Policy, Research, and External Affairs WORKING PAPERS Country Operations CrV,,nt"r nfnnnr+,n4 \ Mia Regional Office The World Bank October 1991 WPS 786 Fiscal Policy for Managing Indonesia's Environment Sadiq Ahmed Successfil implementation of an environmental management strategy that balances regulatory and fiscal instruments wiil require strong political support and stronger institutions. 'tIhe Polcy, Re-serch. and :xternal Affa rs C('omplex distnobuts PPRI Wnokmng Papers to disseimnate thc ftn'eng. io f ork in progress and to encourage the exchange of ideas among 13ank siaff and all others intcresred in deveinpmcn nSLsues Thcsc papar- carry the narres of the authors, reflect only their views, and should be used and cited accordingly The findings, inie.Tarcauons, and conclusions are the auLhors own Thcy should not hc aiLnhuted to the World Bank, is Board of Directors, itS managonenn, or dn% of its mniershr counries 1 Policy, Research, and External Affairs Country Operations WPS 786 I hlis paper a product of the Countrx Operaiionis Division, Country O)epartment V Asia Regional Office - is part of a larger effort in the World Bank to study appropriate policies to improve environmental management in developing countries. Copies are available free from the World Bank, 1818 H Street NW, Washington DC 20433. Please cont act Boonsri Prasertw aree, room A 10-0(47, extension 82477 (34 pages). Oclober 1991 Indonesia hias niadic substantial progress devel- sive environniental management strategy must opino sound environmental maniagement poli- be based on a balanice belween regulator) and cies, but has concentrated largely on regulatory fiscal inistruments. instruments, making limiited use oflfiscal policv. Successful implementation of this strategy Alimed conitends that fiscal policy can and will require strong political support and continu- should plav a major role in improving the quality ous effonrs to improve the country 's institutional ofl Indonesia's environment. But a comprehcn- franework. i h.: i'RF '0rTkuIg P1per SCrics Jise"ndICN 1e the findiings Or work undcr \,%a\ in the' fiank's I(''Ie\, Research, and Emernal AfflTrsComnrlnex AriobJex livc of thc series is lo acttheoc indings out (uiekl\ es en i preuntations are tess than fulh IpKtliShed. tlic findingcs interpietation, wid cinitusions i these papers do not necessarily rtprTsent (ifij.ial Bank p('ii( Produ.li cd h! the P'R E !D)iseminauion CentCr Table of Contents Page No. SECTION I: INTRODUCTION . . . . . . . . . . . . . . . . . . . . 1 Economic Role of Natural Resources . . . . . . . . 1 Objectives and Scope of the Par.er . . . . . . . . 2 SECTION II: OVERVIEW OF INDONESIA'S KEY ENVIRONMENTAL ISSUES . . . 3 Economic Development and Environment . . . . . . . 3 Land hanagement .. 4 Forestry Management . . . . . . . . . . . . . . . 5 Water Resource Management . . . . . . . . . . . . 6 Pollution Management . I . . . . . . . I . . 7 SECTIOh III: THE FRAMEWORK FOR FISCAL POLICY . . . . . . . . . . 9 Introduction . . . . . . . . . . . . . . . . . . 9 The Rationale for Public Intervention . . . . . . 9 The Role of Fiscal Policy . . . . . . . . . . . . 10 Fiscal Policy for Resource Management-- Land, Forest and Water . . . . . . . . . . . . 12 SECTION IV: GOVERNMENT OF INDONESIA'S ENVIRONMENTAL POLICY PROGRESS.. . . . 16 Introduction . . . . . . . . . . . . . . . . . . . 16 Regulatory Policies . . . . . . . . . . . . . . . 16 Fiscal Policies . . . . . . . . . . . . . . . . . 18 Institutional Framework for Environmental Management . . . . . . . . . . . . 20 SECTION V: FTSCAL POLICY OPTIONS FOR INDONESIA'S E-L vIRON1J NTL MANAGEMENT . . . . . . . . . . . . . . . . . . . . 22 Importance of Fiscal Policy . . . . . . . . . . . 22 Practical Applications of Fiscal Policy Instruments . . . . . . . . . . . . . . . 22 Fiscal Policy Options for Indonesia . . . . . . . 24 TTPe nf Fiscal Revenues: Earmarking . . . . . . . 28 Implementation Issues . . . . . . . . . . . . . . 29 SECTION VI: SUMMARY AND CONCLUSIONS . . . . . . . . . . . . . . . 30 REFERENCES.33 REFER NCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 This is a product of the CD5, Asia Region. I am grateful to Min Zhu (summer interni) for valuable research assistance. Useful comments were provided by: Russell Cheetham, Nick Hope, Ben Fisher, Dennis Whittle, Sushma Ganguly, Akihito Nishio, Dirk Leeuwrik, Andres Liebenthal, Laszlo Lovei, Jock Anderson, Jeremy Warford, 0. Bakyal, Gunner Eskeland and Sudhir Shetty. SECTION I: INTRODUCTION Economic Role of Natural Resources 1. Natural resources play a critical role in Indonesia's development. In addition to crude oil and natural gas derivatives, the country enjoys substantial reserves of coal, tin, nickel, gold and other minerals. The world's richest commercial forest is found here, as well as very diverse fishery resources. Although agricultural diversity is also substantial, rice and tree crops (rubber, palm oil, coconut, etc.) dominate total production, benefitting greatly from the abundant water resources and fertile soil in many areas of the country. 2. The direct contribution of renewable and exhaustible resources to economic development in Indonesia can be approximated by the share of primary producing sectors--agriculture, forestry, fishing and mining--in total value added, exports and employment. As shown in Table 1, nearly 40 percent of GDP is contributed by the direct exploitation and primary processing of natural Table 1: DIRECT CONTRIBUTION OF PRIMARY PRODUCTION (X) 1983-89 Share of Share of Growth merchandise Share of GDP rate e'ports employment (p.a.) 1989/90 1988 Renewable Resources 21.8 3.7 22.1 55.6 Agriculture 19.2 3.7 11.3 - Food crops 13.5 3.2 0.8 - Other crops 3.4 5.1 9.8 - Livestock 2.3 4.8 0.7 Fishing 1.6 4.9 2.6 Forestry /a 1.0 1.4 8.2 Exhaustible Resources /b 17.9 0.6 61.4 0.8 Oil and natural gas 16.7 0.3 56.6 Other mining 1.2 4.8 4.8 Total Primary Sectors 39.7 2.3 83.5 56.4 /a Logs, sawn timber and plywood. /b Includes crude oil and condensates, natural gas, LNG and LPG, but excludes other oil products. Source: Central Bureau of Statistics and Bank Indonesia. - 4. - resources. The inclusion of further stages of downstream processing will raise this proportion substantially. Despite the recent progress with diversification of exports, the foreign exchange contribution of the primary sectors has remained dominant--representing 84 percent of merchandise export earnings in 1989/90. In terms of employment contribution, an estimated 56 percent of the workforce was engaged in the primary sectors as of 1988. 3. Indonesia has a long-standing commitment to the basic concepts of sound environmental management, and a number of corrective steps have already been taken to reduce environmental degradation and promote a more sustainable pattern of development. Nevertheless, an important policy agenda for the appropriate management of the environment remains to be developed or implemented. Overall, the focus of environmental management has been on regulatory instruments. In many areas, appropriate regulatory policies have been formulated, although effective implementation in some instances remains to be accomplished. In a few other areas, further regulatory policies are necessary. The use of fiscal policy has been limited. Objectives and Scope of the Paper 4. The objective of this paper is to examine the role of fiscal policy in the management of Indonesia's environment. The aim is to develop a framework that will allow an examination of possible fiscal instruments (taxes, subsidies, public expenditure) and their relevance to Indonesia's context. It is important to note that fiscal policy is one possible area of policy intervention. Regulatory policies would also continue to play a major role. A comprehensive environmental management strategy will need to be based on a balanced combination of regulatory and fiscal policy instruments. Furthermore, a critical element underlying the successful implementation of this strategy will be the availability of an appropriate institutional mechanism. 5. The paper is organized as follows. Following this introductory section, an overview of Indonesia's key environmental issues is provided in Section II. In Section III, the framework for fiscal policy instruments is reviewed briefly. In Section IV, the Indonesian Government's progress on environmental management policies is examined briefly to provide the background for the discussion of possible fiscal policy options in Section V. Finally, Summary and Conclusions are provided in Section VI. -3- SECTION II: OVERVIEW OF INDONESIA'S KSY ENVIRONMENTAL ISSUES 1/ Economic Development and Environment 6. Indcnesia's environmental pressures are closely linked to the key development challenges that are faced by the nation. Despite very impressive growth performance since the 1970s and substantial progress in reducing poverty, Indonesia, at $500 per capita income, remains a low income country, with some 30 million people still -emaining below the poverty line. At the same time, an estimated 2.3 million new workers are entering the labor force annually in the 1990s. Consequently, poverty alleviation and employment generation remain among Indonesia's most pressing development challenges. 