored to good condition (figure 4). According to simulations, Côte d'Ivoire needs to spend about $48 million per year to fund proper maintenance activities. When rehabilitation and other capital spending needs are added, the total estimated requirement for the network at present stands at around $85 million a year.During the crisis period, road sector spending all but collapsed (table 3). Since 2005, Côte d'Ivoire has managed to gradually step-up its resource mobilization for the sector, even if the capacity to spend those resources has lagged somewhat behind. In the year 2009, realized spending reached almost 9 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE $23 million. However, even this still falls well short of the required $30 million for routine maintenance alone, and is barely a quarter of the $84 million needed to cover routine and periodic maintenance plus the rehabilitation backlog. Table 3 Estimated needs and realized spending on road maintenance and rehabilitation in Côte d'Ivoire $ millions Estimated needs Spending plans Resources mobilized Realized spending 2002 57.4 0.6 0.7 0.0 2003 68.8 0.7 0.7 0.0 2004 75.7 2.7 3.7 0.7 2005 75.8 1.9 13.1 6.6 2006 76.5 49.0 19.4 5.5 2007 83.5 39.4 25.0 30.0 2008 89.3 34.0 26.5 18.4 2009 84.7 30.9 27.1 22.5 Cumulative 611.8 159.2 116.2 83.7 Source: Fonds d`Entretien Routier, 2010. Figure 4 Côte d'Ivoire is not spending enough to catch up with its road rehabilitation backlog spending as % of requirements maintenance rehabilitation Source: Gwillliam and others 2009. The lack of road rehabilitation and maintenance has particularly damaging implications on the main north-south artery of the country linking Abidjan to Ouagadougou, which is a sea corridor of great strategic significance supporting international trade for land-locked Burkina Faso. Maintenance of the corridor has been neglected since the beginning of the crisis, and it is now in poor condition and needs rehabilitation (figure 3a). This portion of Côte d'Ivoire's national road network is essentially a regional public good essential to support the trade of the landlocked hinterland countries , and its condition therefore has serious implicationseven beyond national borders. Rural access to roads is also a concern. According to the rural accessibility index, about 32 percent of Côte d'Ivoire's rural population live within two kilometers of an all-season road. This percentage is 10 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE relatively high by African standards, but only about half what would be found elsewhere in the developing world. Simulations suggest that given the spatial distribution of the country's population, having 100 percent of the rural population within 2 kilometers of an all-season road would require about 40,000 kilometers of all season roads. This is about twice the length of the existing classified network and would require a huge investment in rural roads. A more targeted approach would be to prioritize access in areas of high agricultural productivity. Simulations suggest that a well maintained network of 20,000 kilometers could provide access to land responsible for 80 percent of agricultural production value. At the same time, this would raise the rural accessibility index to around 50 percent. Beyond physical road infrastructure, road freight transport services in Côte d'Ivoire face a number of non-physical barriers. Unless these issues are resolved, any improvements in road network infrastructure will not deliver their full potential economic benefits. First of all, police agents extract significant bribes from travelers along the national road network. A recent study estimates the total annual value of these bribes at between $ 200 million and $290 million per year, of which about a quarter comes from freight traffic and the remaining three-quarters from passenger traffic. The high level of bribes in Côte d'Ivoire diverts some regional transit traffic to other gateways (such as Lomé and Tema). On the Abidjan ­Lagos corridor, the average bribe per truck is $88 per 100 kilometers on the Ivorian section compared with $12 per 100 kilometers in Ghana. Road harassment not only adds costs and unpredictable delays to the transport of goods, but it also incites transporters to overload their truck to compensate for the cost of the bribes. Lax enforcement of the charge load per axle accelerates deterioration of the road network. Until the prevalence of bribery is addressed, Côte d'Ivoire will remain uncompetitive as a regional transit corridor for West Africa. Road freight tariffs in Western Africa are $0.08 per tonne-kilometer,which is very high by global and African standards. Throughout the developing world, road freight tariffs are typically between $0.01 and $0.04 per ton-kilometer, and in Southern Africa they are $0.05 per ton-kilometer. High profit margins of the order of 100 percent in West Africa can explain a large part of this difference. The underlying cause of these high profit marginsis limited competition combined with restrictive market regulations based on tour de role principles, which involve centralized allocation of freight on a queuing system preventing truckers from entering directly into bilateral contracts with customers, and thereby limiting the annual mileage of vehicles, and eliminating incentives for vehicle upgrading. Rail Achievements Côte d'Ivoire and Burkina Faso jointly own Sitarail, a transnational railway. The line was one of the first in Africa to be awarded as a concession to the private sector in 1995 and is a key conduit for transport of bulk freight to and from landlocked Burkina Faso. Between 2000 and 2005, Sitarail and the other West African railway concession--Transrail--were by far the strongest performing concessions on a wide range of operational indicators, including productivity of labor, locomotives, and rolling stock. Traffic density on Sitarail was close to 500,000 tonne-kilometers per route-kilometer, which was by far the highest in the region (although still low in absolute terms). Between 1995 and 2000, during the first 11 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE five years of the concession, the volume of freight almost tripled from 300 million to 800 million tonnes annually. Table 4 Railway indicators for Côte d'Ivoire and selected other countries, 2000­05 Railway TRANSRAIL SITARAIL GRC NRC OCBN Burkina Country Mali/Senegal Faso/ Côte Ghana Nigeria Benin d'Ivoire Concessioned (1) / State run (0) 1 1 0 0 0 Freight Traffic Density (1000 tonne-km/km) 318 494 242 15 148 Productivity Labor (1,000 traffic units per employee) na 481 84 37 40 Carriage (1,000 passenger-km per carriage) na 862 416 737 900 Wagon (1,000 net tonne-km per wagon) 804 1020 458 59 74 Locomotive (million traffic units per locomotive) 40 35 7 13 3 Tariffs (Aver. Unit Tariff) Passenger (US cents/passenger-km) 2.2 3.3 2.4 na 2.0 Freight (US cents/tonne-km) 3.3 5.5 4.4 na 5.8 Source: Bullock 2009, derived from AICD railways database downloadable from http://www.infrastructureafrica.org/aicd/tools/data -- = data not available. Challenges The crisis that erupted in 2002 severely affected rail freight traffic volumes, and by 2003 traffic volumes had fallen to 100 million tons (figure 5). Following special security measures, traffic volumes recovered quickly even before the peace accord of 2007, and since 2006 they have exceeded their earlier peak, which was reached in 2001. More recently, theSitarail concession has entered into a dispute with the authorities, due to the failure of the concessionaire to finance anticipated track rehabilitation. As a result, only half of the planned five year investment program of $12.4 million has been delivered. This problem has been widespread across Sub-Saharan African rail concessions. Due to the relatively low volume of freight traffic and competition from the road sector, it is rarely possible for rail networks to earn sufficient revenue to finance track rehabilitation. In the case of Sitarail, it is likely that the original forecasts made at the time of the award of the concession overestimated the likely freight traffic flows and underestimated the extent of the investment need. More recently, spending needs for the concession for 2008 to 2020 have been estimated to be $132 million for track rehabilitation and $99 million for rolling stock--a total of $231 million. This is roughly three times the revenue of the concession in 2009 and can therefore only be met with public finance. 12 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 5 Evolution of SITRARAIL's freight traffic over time Total traffic in Tkm - Millions 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 Source: AICD 2006; WB/AfDB 2009. Ports Achievements The port of Abidjan is important to the West African region. Until 2002, Abidjan was becoming a regional hub for trade. But after the crisis erupted, major shipping lines began to use Spanish or North African ports to service the West Africa coast instead. Since 2007, however, traffic volumes have begun to rise, and conditions at the port have been returning to normal. Abidjan may yet play the role of a regional hub. Côte d'Ivoire has reached outto landlocked neighbors that are key strategic clients for the port of Abidjan. In particular, Côte d'Ivoire created a strategic north-south corridor linking its landlocked neighbors of Burkina Faso, Mali, and Niger. The port of Abidjan has opened offices in each of these countries to facilitate interactions with clients. Furthermore, Abidjan is now exempt from the war zone tax that had been imposed by international shipping lines on ships traveling to Côte d'Ivoire. The private sector has been an important participant in port activities in Abidjan, primarily through concessions for the container and ore terminals. Private sector expertise has helped to significantly improve container handling performance. The terminal operator claims that each of its ship-to-share cranes are consistently achieving 35 moves per hour. Cargo handling performance at the port's ore terminal has recently been upgraded to 600 tonnes per hour with the introduction of new equipment. 13 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Overall, the efficiency and performance of the port of Abidjan compare favorably with those of its neighbors, but the port is relatively costly to use (table 5). In addition the port has started the specialization of its quays while reaching international volumes of traffic. In April 2010 it issued $50 million in bonds to modernize its equipment. Table 5 Benchmarking port indicators: port of Abidjan compared with other West African ports Freeport Abidjan of Côte Monrovia Cotonou Tema Apapa Dakar Lome d'Ivoire Liberia Benin Ghana Nigeria Senegal Togo CAPACITY: Containers handled (000s TEU/year) 500 50 158 471 336 306 460 General cargo handled (000s tons/year) 1,100 7,900 3,400 6,109 EFFICIENCY: Container dwell time - average (days) 12 15 12 25 42 7 13 Truck processing time for receipt and 2.5 5.5 6 8 6 5 4 delivery of cargo (turn-round time) - average (hours) General cargo vessel pre-berth waiting 2.9 2.5 48 9.6 36 24 time - average (hours) General cargo vessel stay (turnaround 2.2 3 48 48 40.8 60 time) - average (hours) Container crane productivity* (container 18 13 12 per hour) General cargo crane/gang productivity - 16 16 15 13.5 9 22.5 average (tones per hour) TARIFFS: General cargo handling charge, ship to 260 200 180 168 155 160 220 gate - average ($/tonne) Dry bulk handling charge, ship to gate or 13.5 10.5 8.5 10 8 15 9 rail - average ($/tonne) Liquid bulk handling charge ­average 5 4 5 3 5 5 ($/tonne) Source: Mundy and Penfold 2009. Derived from AICD ports database downloadable from http://www.infrastructureafrica.org/aicd/tools/data TEU = 20-foot equivalent units. Challenges As traffic in the port of Abidjan increases, expansion, specialization, and modernization will have to be on the port's agenda. In 2008 the port initiated a project to add major new deepwater container capacity at Île Boulay, thereby promoting the port's role as a major transshipment hub for West Africa. When the project is complete, the port of Abidjan will be able to handle up to three million containers per year, or about six times recent levels. Also on the agenda is the construction of a bridge connecting the port directly to the northern highway and bypassing the center of Abidjan, which will improve the port's connecting landside infrastructure. The port will also have to address the fragmented nature of labor unions, which complicates labor negotiations. With 14 different syndications, a strike by one union can significantly prejudice the work of 14 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE the port.Reform of the unions into one body or a structure that makes negotiations with the employer side simplerwould improve port efficiency. Air transport Achievements Côte d'Ivoire has the fourth-largest regional air transport market in the ECOWAS area (table 6). Abidjan has emerged as a minor sub-regional hub for air transport. Many of the African francophone countries have daily or close to daily flights to and from there. The strongest air transport links are with Accra in neighboring Ghana. Competition in the international market is quite strong, with a Herfindahl index of less than 10 percent. The aircraft fleet serving the country has undergone important changes in recent years with a shift towards smaller sizeand more modern aircraft. Challenges The demise of Air Afrique and the Ghanaian and Nigerian flag carriers in the early 2000s hit Côte d'Ivoire's air transport market particularly hard. Overall air traffic in Côte d'Ivoire fell from 1.8 million seats in 2001 to 1.2 million seats in 2007 (figure 6a). Intra-African traffic fell most steeply. In addition, connectivity has fallen. In 2001, there were flights out of Abidjan to 45 different cities, but that total had dropped to around 30 by 2007 (figure 6b). Furthermore, the country lacks a domestic air transport market. While air traffic was still declining in 2007 in Côte d'Ivoire, neighboring countries saw their air traffic rebounding. In particular Accra airport in Ghana surpassed Abidjan airport traffic. Airport platforms do not require upgrading in the medium term, but airport facilities and services could be improved to attract more traffic. Like many other African countries, Côte d'Ivoire continues to face significant safety and security issues in air transport. Côte d'Ivoire failed the FAA/IASA Audit-- meaning that it does not meet international standards for safety oversight--and none of its carriers have passed the IATA/IOSA Audit. Figure 6 Air traffic and connectivity trends for Côte d'Ivoire thousands all seats international seats intercontinental seats 15 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 6 Benchmarking air transport indicators for Côte d'Ivoire and other West African countries Country Côte d`Ivoire Ghana Nigeria Senegal Kenya Tanzania TRAFFIC (2007) Domestic Seats(millions per year) 0+ 0.14 9.30 .13 2.09 1.87 Seats for international travel within 0.85 0.91 1.37 1.26 3.14 1.27 Africa(millions per year) Seats for intercontinental travel (millions 0.30 0.83 2.44 1.23 2.76 0.59 per year) Seats available percapita 0.06 0.08 0.09 0.23 0.28 0.12 Herfindahl index ­ domestic market (%) - 100.0 18.0 100.0 60.5 31.0 Herfindahl index ­ international market 9.8 6.4 6.4 10.3 34.1 13.0 QUALITY Percent of seat km in medium or 52.3 29.6 39.3 23.3 48.6 15.7 smaller aircraft Percent of seat km in newer aircraft 90.8 96.8 71.4 98.3 80.2 79.3 Registered carriers on EU blacklist 0 0 0 0 0 0 FAA/IASA Audit Status Fail Fail No audit No audit No audit No audit Percent of carriers passing IATA/IOSA 0 0 28.6 50.0 11.1 33.3 Audit Source: Bofinger 2008. Derived from AICD national database downloadable from http://www.infrastructureafrica.org/aicd/tools/data Water supply and sanitation Achievements According to the UNICEF-WHO Joint Monitoring Program (2010 report), access to improved water in Côte d'Ivoirestarted from a relatively high base of 76 percent. Nevertheless, progress since that date has been slow, with the access to improved water increasing only slightly to 80 percent by 2008. While the overall envelope of those with access to improved water has not moved significantly, the level of service received by those with access has improved substantially. In particular, the percentage of the population with piped water on premises almost doubled, from 22 percent in 1990 to 40 percent in 2008 (table 7). A relatively small percentage of the population of Côte d'Ivoire relies on surface water--less than 10 percent, compared with 37 percent in the low-income benchmark group and 13 percent in the middle- income benchmark group (table 8). As of 2006, access to piped water was about twice as high in Côte d'Ivoire as the low-income benchmark, and access to stand posts was also somewhat higher. Around 50 percent of Côte d'Ivoire's population relies on groundwater compared with 40 percent in the low-income benchmark group. Overall, the country has relatively well-developed utility water. 