7. These development challenges have major implications for environmental management. One reason is the spatial pattern of Indonesia's development. Of the population of 179 million, about 62 percent are located in the inner islands of Java, Madura, Bali and Lombok, which together account for only about 8 percent of Indonesia's land. Population densities in Java are among the highest in the world. Yet Java's population continues to grow at about 1.8 percent per annum. There is very little scope to absorb additional labor in Java's agriculture. Manufacturing must necessarily provide the momentum for growth of output and employment in Java and other land-scarce inner islands. The threat to environment arises pr.imarily from the growing population, industrial development, and the resulting pressures on land and water resources. Java's cities, for example, are expected to double in size between 1980 and 2000. Already, increasing population densities along Java's north coast are straining the capacity of coastal ecosystems to deal with municipal waste and industrial pollution, and shortages of clean water threaten both human health and industrial development. Another critical environmental concern in Java is the soil erosion resulting from inappropriate watershed management. In Java, virtually all the high-quality arable land is already under cultivation. The only land available for further agricultural expansion is the often erodible, low-yielding upland areas of upper watershed catchments. The erosion problems result from inappropriate cropping patterns in these upper watersheds. 8. The development process has also produced environmental pressures in the outer islands. These outer islands are the repository of most of Indonesia's forest and land resources. They account for close to 60 percent of all forested area in Southeast Asia, and more than 98 percent of all forests in Indonesia. These closed canopy forests are under increasing pressure as a result of population growth and economic development. In the decade between 1973 and 1983, dryland agriculture expanded at 1.8 percent per annum in Java, 3.7 percent in Sumatra, 4.6 percent in Kalimantan and 5.6 percent in Sulawesi. Since 1980, Government-sponsored programs in the outer islands have put nearly 2 million hectares in production and there has been a rapid growth in the exploitation of timber and other forest products. These factors have led to a sharp increase in the rate of deforestation and an uneven pattern of land use. Deforestation rate for national forests is estimated to have been about 1.3 million/ha (1.2 percent) per annum over the 1/ The discussion of this section draws heavily from World Bank (1990a). 1982-90 period. The deforestation problem is further accentuated by the inefficient and unsustainable pattern of forest resource exploitation induced by the current incentive system. Land Management 9. There are two aspects of the land management problem as related to the environment: (a) inefficient, unsustainable land use in the outer islands; and (b) soil erosion in Java's upper watersheds. 10. Land Management Problems in the Outer Islands. The demand for land in the outer islands has been growing at an increasing pace in response to a relatively high natural rate of growth of population, migration and government-supported development projects. On the other hand, the availability of land has posed a serious problem. The main difficulties are: (a) prevalence of traditional land laws have precluded the emergence of a well-functioning land market; (b) government policies, which regard land as a national asset to be used for public benefit, discourage the payment of compensation for land intended for smallholder development; (c) the classification oi land under forestry is unduly restrictive and inefficient, creating major diff5nulties for land procurement for other, more efficient uses; and (d) traditional shifting cultivators also face potential difficulties as government policies (The Basic Forestry Law) recognizes the right of local people to harvest forest products other than timber, but it does not allow local smallholders to log or to cultivate Forestry Department land. The implications of these policies have been: first, the lack of a well-functioning land market has resulted in encroachment on unclaimed forest lands; second, smallholders have little incentive in perennial crops or soil conservation measures; finally, local smallholders have only limited incentive to protect the forest or to invest in stable production systems. The end result has been inefficient and unsustainable deforestation, and loss of soil productivity. 11. The Problem of Soil Erosion in Java. In Indonesia, 36 watershed areas totalling 10.4 million ha are classif'ed as critical lands. Host watersheds in Java are potentially subject to serious erosion, but "critical" areas are thought to cover about 1.9 million ha and include about 12 million people. Erosion rates are high in Java--about 6-12 tons/ha/year on volcanic soils and about 20-60 tons/ha/year on limestone soils.2/ This compares with about 0.7 tons of soil/ha/year in the United States (World Bank, 1990a). These h!gh rates are due mainly to the high levels and intensity of tropical rainfall, but they are exacerbated by the loss of ground cover in the hills. The latter problem is caused by inappropriate cropping patterns and absence of soil conservation measures. 12. Two types of costs are incurred from soil erosion: on-site losses in agricultural productivity; and off-site costs in the form of siltation of irrigation channels, reservoirs and ports, flooding in low-lying areas, damage 2/ It should, however, be noted that high erosion rates under tropical conditions are usually partially offset by higher rates of soil formation. 5- to coastal fisheries, disruptions to urban and industrial water supplies and increased damage due to fertilizer and pesticide runoffs. Costs of soil erosion on Java are estimated at about $400 million per year (Magrath and Arens, 1989). Of this, nearly 80 percent are due to on-site costs such as the siltation of irrigation systems and the loss of reservoir capacity. 13. A number of studies demonstrate the potential for reducing soil loss with improved farm technologies (Roche, 1986; Saragih, 1986). Javanese farmers are quick to adopt new farming systems, provided incentives are appropriate. The main constraint to adopting recommended upland farming practices is their cost (Gauchon, 1976; Bersten and Sinega, 1986; Tampubolon and Saragih, 1986). Apart from research programs to develop lower cost technologies for upland farming, efforts are also needed to improve the returns to upland farming. Forestry Management 14. In 1950, the area under forest in Indonesia was reported to be about 144 million ha. In 1990, the forest base was estimated at 109 million ha (see Table 2). Of the 1990 forest base, 62.2 million ha were considered to have management potential, consisting of 40.8 million ha of mixed hardwood production forests, 2.1 million ha of tidal forests and 19.3 million ha of conversion and unclassed forests. Of the total base of production forests, some 30.4 million ha have not yet been logged. Table 2: AREA AND FUNCTIONAL CLASSIFICATION OF FOREST, 1950-90 (million hectares) 1950 1990 Conservation forest 18.8 14.6 Protection forest 30.3 25.2 PLCoduCL foreL ''. St Conversion forest 30.5/a 18.7 Unclassified n.a. 4.0 Total 144.0 108.6 la Includes unclassified. Source: GOI/FAO (1990). 15. As noted, deforestation at the rate of 1.2 , :rcent per annum has happened in recent years, which is significantly more rapid than the long-term trend of 0.7 percent (1950-90). Even witn some improvement over the recent deforestation rate, about one-fourth of the natural forest cover remaining in 1990 could be lost bv the year 2030, most of it accounted for by loss of conversion forests and production forests (GOI/FAO, 1990). Accordingly, the annual allowable cut from natural forest is expected to fall from some 34 -6- million cubic meters at present to some 21 million cubic meters by the year 2030. 16. Although some deforestation is inevitable and is consistent with the efficient utilization of forest resources, deforestation on a scale as rapid as in the recent years could jeopardiJ.e the longer-term availability of forest resources. Moreover, the present rate of deforestation leads to land degradation, which reduces the productivity of farmers and disrupts water supplies. Deforestation also kas a number of negative consequences of national and international concern. Large-scale clearing for agriculture provides smoke and carbon dioxide which contribute to global warming; and forest clearing threatens biological diversity and endangered spacies. 