16 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 7 Long term trends in improved water 1990 2000 2008 Drinking Water Total improved 76 78 80 Piped on premises 22 31 40 Other improved 54 47 40 Unimproved 24 22 20 Sanitation Improved 20 22 23 Shared (unimproved) 15 16 18 Unimproved facilities 29 30 32 Open defecation 36 32 27 Source: WHO ­ UNICEF, JMP, 2010. Table 8 Benchmarking water access Unit Low-income Côte d'Ivoire Middle-income countries countries Mid-2000s LSM88 DHS94 MICS00 MICS06 Mid 2000s Access to piped water % pop 10.5 18.10 23.28 24.51 19.13 52.1 Access to standposts % pop 16.2 13.70 23.35 19.00 22.03 18.9 Access to wells/boreholes % pop 38.3 55.22 45.28 54.10 49.54 6.0 Access to surface water % pop 37.4 13.00 7.69 7.72 9.20 13.0 Source: Banerjee and others 2009; Morella and others 2009, derived from AICD water and sanitation utilities database downloadable from http://www.infrastructureafrica.org/aicd/tools/data. Côte d'Ivoire was a pioneer for private sector participation in the water sector. SODECI's concession contract for potable water and lease contract for sanitation dates back to 1959 and was renewed and redesigned in 1987 for a 20-year period. The 1987 contract has withstood a range of financial, economic, and political shocks. The concessionaire implemented and almost entirely self-financed the impressive gains in utility water access described above. Moreover, operational performance has been very strong. Revenue collection rates are close to 100 percent, and distribution losses are close to best practice levels, although they have risen lately from 17 percent in 2001 to closer to 23 percent in 2008 (table 9). 17 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 9 Benchmarking utility performance Unit Low-income fragile Côte d'Ivoire Middle- countries income countries Mid 2000s 2004 2008 Mid 2000s Domestic water consumption liter/capita/day 51.3 171.5 Urban water assets in need of rehabilitation % 36.0 33.0 25.0 Revenue collection % sales 96.0 100.0 100.0 100.0 Distribution losses % production 32.7 21.7 22.5 26.8 Cost recovery % total costs 80.0 73.8 76.1 80.0 Connections per employee number 190.7 352.4 368.7 Total hidden costs as % of revenue % 350.2 121.2 112.2 167.4 U.S. cents per m3 Côte d'Ivoire Scarce water Other developing resources regions 2004 2008 Residential tariff (at 10 m3) 6.4 60.26 3.0 ­ 60.0 Non-residential tariff (at 100 m3) 107.2 120.74 * Based on DHS 1999 and MICS 2006. Source: Banerjee and others 2009; Morella and others 2009, derived from AICD water and sanitation utilities database downloadable from http://www.infrastructureafrica.org/aicd/tools/data. Challenges Despite SODECI's strong historical record, in recent years its financial performance has deteriorated as the real value of the tariff has eroded. The 1987 concession contract provides for tariff revisions every five years. Yet the scheduled revision for 2001 was delayed until 2004 during the recent crisis period,, and as a result the hidden costs due to under-pricing rose substantially (table 10). Currency appreciation amplified the effect of the 2004 tariff hike, and in 2008 the average effective tariff was $0.89 per cubic meter, almost double the 2001 level, but still significantly short of the full costs, which had escalated to $1.17..As a result of these tariff adjustments, the hidden costs associated with under-pricing of SODECI's services have fallen from around 0.4 percent of GDP in 2001 to less than 0.2 percent of GDP today, but still remain an issue for the sector (figure 8). As of 2001, SODECI's hidden costs were 94 percent of revenues, comparable to Ghana's water utility and among the worst in the region. By 2008, however, hidden costs had fallen to 55 percent of revenues and were among the best in the region, comparable to the water utilities of Benin and Cape Verde. 18 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 10 Evolution of hidden costs associated with SODECI Water production Distribution Collection Average total Average Total hidden Total hidden losses ratio cost effective tariff costs costs (millions (%) (%) ($/m3) ($/m3) ($ (% revenues) ofm3/year) millions/year) 2001 146.1 17.47 100.0 0.83 0.45 45.3 94.1 2002 148.3 18.77 100.0 0.91 0.47 52.0 93.5 2003 156.2 20.25 100.0 0.92 0.57 44.0 72.7 2004 161.4 21.70 100.0 1.03 0.76 37.0 47.6 2005 164.6 21.73 100.0 1.03 0.76 37.5 48.5 2006 167.8 22.02 100.0 1.02 0.76 36.2 61.9 2007 170.9 22.32 100.0 1.01 0.83 26.5 39.8 2008 175.9 22.54 100.0 1.17 0.89 43.3 54.6 Figure 7 Evolution of hidden costs in Côte d'Ivoire's water sector Percentage of GDP Collection Inefficiencies Under-Pricing Losses Figure 8 Hidden costs of water utilities unaccounted losses % of revenues underpricing collection inefficiencies 19 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE According to the UNICEF-WHO Joint Monitoring Program, Côte d'Ivoire is not on track to meet the MDG for sanitation. Based on household surveys, access to improved sanitation has been stagnant, increasing only 3 percentage points from 20 percent in 1990 to 23 percent in 2008 (table 7). Although approximately 18 percent of the population has shared access to improved sanitation facilities, this does not count towards the achievement of the MDG.A large share of the population--30 percent--still practices open defecation, although this is significantly lower than in the low-income benchmark group (table 11). Furthermore, access to flush toilets and improved latrines are four times and two as high as in the low-income group, respectively. On the other hand, use of traditional latrines is about half that found in the low-income peer group. Overall, a relatively large share of Côte d'Ivoire's population has access to higher-end sanitation solutions, albeit in many cases on a shared basis. Looking ahead, an important area for action will be to move the large share of the population that continues to practice open defecation onto the first rung of the sanitation ladder. Table 11 Benchmarking sanitation access Unit Low-income Côte d'Ivoire Middle-income countries countries Mid 2000s LSM88 DHS94 MICS00 MICS06 Mid 2000s Access to flush toilets % pop 4.9 16.5 13.4 25.4 23.8 40.8 Access to improved latrines % pop 9.9 13.3 21.7 15.2 17.8 1.4 Access to traditional latrines % pop 50.1 24.0 19.5 26.3 26.4 30.4 Open defecation % pop 40.3 46.2 45.3 31.4 32.3 14.3 Source: Banerjee and others 2009; Morella and others 2009, derived from AICD water and sanitation utilities database downloadable from http://www.infrastructureafrica.org/aicd/tools/data. 20 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Power Achievements Côte d'Ivoire has a relatively well-developed power sector (table 12). The national power grid relies on a balanced portfolio of hydropower and gas-fired plant based on domestic hydrocarbon resources, and 71 percent of the population lives in electrified areas. Yet access to power appears to be relatively low; according to the national utility only around 20 percent of households are connected to the electricity grid, although household surveys suggest that the real value may be significantly higher. Initial connection charges remain a barrier to access Basic indicators of installed capacity and power consumption compare favorably with the peer group for fragile states but are less than a tenth of the benchmarks for middle- income countries. Côte d'Ivoire has been a pioneer in private sector participation in the power sector in the region. In 1990 the country awarded a concession contract for the national power utility Compagnie Ivoirienne d'Electricite, or CIE. The concession helped to improve performance and attract private investment in power generation (IPPs), and by 1999 distribution losses had been reduced to 14 percent and average outage duration to 13 hours compared to 32 hours in 1990. In 1994, the country awarded the first Independent Power Project (IPP) in Africa to CIPREL, and in 1999 it awarded the then largest IPP to Azito. Both contracts have withstood the crisis and continue to supply power effectively. Côte d'Ivoire has become a significant power exporter in the region, supplying neighboring Benin, Burkina Faso, Ghana, Mali, and Togo. That export contracts were honored during the recent period of crisis, earning the country a reputation as a reliable supplier of power. Côte d'Ivoire's future role in regional power trade will depend on developments in neighboring Guinea and Ghana. If fully developed, Guinean hydropower would be more competitive for regional trade than Ivoirian gas. Yet due to the political and economic situation in Guinea, these hydro resources may not be developed for some time to come. Gas was recently discovered in Ghana, which could change that country from a net importer to a net exporter of power, but the relative competitiveness of Ghanaian and Ivoirian gas is not yet clear. In any case, Côte d'Ivoire has a key role to play in wheeling regional electricity exchange by taking advantage of its central position, its transmission network, and its reputation as a power exporter. 