17. There are also serious inefficiencies in logging practices. Management of forest concessions is largely in the hands of private concessionaires. Recent surveys show that up to 40 percent of standing stock is damaged in logging operations and, where areas are relogged before the 35 year logging cycle elapses, the damage is higher (GOI/FAO, 1990). As valuable species regenerate slowly and only under specific conditions, selective logging also tends to preserve more robust out less valuable species. Since logged-over areas have greatly reduced value, many concessionaires do little to protect their holdings from encroachment and fire once they are logged. 18. The GOI/FAO study presents evidence which suggests that deforestation has a strong positive correlation with population density, and negative correlation with agricultural productivity and growth of real income. So, policies for improving the income prcspects of the rural poor in the Outer Islands will play an important role in reducing deforestation. However, in addition to deforestation resulting from encroachment upon forest land, other factors contributing to the inefficient and unsustainable exploitation of forestry resources include: weak incentives for concessionaires to manage their holding sustainably; low capture of rent by the Government through taxes, thereby causing excessive forest resource exploitation; inadequate capacity to implement regulations (World Bank. 1QQan. v- e. '^^ Gillis, 1988). Water Resource Management 19. Water management issues are most intense on Java, with problems concerning both water quantity and aualitv. The ±4scusio4. hsr .crncentrates on the quantity issue; the quality issue is considered later in the general context of the pollution problem. Although Java is well endowed with rainfall, most of the rivers are less than 50 km long, and very shallow catchments combined with deforestation have increased the variability in run- off and caused water shortages downstream, particularly in dry years. Under the circumstances, the allocation of surface water and groundwater for agriculture, municipal and industrial use is an issue of growing importance. 20. Java has total surface water flows of about 170 billion cubic meters (Bm3) annually, but firm water flows are onl, about 78 Bms or 42 percent (tIBRl. 1990a). Irrigated agriculture is the heaviest user of burface water, requiring about 60 BmB annually. There are serinolc re-ncetno regarding the -7- efficiency of water use for irrigation. Municipal water supply is low, at about 2.25 Bm8. Despite this relatively low supply, however, urban and industrial pollution are reducing the quality of raw water supply and competition for water in the dry season is already intense. Urban and industrial water use are expected to grow at high rates, reflecting rapid urban and industrial growth and current low levels of piped municipal water supply. Unaccounted for water accounts for about 45 percent of municipal water and efficiency improvements and better cost recovery are required if future supply targets are to be met. 21. Groundwater extraction is about 8.7 Bm8. Because groundwater is relatively safe and convenient, it supplies about 60 percent of water for rural domestic use and is the major source of water in cities that have polluted surface waters. In Jakarta, private groundwater abstraction provides about four times as much water as from municipal supply, and it provides 65 percent of the water for industry. 22. The growing demand for water suggests an emerging problem. Future water reguirements in the year 2010 are projected at about 88 Bm3--a shortage of 10 Bm . A large part of this shortage could be eliminated by ensuring the efficiency of water use, especially in irrigation. The cost to the Government for supplying irrigation water on farms in Java is estimated at about $110 per ha/year (IBRD, 1990a). As against this, irrigation water is provided virtually free of cost.3/ Appropriate charges for groundwater are even more important than those for surface water, as groundwater is only a partially renewable resource. At the present time, different institutions are responsible for irrigation, municipal water supply and groundwater use. This hampers planning and leads to resource conflicts. At the river basin and regional level, water resource planning, management and operations could also be improved to better take into account multisectoral needs and environmental concerns. Pollution Management 23. In Java, water pollution poses an immediate threat to human welfare and industrial growth. This problem is intensified by water shortages in the dry season, which prevents wastes from being flushed away from urban centers. The most excessive pollutant in Indonesian rivers is from human waste. Due to high levels of human and industrial waste, eight major rivers on Java's north coast are regarded as significantly or seriously polluted. 24. Apart from health hazards, severe water pollution has caused industries in areas such as Surabaya to close in dry years because of usable raw water shortage. Costs are also incurred from loss in fishing and aquaculture, and damage suffered by mangrove and fragile coastal areas. 25. Although industrial pollution is less pervasive than pollution from human waste, it is already a major factor in the overall pollution level on Java's north coast. Industrial pollution, particularly in the form of toxic substances, can also have far more serious consequences than human wastes, as 3/ An irrigation service fee has recently been initiated on a pilot basis. -8- these substances become concentrated in the food chain and cannot be removed from water by conventional water treatment processes. Monitoring in the Tangerang Industrial Zone, for example, found serious pollution at all ten monitoring stations, and excess levels of chromium, cadmium, mercury and selenium in different locations (World Bank, 1990a). 26. The environmental consequences if energy production, consumption a..id distribution depend critically on the mix of energy resources employed. The large share of oil in total energy has led to the pollution of delicate estuarine areas (in Riau and South Sumatra) and mangrove swamps (Cilacap in Central Java) through spillage, blowouts, disposal of brines, venting of hydrogen sulphide, and the disposal of mercury removed from natural gas. In addition, the transportation of oil in tankers is a major source of pollution of the marine environment, especially as a result of the heavy traffic in the Straits of Malacca and the associated need for deballasting, as well as uncontrolled cleaning of tarkers, spillage during loading and unloading, and shipping accidents. Further, the use of gasoline ano diesel in transportation cauE;es significant .ir pollution. particularly in Jakarta, Surabaya and Bandung, through emissions of sulphur and nitrogen oxides, carbon monoxide, hydrocarbons and other organic compounds, other metals and sulphates, and emission of odor and noise. 27. While domestic coal consumption is still at very low levels, it is projected that consumption could rise thirty-fold by the year 2000. Experience with mining projects in Indonesia suggest that the environmental impact of exploiting coal reserves are potentially large--loss of usable land, erosion resulting in turbidity and sedimentation, and solid waste generation. Another major source of environmental management problem in the energy sector arises from hydropower projects, and revolves principally around the need tc- compensate and resettle the population affected by the reservoir construction. 28. Among the factors that have contributed to the pollution problem include: inadequate institutional arrangements for implementing industrial pollution regulations; lack of an incentive framework for limiting pollution; inadequate sanitation facilities; lack of environmental standards and policies for major energy projects; and lack of appropriate project siting and industrial location policies. SECTION III: THE FRAMlEWORK FOR FISCAL POLICY Introduction 29. Mu_h 1'.as been w.ittcn in the litcraturc about how fiscal policy instruments could contribute to the control of environmental damage. The l.terature is especially rich on the subject of the role of fiscal policy in the nianagement of pollution (comprehensive text books include: Baumol and Oates, 1988; Tietenberg, 1988; Pearci and Turner, 1990). The focus on the pollution aspects can partially be explained by the amenability of this particular environmental problem to the conventional tools of economic analysis. The pollution problem is a standard example of the problem of externality--B situation whereby the welfare of an individual depends upon both its own. actions as well as on the decisions of others, even though the other individuals do not pay any particular attention to the effects of their decision on the first individual. In the case of pollition, the externality is negative, in the sense of having an adverse impact on the individual's welfare. The Rationale for Public Interven on 30. A standard example of environmental negative externality is the pollution of air by t:me emission of smoke from a factory. Tn a free market environment, the factory will produce too much smoke because it does not take into account the air pollution cost that it imposes on others. In Box 1, the DD line represents the demand curve for the factory's output (steel). The MPP curve represents the supply curve (the private marginal cost) for the factory's production. The factory produces two outputs, steel and pollution-- the higher the price ot steel, the higher is the production of both outputs. Although the factory does not consider the cost of pollution, society does. The social cost of producing steel is represented by the MCS line. The following problems emerge in a free market situation: o there is excessive production of the pollution-intensive good %-..CC!1J. o there is too mucli pollution; o the price of the pollution-intensive good is too low. wcutLive action, therefore, is needed to induce the factory to produce the socially optimal level of pollution. 31. Coase Theorem. The mere existence of an externality need not necessitate public intervention--the market will still function efficiently, provided property rights are well defined. This is the central message of a classic proposition known as the 'Coase Theorem' (Coase, 1960). The Coasian proposition runs as follows. The -.eason that the market solution results in too much pollution is because the property rights for clean air are not well defined. If the factory were to hold these rights, the victims could always pay the factory to reduce pollution. If the victims were to hold the rights, the factory will buy the right to pollute. In either case, the bargaining pLUue6b will conitinue until the optimal level of pollution is reached. - 10 - Box 1: POLLUTION AS A NEGATIVE EXTERNALITY Price P MOS MPP l l 0 QS QP Q (Private good; pollution) 32. Despite the elegance of this proposition, the practical relevance of the Coasian theorem is rather limited. Two critical assumptions are: (a) that the bargaining process is costless; and (b) there are a small number of parties so that bargaining is feasible. In the real world, both assumptions are likely to be violated in most situations underlying the management of environment. Nevertheless, the Coase theorem suggests the very important role of property rights that will need to be taken into account in designing proper policy interventions. The Role of Fiscal Policy 33. The Pigouvian Tax. If market solution is inefficient, how can the socially optimal solution be attained? The answer was provided long ago by the well-known British economist Arthur Pigou (1932). According to Pigou, given competitive environment, the optimal policy intervention is to impose a tax (or effluent fee) on the factory that is equal to the marginal social damage. In terms of Box 1, the Government needs to impoce a fee (tax) per unit of emission equal to lab', or the gap between the private and the social cost curves.4/ This tax, known as the Pigouvian tax, will ensure that the factory produces the optimal level of pollution. In other words, the Pigouvian tax will induce the factory to fully internalize the externality. 4/ By construction, the gap between MPP and MCS represents the marginal social damage. - 11 - 34. A Pigouvian subsidy? An alternative fiscal policy instrument is the use of subsidies to induce the factory to produce the socially optimal level of pollution. While in the short-term tax and subsidy will yield the same level of pollution, in the long-term the results could be different. Thus, Baumol and Oates (1988) have shown that in the long-run competitive equilibrium subsidies will induce new firms to enter (as profits are higher with subsidies relative to taxes); hence a larger industry output and a lower price for the pollution-intensive good will result. Thus, even at the theoretical level, taxes are preferable to s,ibsidies as an instrument for pollution control. At the practical level, taxes also provide revenues to the government, while subsidies impose a budgetary burden. This becomes an important element, especially in developing countries, for the design of an effective environmental management program. 35. Practical Difficulties in Implementing the Pigouvian Tax. At the theoretical level, the optimality of the Pigouvian tax breaks down if the underlying assumptions fail to hold. Among the critical assumptions are: the prevalence of competitive markets and well-behaved production functions (technically known as concave production functions). The market structure underlying the polluting industry is particularly important for the design of environmental policy. Under a monopoly or oligopoly situation, the polluting industry may routinely shift the cost of the pollution tax to the consumers, without attempting to reduce the level of pollution to rvduce its tax obligation. As a result, the efficacy of the tax program will be severely constrained. The practical difficulties are compounded by the problem or measuring the marginal social damage function. In the absence of a direct estimate of damage, an indirect procedure has been proposed by Baumol and Oates (1971). This approach, known as the pricing and standards approach, begins with a predetermined set of standards and then imposes unit taxes to achieve these standards. Although this procedure may not always result in optimal allocation of resources, it represents the least cost method of achieving the specified standards. 36. As noted, the two main limitations of taxes are: (a) uncertainty concerning the industry's response; and (b) uncertainty regarding the time it will take to achieve the desired level of response. How about setting standards instead? The main attraction of direct controls is that, given effective enforcement, the desired reduction in the level of pollution can be obtained with little uncertainty. The key presumption is the ability to ensure effective enforcement. The cost cf administration and the vigor and vigilance of the responsible public agency cannot, however, be taken for granted. Indeed, there is evidence that for the same level of pollution reduction, market-based instruments (taxes, subsidies, tradable permits) are less costly than controls (Tietenberg, 1988). Another problem v'-h controls is the potential for resource misallocation, especially if the c.utas are allocated to the firms arbitrarily (Baumol and Oates, 1988).5/ 37. Combining Taxes with Controls. In designing pollution policies, a combination of taxes and controls are likely to work best. This is especially relevant to a situation where the initial environmental degradation is severe, 5/ A trading of pollution quotas will be more efficient. - 12 - requiring urgent attention. As Baumol and Oates (1975) note: "Hybrid programs of taxes and controls thus represent a very attractive policy package. The tax component of the program functions to maintain the desired levels of environmental quality under 'normal' conditions at a relatively low cost and also avoids the .ipobii ;u of uneconomically demanding controls. The controls constitute standby measures to deal with adverse environmental conditions that arise infrequently, but suddenly, and which would result in serious environmental damage with normal levels of waste emissions. Such a mixed program should not involve notably higher administrative costs than a pure tax policy, since much of the monitoring structure used for the latter should also be available for enforcement of controls.n 38. Public Investment. Direct government investment could play a major role in both current and prospective environmental programs. The variety of purposes served by these expenditures is enormous. The types of activity financed by the government could be grouped under the following categories: (a) damage prevention facilities (e.g., municipal treatment plants; (b) regenerative activ±ties (e.g., reforestation, slum clearance); and (a) research (e.g., pollution level measurement and control techniques, agricultural production techniques to minimize environmental degradation). As noted by Baumol and Oates (1988). the rationale for public investment are: first, many environmental services (clean air) are "pure public goods", so that a market-based provision is unfeasible; and second, an efficient scale of operation of pollution control facilities may require investment levels that much exceed any single polluter's needs.6/ Fiscal Policy for Resource Management--Land, Forest and Water 39. The literat-tre on the analysis of resource management distinguishes between a renewable and a non-renewable (exhaustible) resource. A depletable resource is one for which the rate of replenishment is so low that there is little potential for maintaining or augmenting the stock within a reasonable timeframe. A renewable resource, on the other hand, is characterized by a non-negligible rate of replenishment. Good examples are water, forest resources and fisheries. The policy implications of managing a renewable resource differ significantly from a non-renewable resource. The main policy issue for a depletable resource involves the inter-generational allocation of the shrinking resource base while developing a renewable substitute. For a renewable resource, the policy challenge is to ensure the maintenance of an efficient sustainable flow. In the context of this particular paper, the f^-uc '^ ^^. th_ custair.able use of three 6pecific renewabie resources--torest, water and land resources. 