21 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 12 Benchmarking power indicators Fragile low-income Middle-income Unit countries Côte d'Ivoire countries Mid 2000s 2005 2008 Mid 2000s Installed power generation capacity MW/mil. people 45.7 58.3 58.3 798.6 Power consumption kWH/capita 165.3 235.6 240.5 4,479.3 Power outages* Day/year 11.1 45.6 5.9 Firms` reliance on own generator* % consumption 16.2 15.1 10.9 Firms` value lost due to power* outages % sales 5.4 5.0 1.6 Household connections (CIE) % population 20.0 Access to electricity (DHS 99)** % population 15.0 49.7 59.9 Urban access to electricity (DHS 99) % population 57.6 89.7 85.2 Rural access to electricity (DHS 99) % population 3.9 26.6 31.8 Growth in access to electricity % population/year 3.3 3.3 1.5 Revenue collection % billings 33.6 66.1 88.0 100.0 System losses % production 40.0 17.5 23.4 10.1 Cost recovery % total cost 100.0 100.0 80.6 100.0 Total hidden costs as % of revenue % 442.5 62.8 136.5 0.1 Predominantly thermo U.S. cents Côte d'Ivoire generation Other developing regions 2005 2009 Mid 2000s Mid 2000s Power tariff (residential at 75 kWh) 11.9 9.6 14.5 5.0 ­ 10.0 Power tariff (commercial at 900 kWh) 16.9 18.5 18.8 Power tariff (industrial at 50,000 kWh) 10.7 9.3 14.2 * Based on Enterprise Survey 2009 ** Based on DHS 1999 Survey and benchmarks for nonfragile low-income countries. Source: Eberhard and others 2009, derived from AICD electricity database downloadable from http://www.infrastructureafrica.org/aicd/tools/data. Challenges The power supply in Côte d'Ivoire has become unreliable in recent years. As the Ivorian economy recovers from crisis and economic growth rates are picking up again, demand for power has grown. At the same time, power sector investments were neglected during the crisis. This has led to an overall shortage of supply. Transmission and distribution networks become overloaded, and there is no capacity margin to serve growing demand, both domestically and in neighboring countries. As a result, load shedding increased from 16.6 gigawatt-hours in 2007 to 30.0 gigawatt-hours in 2009. This is still a relatively small proportion of the total load served of around 5,500 gigawatt-hours during this period. Quality of service has deteriorated, with more than 20 percent losses, 36 hours of average outage duration in 2008, and 52 hours in 2009. No country-specific information on the value of lost load was available for Côte d'Ivoire, but based on an average value for other African countries of around $2.50 per kilowatt- hour of lost load, the total cost of outages in 2009 was $75 million, or around 0.3 percent of GDP. While worrisome in absolute terms, these losses are still towards the lower end of what has been observed in 22 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE other African countries in recent years (figure 9). In response to power shortages, the government has leased 70 megawatts of emergency plant, which is estimated to cost around $0.14 per kilowatt-hour to run. Figure 9 Power outages lead to major economic losses Economic cost of power outages in selected countries % of GDP * Côte d`Ivoire figure refers to 2009 based on a value of lost load of $2.50 per kilowatt-hour Source: Eberhard and others 2009. CIE has improved operational performance in recent years and reduced the hidden costs of inefficiency (table 13). In particular, the collection ratio has improved from 66 percent in 2005 to 88 percent in 2009, reducing the losses associated with under-collection from $198 to $84 million per year, as the utility has again been able to collect revenues in the crisis-affected northern part of the country. System losses, which had increased significantly, have also improved recently. Notwithstanding these improvements, operational inefficiencies still cost the sector some $150 million a year. Up until 2006, CIE was charging cost recovery prices for electricity with no apparent implicit subsidies to the sector. Since 2007, however, average operating costs nearly doubled from $0.08 to around $0.15 per kilowatt-hour. Although power tariffs were increased, the adjustments were modest relative to the cost escalation. As a result,the financial deficit in the sector is now around $200-300 million per year (or 0.5 to 0.8 percent of GDP) (figure 10). Like other countries that rely on thermal power, Côte d'Ivoire has suffered from the rise in oil prices that began in 2005. Table 13 Evolution of hidden costs associated with CIE Load System Collection Average total Average effective Total hidden Total hidden 23 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE served losses ratio cost tariff costs costs (GWh/year) (%) (%) ($/kWh) ($/kWh) ($ (% revenues) millions/year) 2005 5,484 17.5 66.1 0.12 0.129 242.2 62.8 2006 5,504 21.4 72.1 0.12 0.129 220.7 57.2 2007 5,469 22.7 81.6 0.19 0.129 488.8 126.7 2008 5,627 23.4 88.8 0.21 0.139 526.7 136.5 2009 5,804 16.7 88.0 0.18 0.145 337.7 87.5 Figure 10 Evolution of hidden costs in Côte d'Ivoire's power sector % of GDP losses collection inefficiencies underpricing total Overall, CIE's hidden costs in 2008 were $527 million, or 2.3 percent of GDP. That total is equivalent to 137 percent of sector revenues, which is among the highest in West Africa, though still well short of Nigeria (figure 11). By contrast, back in 2005, CIE had one of the lowest hidden cost ratios among the West African utilities at 63 percent of revenues. In 2008 hidden costs in Côte d'Ivoire were on par with those of Ghana. Yet in May 2010 Ghana imposed a significant tariff increase, which will almost cover costs. 24 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 11 Comparison of hidden costs across West African utilities Hidden costs of power utilities in selected countries unaccounted losses % of revenues underpricing collection inefficiencies Source: Eberhard and others 2009. Irrigation Challenges The extent of irrigated agriculture in Côte d'Ivoire is very limited. According the 2005 FAO Aquastat Database, around 10,000 hectares are equipped for irrigation across the central and northern regions of the country. This represents 1.1 percent of the country's cultivated area, which is even lower than the irrigated share of cropland for Sub-Saharan Africa as a whole. Over the last 30 years, however, the irrigated area has grown relatively rapidly at 3.2 percentage points per year. As part of the AICD, a simulation exercise explored the economic viability of expanding irrigation based either on large-scale dams or on more localized water collection systems. The simulation tool estimates the potential revenue from irrigation based on existing crop patterns, biophysical potential crop patterns, market prices, and country-specific assumptions about irrigated yield. The assumptions for the costs of irrigation development are $3,000 per hectare for schemes based on large dams and $2,000 per hectare for schemes based on localized water collection. The results are highly sensitive to these cost assumptions as well as to the assumed revenues from irrigated crops. In general, the viability of irrigation schemes depends on crops that are capable of generating in excess of $2,000 per hectare, which includesmainly cash crops and horticulture. 25 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 14 Sensitivity of irrigation potential to thresholds for economic return Potential (000s has.) Investment needs ($ millions) Average IRR (%) Large dam- Local Total Large dam- Local collection Total Large dam- Local Total based collection based based collection IRR >0% 455 185 639 887.3 954.7 1,842.1 2.1 8.0 5.1 IRR >12% - 39 39 - 200.3 200.3 - 24.0 24.0 IRR >24% - 12 12 - 59.4 59.4 - 40.0 40.0 Notes: Simulations based on assumptions that large scale dam-based irrigation can be developed at a cost of $3,000 per hectare while schemes based on localized water collection could be developed at a cost of $2,000 per hectare. Should these costs be significantly exceeded, the number of viable hectares falls sharply. Source: You and others 2009. Figure 12 Irrigation schemes could be viable in many new locations Areas viable for irrigation Source: You and others 2009. Based on these assumptions, as much as 639,000 hectares of land in Côte d'Ivoire may be economically viable for irrigation, more than 60 times the area irrigated today (table 14). This potential is associated with the development of large dams in the northeast of the country, and more localized schemes mainly in the northwest of the country (figure 12). The rate of return of each project varies. Looking at all schemes that have a positive net present value and hence meet the minimum criterion for economic viability,gives an internal rate of return of 5 percent(table 14). Taking a rate of return threshold of 12 percent reduces the viable area to around 39,000 hectares, but boosts the internal rate of return to 24 percent (table 14). As the threshold rate is raised above 12 percent and beyond the viable area shrinks dramatically, although the returns also become very high. The rates of return of the large dam-based schemes tend to be lower than those of localized water collection schemes. 26 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE A much more detailed study of irrigation potential in Côte d'Ivoire was conducted by the Ministry of Agriculture in 2005 and used to develop the country's national irrigation plan. The plan provides for the rehabilitation of around 3000 hectares of irrigated areas and the creation of 139,000 hectares of new irrigated areas. The total investment cost amounts to $1,657 million with an average investment cost per hectare of $11,600. Interestingly, the extent of irrigated area falls within the range that is identified in the AICD simulations, even if the assumption for the unit cost of irrigation development is several times larger. Nevertheless, the study notes that the benefits of the future irrigation investments depend on the development of the feeder road network. Information and communication technologies Achievements Like many African countries, Côte d'Ivoire has gone through an ICT revolution during the last decade. By 2005, the country had established a partially competitive mobile market with two operators of roughly equal size and mobile phone penetration had reached9 percent, which was fairly typical for the peer group (table 15). Between 2006 and 2009, the government awarded four more mobile licenses. As a result, competition intensified, and mobile penetration had reached 51 percent by 2008. Nevertheless, the price of a representative basket of mobile services remains comparatively high by both regional and global standards at around $15 per month. Table 15 Benchmarking ICT indicators Unit Low- Côte d'Ivoire Middle-income countries incomefragile countries Mid 2000s 2005 2008 Mid 2000s GSM coverage % population 62.6 55.0 54.0 95.1 International bandwidth Mbps/person 0.9 3.0 40.0 25.4 Internet subscribers/100 people 0.1 0.1 3.0 1.5 Landline subscribers/100 people 9.0 10.2 34.8 Mobile phone subscribers/100 people 8.0 9.0 51.0 30.6 Côte d'Ivoire Countries with access to Other developing regions submarine cables 2005 2008 Mid 2000s Mid 2000s Price of monthly mobile basket 14.0 15.0 10.0 9.9 Price of monthly fixed-line basket 20.0 25.0 11.8 n.a. Price of 20-hour Internet package 66.3 47.0 47.28 11.0 Price of a 3-minute call to the United 2.0 0.9 1.44 2.0 States Price of inter-Africa calls, average 0.6 n.a. 0.57 n.a. Source: Minges and others 2009, derived from AICD national database downloadable from http://www.infrastructureafrica.org/aicd/tools/data. -- = data not available. n.a. = not applicable. Côte d'Ivoire is connected to the SAT3 submarine cable, which provides good connectivity to the internet. International bandwidth has improved markedly in recent years. Yet the national 27 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE telecommunications incumbent retains monopoly control of the international gateway. As a result, internet access charges in 2008 at $47 per month were still about four times as high as those elsewhere in the developing world, even if they are typical for African countries in the benchmark group. Experience from across Africa indicates that customers only receive the full benefit of cost savings associated with submarine cable access when multiple landing stations compete (table 16). Imminent connection to a number of new submarine cable projects in West Africa that are expected to be complete in the period 2010 to 2012 should intensify competition and further reduce prices. Table 16 High international call charges driven both by technology and market power $ Percent of Call within Call to U.S. Internet Internet cases region dial-up ADSL Without submarine cable 67 1.34 0.86 68 283 With submarine cable 33 0.57 0.48 47 111 monopoly on international gateway 16 0.70 0.72 37 120 competitive international gateway 16 0.48 0.23 37 98 Source: Minges and others 2009. Challenges During the last five years the percentage of the population in Côte d'Ivoire living within reach of a GSM signal has remained at around 55 percent. This is well below the benchmarks of 62 percent for fragile states and 95 percent for middle-income countries. Simulations conducted for the AICD suggest that close to 100 percent of Côte d'Ivoire's population could be reached with a GSM signal on a commercially viable basis, making it one of the most attractive markets in Africa (figure 13). This result is based on the assumption that 4 percent of local income in each area could be captured as revenues for voice telephony services. Even if this assumption were relaxed to only 1 percent of local income, 97 percent of the population could be served on a commercially viable basis. The disruption caused by armed conflict may have contributed to slow network rollout. 28 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 13 Côte d'Ivoire has made substantial progress in expanding GSM coverage coverage gap % of population efficient market gap existing access Source:Mayer and others 2008. A second set of simulations explored the commercial viability of limited performance broadband services based on limited institutional use and public access telecenters using WIMAX technology. Assuming a subscription rate of 0.25 percent in rural areas and that 1 percent of local income could be captured in broadband revenues, about 95 percent of the population could be provided with such service on a commercially viable basis. Even if the spending assumption were reduced to 0.25 percent of local income, 85 percent of the population could still be served on a commercially viable basis. Those areas that would require public subsidy are confined to the far north of the country and in some pockets on the eastern and western side (figure 14). 29 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 14 Voice and broadband are not commercially viable in isolated pockets of Côte d'Ivoire a. GSM voice signal b. Limited performance broadband (WIMAX) Note: Existing coverage relates to base year of 2006 Financing Côte d'Ivoire's infrastructure To meet its most pressing infrastructure needs and catch up with developing countries in other parts of the world, Côte d'Ivoire needs to expand its infrastructure assets in key areas (table 17). The targets outlined in table 17 are purely illustrative, but they represent a level of aspiration that is not unreasonable. Developed in a standardized way across African countries--based on a common set of targets and costing methodologies,­they allow for cross-country comparisons of the affordability of meeting the targets, which can be modified or delayed as needed to achieve financial balance. Table 17 Illustrative investment targets for infrastructure in Côte d'Ivoire Economic target Social target Provide universal access to GSM signal and low performance Install fiber optic links to neighboring capitals and ICT submarine cable public broadband facilities Develop additional 130,000 hectares and rehabilitate 3,000 Irrigation n.a. ha (according to 2005 National Irrigation Development Plan) Raise electrification to 73 percent (100 percent urban and 46 Power Develop 1,368 MW of new generation capacity percent rural) Achieve regional (national) connectivity with good Provide rural road access to 80 percent of the highest-value Transport quality 2-lane (1-lane) paved road. agricultural land, and urban road access within 500 meters Achieve Millennium Development Goals, clear sector WSS n.a. rehabilitation backlog Sources: Mayer and other 2009; Rosnes and Vennemo 2009; Carruthers and others 2009; You and others 2009. Meeting these illustrative infrastructure targets for Côte d'Ivoire would cost $2,363 million per year for a decade. Capital expenditure would account for 71 percent of this requirement. The power sector has the highest spending needs: an estimated $963 million per year to develop 1,368 MW of new generation 30 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE capacity, strengthen transmission networks, and boost electrification. The water and sanitation sector has the second highest spending needs: $774 million will be needed each year to meet the Millennium Development Goals, with capital expenditure accounting for 66 percent of that total. Transport spending needs are $341 million per year. Spending requirements for ICT are less than for other infrastructure sectors at $119 million a year (table 18). Table 18 Indicative infrastructure spending needs in Côte d'Ivoire for 2006 to 2015 $ million per year Operations and Capital expenditure maintenance Total needs ICT 81 38 119 Irrigation 165 nav 165 Power (no trade) 724 239 963 Transport (basic) 201 140 341 Water supply and sanitation 511 264 774 Total 1,682 680 2,363 Sources:Mayer and other 2009; Rosnes and Vennemo 2009; Carruthers and others 2009; You and others 2009. Derived from models that are available on-line at http://www.infrastructureafrica.org/aicd/tools/models. Côte d'Ivoire's infrastructure spending needs are high in absolute terms, but look relatively manageable when expressed in terms of GDP (figure 15). Relative to the size of Côte d'Ivoire's economy, spending needs would amount to 10 percent of GDP in 2008. By comparison, many West African neighbors would need to spend around 20 percent of GDP to meet basic infrastructure targets. Investment would absorb around 7 percent of GDP; by comparison, China