40. Forest Management. A critical environmental concern regarding a renewable resource such as forest is the risk of extinction--a situation that could emerge if the rate of extraction exceeds the rate of regeneration. Related concerns are the optimum rate of use over time and generation. An important question here is whether the market solution is necessarily inefficient, that is whether there is an externality problem. The market 6/ This is the traditional lumpiness or indivisibility argument; efficient private provision could entail monopolistic practices. - 13 - structure and property rights have important bearing on this question. For example, in the case of a monopolist owner, the market will yield the socially optimal rate of forest exploitation (Tietenberg, 1988). 41. The assignment and enforcement of property rights depend upon both informal traditional practices and formal actions taken by the state. Government policies regarding property rights will almost always be controversial, because the assignment of rights excludes non-owners from access to valuable resources. This is a key reason for state ownership of many natural resources. Although the state owns the bulk of the forestry resources, exploitation rights are, however, conveyed to multiple individuals, often without adequate control of logging activity. In effect, therefore, forestry becomes either an open access or a common property resource. The open-access situation (a large number of concessionaires with no effective quantity restraint on output) generates two types of externalities: a contemporaneous externality and an inter-generational externality. The contemporaneous externality, which is borne by the current generation, involves the over-commitment of resources to forest exploitation. New entrants in forest exploitation will continue until profits are driven to zero. As a result, each concessionaire earns a lower rate of return (See Box 2). The intergenerational externality emerges from the reduction in the stock of forest resources due to current over-exploitation. In the case of a common-propprty it111ntinn (izp., thb onvprnipnt gives exploitation rights to a limited number of concessionaires), the solution will still be inefficient and may result in unsustainable exploitation. These concerns can be illustrated with the help of the graph in Box 2. 42. Assuming constant prices, the shape of the total revenue curve is dictated by the forestry regeneration pattern--at low levels of stock, trees regenerate at a fast pace and eventually the stock converges to some maximum level (the ecosystem's carrying capacity). The cost of forest exploitation is a monotonic function of the level of effort. 'tOb" level of effort corresponds to the maximum sustainable yield for forest outout. "Oa" is the level of effort where returns are maximized--the efficient level of forest exploitation. A monopoly ownership would result in "Oa" level of effort, which is efficient and clearly sustainable. With open access, "Oc" level of effort will result (profits are driven to zero). In a common- property situation, where access is controlled, the solution will be somewhere in between, but still inefficient. at How can fiscal policy help? Various interventions are possible, including use of fiscal policy. For example, the Government might determine the optimal level of extraction and license concessionaires accordingly. Strict monitoring will be necessary to ensure this policy's effectiveness. The fiscal policy instrument relevant to this problem is somewhat analogous to the Pigouvian solution to the pollution problem--to impose a tax such that the efficient level of forest exploitation results. In terms of the graph in Box 2, the tax shifts the total cost curve from OT° to OT2. - 14 - Box 2: FOREST RESOURCE EXPLOITATION Total Revenue or Cost 1 -I I /t< Solid Hazardous Countrie& WaLe air waste waste Noise Products Australia X X Denmark x France X X X X X Germany X X X X X X Hungary X Italy X X Finland X Japan X X Netherlands X X X X X X Norway X X X Sweden X X Switzerland X United Kingdom X x United States of America X X X X Source: Hahn 1989. Hahn's review of charge systems in France, Germany, Netherlands and the USA yields the following Insights: o The major motivation for implementing an emission fee has been to raise revenues. Most revenues are earmarked for the improvement of environmental quality. Usually, the revenues are used to provide subsidies, grants or loans to private firms and to help support treatment plants. O The number of charges that have documented effects on polluter behavior is only a small subset of the total number of charges. O The main way charges had a positive impact on environmental quality was through the use of charge revenues for abatement activities. O There has been a tendency for charges to be raised over time, even after allowing for inflation. 76. The lack of conclusive evidence on the direct effect of charges on polluter behavior needs to be interpreted cautiously. First, data to test the impact of charges on the environment are generally scarce. Second, most charges have not been large enough to induce dramatic changes in firm behavior. And third, charges have generally been designed to promote environmental quality through the redistribution of funds to these activities. The indirect effect of charges on environmental quality has been significant. Apart from these caveats, an earlier study by Baumol and Oates (1975) found a significant direct positive impact of charges on pollution reduction. The - 24 - study concluded: "We are thus beginning to accumulate some evidence indicating that effluent fees can in fact be quite effective in reducing levels of industrial waste charges into waterways" (P.119). Fiscal Policy Options for Indonesia 77. Forest Management. The forest resource based charges currently levied in Indonesia include: license fees (per hectare), land tax (PBB), reforestation fee (per cubic meter), royalty (per cubic meter), and scaling/grading fee (volume/weight based). Of these, the royalty and reforestation fee are the most important charges. Timber royalty is 6 percent of the estimated market value of logs. The reforestation fee was set at $4 per cubic meter (m3) up to June 1989. The fee was raised to $7/mr in July 1989 and to $10/m3 in June 1990. Total revenue collected from forestry charges increased from Rp 117.5 billion in 1980 to Rp 439.0 billion in 1989. With the recent increase in the reforestation fee, the total revenues is expected to double to Rp 800-900 billion. The potential for revenue mobilization is, however, much higher. 78. A number of studies have indicated that there are serious inefficiencies with the present system of forestry charges (FAO, 1990; Pearce, et al. 1990a; Gillis, 1988; Sedjo, 1987). The main problems are: o the value of rent-capture from forest concessionaires is very low, estimated at around 30 percent only. As compared with this, rent capture in Sabah, Malaysia is 85-90 percent. The low rent-capture encourages excessive forest exploitation by promoting "rent-seeking" behavior as well as by inducing official support for higher production as a means for increasing revenue. O the assessment of timber royalties on the basis of timber removals rather than the stock of merchantable stems in the stand encourages logging operators to remove osily the most valuable species and high grade stems. Such "high-grading" often leads to substantial damage to the stand and extensive forest destruction; o The lease on forest concessions is for a period of 20 years only. Given that regeneration extends over a 35-year period or longer, concessionaires have little incentive to ensure the long-term regeneration of the logged forest. On the other hand, there is a tendency to log the primary forest within the 20-year period; o The practice of basing timber royalty on processed wood encourages under-reporting of the level of logging and provides little incentive to improve mill efficiency. This latter problem occurs because a more efficient conversion adds more to the cost of production and tax obligation than to the value of added output. 