invested 15 percent of GDP in infrastructure during the mid-2000s. 31 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 13 Côte d'Ivoire's infrastructure spending needs Estimated infrastructure spending needed to meet targets, as percentage of GDP % expenditure capital of GDP operations and maintenance Legend: LIC = low-income country, MIC = middle income country, ECOWAS = Economic Community of West African States Source: Foster and Briceño-Garmendia 2009. In the mid-2000s, Côte d'Ivoire spent $750 million per year on infrastructure (table 19). Power captures nearly 70 percent of spending, and O&M in the energy sector accounted for the majority of this total ($ 476 million per year). Capital expenditure accounts for only 34 percent of total spending1. Operating expenditure is entirely covered by budgetary resources and payments from infrastructure users. Strikingly, the private and household sectors accounts for 65 percent of total infrastructure investment. The largest areas of non-governmental finance are household investment in on-site sanitation facilities and private sector investment in ICT. Public investments account for another 30 percent of total investment. External financial support ­ whether from ODA or non-OECD financiers ­ is very low accounting for less than 10 percent of the total. ODA used to be a significant source of financial support for Côte d'Ivoire during the 1990s, but tailed-off during the crisis period and has only begun to resurface since 2008 (figure 16). 1 Operating expenditure here includes payments to the various Independent Power Producers and hence includes an important element of capital depreciation. 32 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 14 Financial flows to Côte d'Ivoire's infrastructure, mid 2000s* $ millions per year O&M Capital expenditure Non- Non-governmental Public Public OECD Private Households Total Total sector sector ODA financiers sector CAPEX spending Information and communication technologies 0 0 0 4 53 0 57 57 Irrigation nav nav 0 0 0 0 0 0 Power 476 15 0 1 0 0 16 492 Transport 26 50 3 10 14 0 77 103 Water supply and sanitation 2 2 1 1 0 92 4 6 Total 504 67 4 16 67 92 246 750 *Budget figures are annual average over period 2001/05, while SOE figures are annual average for period 2004/08. Source: Derived from Foster and Briceño-Garmendia 2009. O&M = operations and maintenance; ODA = official development assistance; PPI = private participation in infrastructure; CAPEX = capital expenditure; OECD = Organisation for Economic Co-operation and Development. Figure 14 ODA flows between 1995 and 2008 US$ millions WSS transport telecom energy Source: OECD 2010. Côte d'Ivoire's current spending on infrastructure spending is comparatively low as a share of GDP --around 5 percent of GDP, or only $35 per person per year. By comparison, other low-income countries in West Africa spend around 10 percent of GDP on infrastructure (figure 17). This effort translates into only $35 per capita per year in infrastructure spending. Furthermore, the pattern of investment is different in Côte d'Ivoire than in other low-income countries in Africa (figure 18). Côte d'Ivoire's public sector invests more in transport and less in power than its African peers. For all sectors, Côte d'Ivoire receives much less ODA financing than the peer group. 33 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 15 Spending allocated to address infrastructure needs % expenditure capital of GDP operations and maintenance Source: Foster and Briceño-Garmendia 2009. 34 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 16 Côte d'Ivoire's pattern of capital investment in infrastructure differs from that of comparator countries Investment in infrastructure sectors as percentage of GDP fragile low- Cote d'Ivoire income countries % of GDP public ODA non-OECD PPI Source: Derived from Briceño-Garmendia and others 2009. How much more can be done within the existing resource envelope? Inefficiencies throughout the infrastructure sectors cost Côte d'Ivoire as much as $477 million per year (table 20). Improving efficiency would therefore have a significant benefit. The largest potential source of efficiency gains is improving cost recovery, particular in the power sector. Under-charging for power services costs Côte d'Ivoire about $190 million each year.The estimated average total cost of power is $0.18 per kilowatt-hour, while the average effective tariff is $0.15 per kilowatt-hour, which covers only operating and maintenance costs. As a result, the utility covers only 83 percent of costs, leaving capital investments underfunded. The associated financial burden is approximately 0.8 percent of GDP. 35 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 20 Potential gains from greater operational efficiency ICT Irrigation Power Transport WSS Total Under-recovery of costs - n.a. 188 32 38 258 Overstaffing n.a. - 42 n.a. 0 42 Distribution losses - - 132 n.a. 5 137 Under-collection - n.a. 14 16 0 30 Low budget execution 0 n.a. 0 7 3 10 Total 0 0 376 55 46 477 Source: Derived from Foster and Briceño-Garmendia 2009. -- = not applicable; n.a. = not available. In the water sector, the estimated average total cost of producing utility water is $1.17 per cubic meter, while the average effective tariff is only $0.89, which covers operating and maintenance costs but makes only a partial contribution to capital costs. As a result, the water utility covers only 76 percent of costs. The associated financial burden is approximately 0.2 percent of GDP. Although the burden of under-pricing for both power and water is very substantial, it is nonetheless lower than what is found elsewhere in Africa (figure 19). Figure 17 Underpricing of water in Côte d'Ivoire Financial burden of under-pricing in 2008-2009, as percentage of GDP % of GDP Côte d'Ivoire fragile states Source: Derived from Briceño-Garmendia and others 2009. Like in many other African countries, access to power and piped water is much greater among the rich in Côte d'Ivoire than among the poor (figure 20). As a result, the highest income quintile receives the greatest benefit from subsidized tariffs. Recent empirical analysis shows that poor households capture only about half their fair share of power and water subsidies in Côte d'Ivoire based on a measure of distributional incidence.While this is slightly better than in other African countries, it is a poor performance in absolute terms (figure 21). 36 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 18: Consumption of infrastructure services in Côte d'Ivoire is highly differentiated by budget a. Mode of water supply, by income quintile % of population piped water standposts income quintile wells/boreholes surface water b. Prevalence of connection to power grid among population, by income quintile % of population income quintile Legend: Q1 ­ first budget quintile, Q2 ­ second budget quintile, etc. Source: Banerjee and others 2009. 37 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 19 Electricity and Water Subsidies That Reach the Poor a. Electricity measure of distributional incidence b. Water measure of distributional incidence Sources: Banerjee and others 2008b; Wodon and others 2007a, 2007b. Note: A measure of distributional incidence captures the share of subsidies received by the poor divided by the proportion of the population in poverty. A value greater than 1 implies that the subsidy distribution is progressive (pro-poor), because the share of benefits allocated to the poor is larger than their share in the total population. A value less than 1 implies that the distribution is regressive (pro-rich). How expensive would utility bills be if tariffs reflected costs? For power, a monthly subsistence consumption of 50 kilowatt-hours at a cost recovery tariff of $0.18 per kilowatt-hour would translate to a utility bill of $9 per month. In the case of water, with a cost recovery tariff of $1.17 per cubic meter and a 38 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE monthly subsistence consumption of 10 cubic meters, the associated utility bill would come to $11 per month. Based on the distribution of household budgets in Côte d'Ivoire, these monthly utility bills for power and water would be affordable by 99 and 85 percent of the population, respectively (figure 22). In fact, the share of the population that could afford the service is much higher than the share of the population that already has the service, suggesting that Côte d'Ivoire has scope to increase coverage at cost-reflective tariffs before affordability would become a serious impediment. Even then, consumption of 25 kilowatt-hours per month for power and 4 cubic meters per month for water, which meets the most basic needs, would cost $4.5 and $4.7 per month, respectively, and would be affordable to close to 100 percent of the population. By comparison, household incomes are lower elsewhere in Sub-Saharan Africa, and affordability of cost recovery tariffs is therefore a much more serious problem (figure 22). Figure 20 Affordability in Côte d'Ivoire much better than in other low income countries percent of the monthly household utility bills would be less than 5 % of urban households whose budget monthly Cote d'Ivoire utility bill (US$) low-income countries Source: Banerjee and others 2009. Operational inefficiencies of power and water utilities cost Côte d'Ivoire a further $194 million a year, equivalent to 0.83 percent of GDP. The annual value of inefficiencies in the power sector ($189 million) is substantially higher than for the water sector ($5 million). The burden of utility inefficiencies in Côte d'Ivoire is lower than for the benchmark countries, particularly in the case of water (figure 23). Under-collection of revenues and distribution losses are the main sources of inefficiencies in the power sector. CIE collects only 88 percent of its billings and has distribution losses of 16 percent, compared with a best practice benchmark of around 10 percent. In the water sector, SODECI has distribution losses of only 22.5 percent, compared with a best practice benchmark of 20 percent, and manages to collect close to 100 percent of billings. 