79. Fiscal Policy for a More Efficient and Sustainable Exploitation of Forest Resources. A major factor underlying the distortions in the present system of forestry resource exploitation is the relatively short-term nature of forest lease arrangements. Most experts suggest the following alternative lease arrangements: - 25 - o extending the lease period to 35 years or beyond to coincide with the regeneration period; o awarding leases on a rollover basis, whereby every five years the contract would be extended subjeci to satisfactory performance; o allowing the marketability of leases to provide incentives for maintaining the value of the lease. 80. A second source of distortion is the tax mechanism which is based on timber removal rather than the stock of merchantable stems in the stand. This could be corrected by shifting the tax base to the stock of merchantable stems in the stand. With this new policy, not only the concessionaire will avoid the logging of medium and smaller stems, because they will be worth more at maturity, it will also have an incentive to harvest defective and oversized stems of commercial but less-valuable species. The present problem of "high grading" of stands will be reduced. 81. There is a major need to increase the value of rent mobilized by the Government. This is necessary not only to raise revenues, but, even more importantly, to reduce excessive exploitation of forest resources resulting from rent-seeking behavior of concessionaires. Indicative estimates suggest that rents from forestry activities are in the range of $30-40 per m3. As against this, the level of taxes collected are about $7 per m3. Even after allowing for the recent increase in reforestation fees and assuming full collection, the surplus rent would remain at $17-27 per m3--or about 60 percent. The aim of policy could be to reduce this rent to 10-15 percent. 82. Forest Subsidies. The Government's strategy for reforestation and associated subsidy arrangements need to be changed. A number of steps can be taken to improve the effectiveness of the reforestation program. First, the increase in the concessionaires tenure to 35 years or longer would help to provide better incentives for longer-term investments. Second the concessionaires could be given technical support for proper species selection and appropriate site selection. The latter could be targeted to wasteland and deforested areas to avoid conversion of natural forest land to plantations. Third, enrichment planting of selectively cut stands and the development of methods of regenerating indigenous hardwoods could be made eligible for reforestation funds. Finally, plantations involving short-duration trees (pulpwood) should not be eligible for subsidy. 83. Fiscal Policy for Pollution Management. The review of developed country experience indicated that a wide variety of pollution charges has been used. Experience also suggests that success was most notable for water pollution charges (Hahn. 1989). In France and Germany, the water effluent charge is imposed on the basis of the expected level of discharge by various industries. In the Netherlands, charges are based on the actual level of discharge for large polluters, while small polluters often pay fixed fees unrelated to actual discharge. In USA, a mixture of actual discharge and rule of thumb has been followed. 84. Given the difficulties of measuring and monitoring discharges for individual polluters, a simplified effluent charge is suggested for Indonesia - 26 - at this initial stage. The effluent charge ceuld initially be levied selectively, focussed on the most heavily polluted areas (for example Jakarta, Bandung and Surabaya) and for industrial activities that are believed to be among the heaviest contributors to water pollution. Each firm within the industty would pay a uniform charge. As experlence is gained and capacity to measure and monitor emissions is developed, the charge could be extended and linked to the actual level of discharge. At the initial stage, the fee would need to be at a somewhat modest level, but adjustments will need to be made over time. 85. Even if a direct emission reduction does not result from this fee, pollution reduction can still be achieved by using these funds for promoting the use of abatement equipments. The subsidy could be provided in the form of outright grants or as subsidized loans. 86. In view of the limited role at present for a direct effluent charge, fiscal policy can also focus on indirect means--through taxation of inputs and outputs in polluting sectors. An. attractive option in this regard is the environmental user charge on energy. The applicability of this tax for the near future, however, is constrained by the need to first readjust the structure of energy prices on efficiency grounds; this itself will entail large increases in the prices of relatively high pollution intensive energy products. The first step, therefore, will be to realign the individuwl energy prices with reference to their economic values.8/ As noted, this will automatically result in a more environmentally-sound pattern of energy production and consumption. Nevertheless, the possibility of a user charge on energy for reducing air pollution differentiated according to the "pollutant content" of each energy product, needs to be among the fiscal policy options for Indonesia's environmental protection. 87. Similarly, urban congestion pricing could be applied to reduce traffic densities, improve traffic efficiency and reduce air pollution in major urban centers. The Singapore Area Traffic Licensing Scheme of 1976 is the best known example of successful urban congestion pricing (Jones, 1989). mThZ ZZhZXZ -Zar._'tZd L 1 CeTGSc l.ws abub LU LiL L-nLYal ousiness aistrict during peak hours, with exemptions for buses, motorcycles and car pools. The scheme has (a) reduced peak traffic densities; (b) raised revenues for financing of urban services and infrastructure projects; (c) curtailed fuel consumption; and (D) reduced air pollution levels significantly. Such a scheme could be developed for Jakarta in conjunction with improved provision 'df publli traLGUJ. LatLio. 88. One other fiscal option for reducing pollution in Indonesia is the reduction/elimination of the chemical fertilizer subsidy. Apart from reducing environmental and health hazards, a reduction in the financial subsidy on fertilizer, by say 50 percent, alone would finance almost a threefold increase in the level of public expenditure on human waste management and slum 8/ The most recent adjustment of energy prices that were announced in early July 1991 have reduced the extent of distortions in relative energy prices. Nevertheless, there still reizains Lhe cea Lor further adjustments. - 27 - upgrading. This policy will also be a more cost-effective means of reaching the poor. 89. Fiscal Policy for Land Management. A major factor causing land degradation Lc the lac!;. of a wc1l u.tkcL.4 Thie appropriate definition of property rights, removal of official barriers to land transactions, and a more flexible attitude towards forestry land classification, will all help in encouraging the development of efficient land markets. At the same time, to promote efficient use as well as revenue mobilization, allocation of public land for private use needs to be based on pzices that reflect market values. Regarding the reduction of soil erosion, the main way that fiscal policy can contribute is through a reassessment of the Government's expenditure priority in agriculture in favor of activities that will minimize land degradation (Pearce, et. al., 1990b). Since upland farmers face significant costs in adopting soil conservation measures and changes in farming system, they are unlikely to invest in better land management unless there is a perceived economic advantage from this. Furthermore, poorer upland farmers, dependent on low-value crops, may simply be unable to afford high-cost soil conservation measures. A combination of general economic policies and public expenditures, that both increase agricultural productivity and incomes of upland farmers and reduce the economic pressures on farmers to deplete the land and accelerate soil erosion, will be required. The main priorities for public expenditure are: o research and extension to support low-cost farm technology for upland farmers; o building thE' physical infrastructure of the uplands, such as rural transport, tor integrating post-harvest technology and processing. 