39 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 21 Côte d'Ivoire's utilities are inefficient relative to peers a. Uncollected bills and unaccounted losses in the power sector, as a percentage of GDP % of GDP unaccounted losses collection inefficiencies b. Uncollected bills and unaccounted losses in the water sector, as a percentage of GDP % of GDP unaccounted losses collection inefficiencies Source: Derived from Briceño-Garmendia and others 2009. Annual funding gap Excluding the cost of the inefficiencies described, Côte d'Ivoire's infrastructure funding gap amounts to $1,048 million per year, or about 6 percent of GDP. The funding gap in water amounts to around $543 million per year and accounts for almost 60 percent of the total funding gap (table 21). Most of the rest of the gap is found in the transport and irrigation sectors, where an additional $193 and $165 million is needed, respectively, to meet the country's development goals. The reason the power sector funding gap is relatively small is thatthere is substantial scope to increase cost recovery through tariffs and to reallocate operating expenditures towards investment. 40 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Table 21: Funding gaps by sector $ millions ICT Irrigation Power Transport WSS Total Spending needs (119) (165) (963) (341) (774) (2,363) Existing spending* 57 Nav 492 103 185 599 Efficiency gains 0 0 380 45 46 471 Funding gap (62) (165) (91) (193) (543) (1,048) * traced to needs Source: Derived from Foster and Briceño-Garmendia 2009. Note: Potential overspending across sectors is not included in the calculation of the funding gap, because it would not necessarily be applied toward other infrastructure sectors. What else can be done? The funding gap can be addressed in two ways. First, Côte d'Ivoire may be able to increase the flow of resources to infrastructure both from the public and private sectors. Public spending on infrastructure has been relatively low compared to many neighboring countries. Therefore, there may be scope for reallocation within the overall budget, and the HIPC initiative may be a source of extra funding once the country overcomes the crisis. Furthermore, since the onset of the crisis, Côte d'Ivoire has not attracted as much private finance for infrastructure as other African peers. Between 2002 and 2007, private investment commitments in Côte d'Ivoire were less than 0.5 percent of GDP per year. By comparison, Benin, Democratic Republic of Congo, Kenya, Nigeria, Senegal, Tanzania, and Uganda each captured between 1.0 and 2.5 percent of GDP, while Guinea-Bissau--the most successful country in this regard--has captured more than 3.0 percent of GDP (figure 24). On the other hand, prior to the crisis, Côte d'Ivoire was a pioneer with private participation in infrastructure and did many of its major transactions during the period 1994 to 2000 (figure 25). Given the country's strong and successful track record with private participation, there must be significant potential to revive private investment in the future. 41 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Figure 22 Numerous African countries capture more private funds than Côte d'Ivoire, 2002-07 average of PPI disbursements* % of GDP power ICT transport water *calculated as PPI commitments smoothed out over 3 years Figure 23 PPI commitments to Côte d'Ivoire over 1990-2008 period US$ millions power ICT transport Source: World Bank and PPIAF, PPI Project Database. (http://ppi.worldbank.org), in current $ millions Côte d'Ivoire can also address the funding gap by adopting lower cost technologies or choosing less ambitious targets for infrastructure investment. Côte d'Ivoire could make substantial savings from appropriate technological choices in a number of areas, including power, roads, and WSS. First, further development of regional power trading under the WAPP would reduce Côte d'Ivoire's power needs. This would reduce the annual infrastructure funding gap by as much as $0.1 billion a year. Second, the 42 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE spending needs estimates for meeting the water and sanitation MDG goals in Côte d'Ivoire are based on the assumption that the same technology mix that exists today will be used. If access were instead expanded exclusively using lower cost solutions--such as stand posts, boreholes, and improved latrines-- the cost of meeting the MDG goal would fall from $0.77 to $0.53 billion annually, saving $0.23 billion. Finally, by adjusting road paving standards, the cost of meeting connectivity targets for road network development could fall from $0.34 to $0.22 billion annually--an annual saving of $0.13 billion. If all of these measures were fully adopted, the savings would amount to $0.5 billion a year, which would eliminate half of the funding gap (table 22) Table 22: Potential savings from innovations $ millions Savings as % Savings as % Before After Savings of sector of total innovation innovation funding gap funding gap Power trade 963 825 138 152 15 WSS appropriate technology 774 527 248 46 27 Roads appropriate technology 341 215 126 65 14 Total 2,078 1,566 512 56 56 If Côte d'Ivoire is unable to raise additional finance or reduce infrastructure costs, the only way to meet its infrastructure targets would be to take longer than a decade to do so. If the country were to make all possible efficiency gains overnight while holding spending at current levels, it could meet the identified infrastructure targets within 20 years. Without tackling inefficiencies and addressing the maintenance and rehabilitation backlog, reaching those targets could take much longer. The simulation results underscore the importance of making progress on the efficiency and maintenance agenda. Within the overall funding envelope, it will be very important to carefully prioritize infrastructure investments. Given the magnitude of the country's funding gap, it will not be feasible to resolve all pending infrastructure issues at once. Some of the most pressing challenges include: expanding power generation capacity and affordable electricity access while addressing the growing financial shortfall; securing enough funding for road maintenance and rehabilitation; consolidating the regional hub position of Abidjan port; and addressing the serious sanitation deficit. 43 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Bibliography This country report draws upon a wide range of papers, databases, models, and maps that were created as part of the Africa Infrastructure Country Diagnostic. All of these can be downloaded from the project website: www.infrastructureafrica.org. For papers go to the document page (http://www.infrastructureafrica.org/aicd/documents), for databases to the data page (http://www.infrastructureafrica.org/aicd/tools/data), for models go to the models page (http://www.infrastructureafrica.org/aicd/tools/models) and for maps to the map page (http://www.infrastructureafrica.org/aicd/tools/maps ). The references for the papers that were used to compile this country report are provided in the table below. General Africa's Infrastructure: A Time for Transformation (AICD Web site), http://www.infrastructureafrica.org Foster, Vivien, and Cecilia Briceño-Garmendia, eds. 2009. Africa's Infrastructure: A Time for Transformation. Paris and Washington, DC: Agence Française de Développement and World Bank, 2009. Growth Calderón, César. 2009. Infrastructure and Growth in Africa, Policy Research Working Paper 4914, World Bank, Washington, DC. Escribano, Alvaro, J. Luis Guasch, and Jorge Pena. 2010. Assessing the Impact of Infrastructure Quality on Firm Productivity in Africa. Policy Research Working Paper 5191, World Bank, Washington, DC. Yepes, Tito, Justin Pierce, and Vivien Foster. 