90. Fiscal Policy for Water Management. User charges will need to play a major role in ensuring the efficient and sustainable use of water resources. As noted, irrigation water is virtually a free good. Although some progress has recently been made in implementing an irrigation service fee, its applicastion so far has been very limited. Further-more, the aim of the fee is to cover the cost of O&M it is not linked to the volume of water used. Thus, while system efficiency will be improved through better maintenance, there may be no affect on the efficiency of water consumption. As a first step, however, the fee needs to be extended to the national level. With the successful implementation of this step, consideration will need to be given to redesigning the fee into a broader, volume-babea !LaL&ie for irrigation water. 91. In the case of domestic water, the main difficulty at present is the distortion of water charges that causes industrial and commercial users to substitute groundwater for piped water. This not only results in inefficient use of water, it also risks unsustainable groundwater extraction. The tax on industrial and commercial consumers is appropriate to mobilize resources needed to expand piped water. But major changes are needed in the tariff policy for residential consumers. The residential subsidy is poorly targeted; it disproportionately benefits the better-off who can afford the high connection charge, set above installation cost in some areas, and who consume water more heavily--the rates are subsidized even at relatively high levels of residential consumption. The intended equity objectives would be better - 28 - served by: (a) targeting the residential subsidy at lifeline consumption levels (say, five m /month); (b) reducing the connection charge for the poor to actual cost; (c) allowing installment payments spread over five years for the connection fees to low income households; and (d) eliminating subsidy at higher levels of consumption. 92. Increased reliance on private groundwater extraction is an efficient means of meetIng growth in the demand for water where it entails lower economic costs than public piped water and groundwater resources are plentiful. However, tariff policies favoring this source risk inefficient extraction of groundwater--only a partially renewable resource--at unsustainable rates where water is scarce. The latter is indeed the case in some major urban areas, notably in Jakarta where groundwater extraction is believed to be running well beyond sustainable levels. ln contrast to the high tariffs on piped water for industrial and commercial use, fees for groundwater extraction are generally very low. In areas of plentiful groundwater resources, low fees sufficient to cover the administrative costs of licensing may be justified. However, as groundwater becomes scarcer, as in many urban areas, extraction fees need to be raised to reflect the increasing cost and scarcity of the resource and to align these fees with tariffs on piped municipal water. 93. The distortionL of incentives resulting f.om the underpricing of groundwater is exacerbated by weaker enforcement of groundwater charges. In principle, licenses are issued for groundwater extraction, the rate of extraction is metered and fees are levied on water use. In practice, however, these are not effectively enforced. Unlicensed drilling and undercollection of fees are common, encouraging wasteful use of the resource. It has been estimated that up to 75 percent of groundwater drilling and extraction are done outside the official licensing and fee system. Accordingly, appropriate adjustments in groundwater charges need to be accompanied by measures to ensure more effective enforcement. Use of Fiscal Revenues: Earmarking 94. A pertinent issue is the use of revenues generated through environment-based taxes and charges. The experience of developed countries suggest that the earmarking of pollution-based revenues for financing pollution abatement equipments is common.9/ In the case of Indonesia, the reforestation tax is earmarked for reforestation activities. While some Ca,ma'king migh;t I=stA.-*C, 't- 's r.ct nresssz- ci- ,a ,,;l.ay 1..~. ~ j - - 4- - .. .... A.¶ - Although the experience of developed countries suggest that the main source of environmental improvement has been the financing of pollution reduction activities, it is not necessary that such activities be only financed through earmarked funds. What is important is that the level of subsidy or expenditure that is needed to induce a desirable level of environmental improvement activity should be made available. This is an expenditure priority issue; whether it is financed through pollution/forestry taxes or whether revenues are obtained from other sources is not always a critical 9/ This is based on the 'polluter pays principle"--that is, the polluter should finance the pollution abatement equipment. - 29 - consideration. However, earmarking could become an important consideration if tax/cha:ge compliance is directly linked to the recycling of collected revenues and there is a risk of underfunding of the program. 95S. On the other hand, earmarking could result in inefficient resource allocation. For example, the recent increase in the reforestation tax is expected to increase revenues from $146 million in 1989 to $350 million in 1991. These resources are too large relative to the level of efficient reforestation activity that could be financed. In view of the many other pressing activities, environment-related or otherwise, that could be financed from the surplus resources, keeping that fund unused would be inefficient. Even worse, the earmarking of funds could promote the financing of inefficient forestry projects ir. an attempt to exhaust the funds. Implementation Issues 96. A major hindrance to the wider use of environmental taxes and charges is the possibility of a political backlash. The experience of developed countries indicates that the firms had initially oppcsed the introduction of emission charges (Hahn, 1989). This is a natural response of a private profit maximizer. Strong political support is, therefore, essential for the successful implementation of environmental taxes/charges. A second prerequisite is the improvement of the tax collection system. Availability of information is a major problem; this is compounded by the general problem of staff shortage. Fortunately, the initial staffing requirements of implementing the kinds of charges suggested in this paper are not expected to be overwhelming. For example, the mechanism for collecting forest taxes already exists. Much of the incremental tax revenues will come from the suggested increase in the tax rate, based on the logic of eventually raising rent-capture to 85-90 percent. Of course, there is an important need to improve the administrative efficiency of the present arrangements through better information, planning and enforcement. This, in turn, will require some increases in the number of tax staff. At the same time, there is a need to consolidate forestry revenues with the nat.onal budget to ensure proper aucounLing ana appropriate use or these resources. In the case of pollution charges, the initial proposal is to introduce a simple effluent charge, and for a limited number of areas and enterprises. Although the initial tax rate will need to be based on some estimate of the average pollution damage, once this is known, the administration of the tax should be relatively simple. Similarly, the institutional arrangements for municipal water charges are in place; the correction of the present water tariff distortions should not result in an added administrative burden. An extra effort will, however, be needed to implement groundwater charges. - 30 - Section VI: SUMMARY AND CONCLUSIONS 97. Natural resources are critical to Indonesia's development. In recognition of the close link between economic development and environment, Indonesia has maintainea a long-standing commitment to the basic concepts of sound environmental management. A number of corrective steps have already been taken to reduce environmental degradation and promote a more sustainable pattern of development. Overall, the focus of environmental management has been on regulatory instruments. The use of fiscal policy has been limited. 98. Indonesia's key environmental concerns are: (a) the degradation of land in Java and the outer islands; (b) deforestation in the outer islands; (c) inefficient and unsustainable use of water, especially in Java; and (d) pollution in Java. The Government's policy progress has concentrated on developing regulatory policies for industrial pollution control, forestry exploitation and the appropriate use of pesticides in agricultural production. Although significant progress has been achieved in developing the institutional framework for applying environmental regulations, the implementation capacity is still constrained by the lack of trained staff. 