2009. Making Sense of Africa's Infrastructure Endowment: A Benchmarking Approach. Policy Research Working Paper 4912, World Bank, Washington, DC. Financing Briceño-Garmendia, Cecilia, Karlis Smits, and Vivien Foster. 2009. Financing Public Infrastructure in Sub-Saharan Africa: Patterns and Emerging Issues. AICD Background Paper 15, Africa Region, World Bank, Washington, DC. Information and communication technologies Ampah, Mavis, Daniel Camos, Cecilia Briceño-Garmendia, Michael Minges, Maria Shkratan, and Mark Williams. 2009. Information and Communications Technology in Sub-Saharan Africa: A Sector Review. AICD Background Paper 10, Africa Region, World Bank, Washington, DC. 44 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Mayer, Rebecca, Ken Figueredo, Mike Jensen, Tim Kelly, Richard Green, and Alvaro Federico Barra. 2009. Connecting the Continent: Costing the Needs for Spending on ICT Infrastructure in Africa. AICD Background Paper 3, Africa Region, World Bank, Washington, DC. Irrigation Svendsen, Mark, Mandy Ewing, and Siwa Msangi. 2008. Watermarks: Indicators of Irrigation Sector Performance in Africa. AICD Background Paper 4, Africa Region, World Bank, Washington, DC. You, L., C. Ringler, G. Nelson, U. Wood-Sichra, R. Robertson, S. Wood, G. Zhe, T. Zhu, and Y. Sun. 2009. Torrents and Trickles: Irrigation Spending Needs in Africa. AICD Background Paper 9, Africa Region, World Bank, Washington, DC. Plan de Développement de l'Irrigation, ministère de l'Agriculture de Côte d'Ivoire, 2005 Power Eberhard, Anton, Vivien Foster, Cecilia Briceño-Garmendia, Fatimata Ouedraogo, Daniel Camos, and Maria Shkaratan. 2008. Underpowered: The State of the Power Sector in Sub-Saharan Africa. AICD Background Paper 6, Africa Region, World Bank, Washington, DC. Foster, Vivien, and Jevgenijs Steinbuks. 2009. Paying the Price for Unreliable Power Supplies: In-House Generation of Electricity by Firms in Africa. Policy Research Working Paper 4913, World Bank, Washington, DC. Rosnes, Orvika, and Haakon Vennemo. 2009. Powering Up: Costing Power Infrastructure Spending Needs in Sub-Saharan Africa. AICD Background Paper 5, Africa Region, World Bank, Washington, DC. Transport Bullock, Richard. 2009. Off Track: Sub-Saharan African Railways. AICD Background Paper 17, Africa Region, World Bank, Washington, DC. Carruthers, Robin, Ranga Rajan Krishnamani, and Siobhan Murray. 2009. Improving Connectivity: Investing in Transport Infrastructure in Sub-Saharan Africa. AICD Background Paper 7, Africa Region, World Bank, Washington, DC. Gwilliam, Ken, Vivien Foster, Rodrigo Archondo-Callao, Cecilia Briceño-Garmendia, Alberto Nogales, and Kavita Sethi. 2008. The Burden of Maintenance: Roads in Sub-Saharan Africa. AICD Background Paper 14, Africa Region, World Bank, Washington, DC. Heinrich C. Bofinger. 2009. An Unsteady Course: Growth and Challenges in Africa's Air Transport Industry. AICD Background Paper 16, Africa Region, World Bank, Washington, DC. Kumar, Ajay, and Fanny Barrett. 2008. Stuck in Traffic: Urban Transport in Africa. AICD Background Paper 1, Africa Region, World Bank, Washington, DC. 45 CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Ocean Shipping Consultants, Inc. 2009. Beyond the Bottlenecks: Ports in Africa. AICD Background Paper 8, Africa Region, World Bank, Washington, DC. Water supply and sanitation Banerjee, Sudeshna, Vivien Foster, Yvonne Ying, Heather Skilling, and Quentin Wodon. Cost Recovery, Equity, and Efficiency in Water Tariffs: Evidence from African Utilities. AICD Working Paper 7, World Bank, Washington, DC. Banerjee, Sudeshna, Heather Skilling, Vivien Foster, Cecilia Briceño-Garmendia, Elvira Morella, and Tarik Chfadi. 2008. Ebbing Water, Surging Deficits: Urban Water Supply in Sub-Saharan Africa. AICD Background Paper 12, Africa Region, World Bank, Washington, DC. Gulyani, Sumila, Debabrata Talukdar, and Darby Jack. 2009. Poverty, Living Conditions, and Infrastructure Access: A Comparison of Slums in Dakar, Johannesburg, and Nairobi. AICD Working Paper 10, World Bank, Washington, DC. Keener, Sarah, Manuel Luengo, and Sudeshna Banerjee. 2009. Provision of Water to the Poor in Africa: Experience with Water Standposts and the Informal Water Sector. AICD Working Paper 13, World Bank, Washington, DC. Morella, Elvira, Vivien Foster, and Sudeshna Ghosh Banerjee. 2008. Climbing the Ladder: The State of Sanitation in Sub-Saharan Africa. AICD Background Paper 13, Africa Region, World Bank, Washington, DC. Other Mwangi, Lawrence W. 2007. Kenya's Experience: Small-Scale Water Service Providers. Presentation by chief executive officer of Athi Water Services Board to PPIAF Annual Meeting, May 23­24, 2007. 46 About AICD and its country reports This study is a product of the Africa Infrastructure Country Diagnostic (AICD), a project designed to expand the world's knowledge of physical infrastructure in Africa. The AICD provides a baseline against which future improvements in infrastructure services can be measured, making it possible to monitor the results achieved from donor support. It also offers a solid empirical foundation for prioritizing investments and designing policy reforms in Africa's infrastructure sectors. The AICD is based on an unprecedented effort to collect detailed economic and technical data on African infrastructure. The project has produced a series of original reports on public expenditure, spending needs, and sector performance in each of the main infrastructure sectors, including energy, information and communication technologies, irrigation, transport, and water and sanitation. Africa's Infrastructure-- A Time for Transformation, published by the World Bank and the Agence Française de Développement in November 2009, synthesized the most significant findings of those reports. The focus of the AICD country reports is on benchmarking sector performance and quantifying the main financing and efficiency gaps at the country level. These reports are particularly relevant to national policy makers and development partners working on specific countries. The AICD was commissioned by the Infrastructure Consortium for Africa following the 2005 G8 (Group of Eight) summit at Gleneagles, Scotland, which flagged the importance of scaling up donor finance for infrastructure in support of Africa's development. The first phase of the AICD focused on 24 countries that together account for 85 percent of the gross domestic product, population, and infrastructure aid flows of Sub-Saharan Africa. The countries are: Benin, Burkina Faso, Cape Verde, Cameroon, Chad, Côte d'Ivoire, the Democratic Republic of Congo, Ethiopia, Ghana, Kenya, Lesotho, Madagascar, Malawi, Mozambique, Namibia, Niger, Nigeria, Rwanda, Senegal, South Africa, Sudan, Tanzania, Uganda, and Zambia. Under a second phase of the project, coverage was expanded to include as many as possible of the additional African countries. Consistent with the genesis of the project, the main focus is on the 48 countries south of the Sahara that face the most severe infrastructure challenges. Some components of the study also cover North African countries so as to provide a broader point of reference. Unless otherwise stated, therefore, the term Africa is used throughout this report as a shorthand for Sub-Saharan Africa. The World Bank has implemented the AICD with the guidance of a steering committee that represents the African Union, the New Partnership for Africa's Development (NEPAD), Africa's regional economic communities, the African Development Bank (AfDB), the Development Bank of Southern Africa (DBSA), and major infrastructure donors. CÔTE D'IVOIRE'S INFRASTRUCTURE: A CONTINENTAL PERSPECTIVE Financing for the AICD is provided by a multidonor trust fund to which the main contributors are the United Kingdom's Department for International Development (DFID), the Public Private Infrastructure Advisory Facility (PPIAF), Agence Française de Développement (AFD), the European Commission, and Germany's Entwicklungsbank (KfW). A group of distinguished peer reviewers from policy-making and academic circles in Africa and beyond reviewed all of the major outputs of the study to ensure the technical quality of the work. The Sub-Saharan Africa Transport Policy Program and the Water and Sanitation Program provided technical support on data collection and analysis pertaining to their respective sectors. The data underlying AICD's reports, as well as the reports themselves, are available to the public through an interactive Web site, www.infrastructureafrica.org, that allows users to download customized data reports and perform various simulations. Many AICD outputs will appear in the World Bank's Policy Research Working Papers series. Inquiries concerning the availability of data sets should be directed to the volume editors at the World Bank in Washington, DC. 48