99. Although there are a number of taxes and charges linked to the use of forest and water resources, a systematic approach towards the use of fiscal policy instruments for environmental management does not exist in Indonesia. The number of taxes and charges in the forestry sector are too many and determined on an ad-hoc basis. Despite recent increases in the reforestation fee, rent capture is low (around 30 percent); moreover, there are a number of inefficiencies in the present forestry tax system. The use of water charges for efficient and sustainable water use is even more limited. Irrigation water remains virtually free, while there are significant distortions in municipal water charges. Groundwater use is not regulated properly and is often exploited as a free resource. There is no effluent charge/tax for pollution. 100. Subsidy and expenditure instruments are also largely ineffective or used inadequately. The reforestation subsidy is generally ineffective, while public expenditure for environmental improvement programs is very limited. Fertilizer subsidy, on the contrary, contributes to the degradation of the environment. One positive step, however, has been the elimination of the pesticide subsidy. IVi. ITis paper concludes that fiscal policy can and should play a major role in improving the quality of Indonesia's environment. The rationale for this is: (a) the experience of developed countries suggests that market based instruments (taxes, charges, subsidies, marketable permits, ownership rights) are more cost effective than command and control type instruments (standards; fixed permits); (b) the effectiveness of command and control instruments in Indonesia is limited by the implementation capacity constraint; fiscal instruments are likely to be less constrained by this factor; (c) an added advantage of fiscal instruments, such as taxes and charges, is their contribution to government revenues. These revenues can help finance environmental improvement activities. - 31 - 102. The main recommendations of this paper are: (a) Forest Management o Extend the lease period for forest concessionaires to 35 years on a rollover basis, whereby every five years the contract would be extended subject to satisfactory performance. O Shift the forest tax base from log output to the stock of marketable stems in the stand. O Increase the effective tax rate on logging in stages to eventually allow a rent-capture of 85-90 percent. O Improve the effectiveness of the reforestation program by: longer-term lease; technical support for proper species selection and appropriate site selection; making enrichment planting of selectively cut stands and the methods of regenerating indigenous hardwoods eligible for reforestation funds; and making plantations involving short-duration trees (pulpwood) ineligible for subsidy. (b) Pollution Management o Institute a simple effluent charge, levied selectively. The initial focus could be on the most heavily polluted areas (Jakarta, Bandung and Surabaya) and for industrial activities that are believed to be among the heaviest contributors to water pollution. Each firm within the industry would pay a uniform charge. As experience is gained and capacity to measure and monitor emissions is developed, the charge could be extended and linked to the actual level of discharge. O Even if a direct emission reduction does not happen from this Charne. r^n -ti=.. -.;O. tz -ILt -C . funds for promoting the use of abatement equipments. The subsidy for this purpose could be in the form of outright grants or subsidized loans. o In view of the limited role at present for a direct effluent charge, fiscal policy car. al'so focus or, inui-eCL means--through taxation of inputs and outputs in polluting sectors. An attractive option in this regard is the environmental user charge on energy. As a first step, however, the present distortions in energy prices need to be corrected. This, by itself, will contribute to a more environmentally-sound pattern of energy production and consumption. Subsequently, consideration could be given to imposing a user charge on energy, differentiated according to the pollutant content of each energy product. o Similarly, urban congestion pricing could be applied to reduce traffic densities, improve traffic efficiency and reduce air pollution in major urban centers. - 32 - o Another fiscal option for reducing pollution is the reduction/elimination of the subsidy on chemical fertilizer. O There is an important need to reassess expenditure priorities in favor of environmental improvement projects, such as slum upgrading, human waste management and industrial waste treatments. (c) Land Management o Promote the development of a well-functioning land markets through: appropriate definition of property rights, removal of official barriers to land transactions, and more flexible attitude towards forestry land classification. o Ensure that the allocation of public land for private use is based on prices that reflect market values. O Reassess public expenditure priorities in agriculture in favor of activities that will help minimize land degradation. O Improve soil conservation by supporting and disseminating research on low-cost farm tec"nology for upland farmers, and by building the physical infrastructure of the uplands, such as rural transport, for integrating post-harvest technology and processing. (d) Water Management o Extend the irrigation service fee to the national level. With the successful implementation of this step, consideration will need to be given to redesigning the fee into a broader, volume- based charge for irrigation water. - The residential subsidy for piped wa&Le, L.uuld Le Latgee &a lifeline consumption levels with higher rates charged for higher consumption volumes. A part of the present subsidy could be allocated to support the construction of standpipes in poor residential areas. o Raise groundwater fees, in areas o' ccIaLivcly ^Saue groundwpater resources, in line with user charges for municipal water. Improve enforcement of licensing and tariff regulations for groundwater extraction. 103. Although fiscal policy will need to play an important role, this is only one area of policy intervention. A comprehensive environmental management strategy will neec to be based on a balanced combination of regulatory and fiscal policy instruments. The successful implementation of this strategy will require strong political support and continuous efforts to improve the institutional framework. - 33 - REFERENCES 1. Anderson, J.R. and J. Thampapillai. 1990. 'Soil Conservation in Developing Countries: Project and Policy Intervention' Policy and Research Series No. 8, World Bank. 2. Baumol, W.J. and W.E. Oates. 1971. "The Use of Standards and Prices for Protection of the Environment", Swedish Journal of Economics, March 1971, 73 (1). 3. Baumol, W.J. and W.E. Oates. 1975. "The Instruments for Environmental Policy", in Economic Analysis and Environmental Problems edited by E.S. Mills, Columbia University Press. 4. Baumol, W.J. and W.E. Oates. 1988. "The Theory of Environmental Policy", Cambridge University Press. 5. Bersten, R. and R. Sinaga. 1986. "Economics", Technical Appendix VI, GOI/USAID Composite Report of the Watershed Assessment Team. 6. Ciriacy-Wantrup, S. von, and R. Bishop. 1975. "Common Property as a Concept in Natural Resource Policy". Natural Resources 15 (4). 7. Coase, R.A. 1960. "The Problem of Social Cost", Journal of Law and Economics, No. 3. 8. Gauchon. 1976. "Some Aspects of Watershed Management Economics". 9. Gillis, Malcolm. 1988. "Indonesia: Public Po'licies, Resource Management and Tropical Forests," in Robert Reppeto and Malcolm Gillis ed. Public Policies and the Misuse of Forest Resources, Cambridge University Press. 10. GOI/FAO 1990. "Situation and Outlook of the Forestry Sector in Indonesia', Volume I, Jakarta. 11. Hahn, R.W. 1989. "A Primer on Environmental Policy Design", Hardwood Academic Publishers. 12. Jones, Peter M. 1989. "The Restraints of Road Traffic in Urban Areas: Objectives, Options and Experiences, Transportation Studies Unit Discussion Paper No. 3, Oxford University Press. 13. Magrath, William and P. Areus. 1987. 'The Costs of Soil Erosion on Java--A Natural Resource Accounting Approach", World Resources Institute. 14. Pearce, David and Turner Kerry. 1990. "Economics of Natural Resource and Environment", Johns Hopkins University Press. - 34 - 15. Pearce, David; Edward Barbier and Amil Markandya. 1990a. "Sustainable Forest Management in the Outer Islands of Indonesia", in Sustainable Development--Economics and Environment in the Third World, Edward Elgar Publishing Limited. 16. Pearce, David; Edward Barbier and Anil Markanadya. 1990b. 'Sustainable Development in the Upper Watersheds of Java", in Sustainable Development--Economics and Environment in the Third World, Edward Elgar Publishing Limited. 17. Pigou, A.C. 1932. "The Economics of Welfare", Macmillan. 18. Quiggin, J. 1988. "Private and Common Property Rights in the Economics of the Environment", Journal of Economic Issues, No. 22. 19. Roche, F.C. 1988. "Java's Critical Uplands: Is Sustainable Development Possible?" Food Research Institute Studies, vol. 21. 20. Saragih, B; P.C. Huszar and H.C. Cochrane. 1986. "Model Farm Program Benefits: The Citanduy Watershed," USAID, Jakarta. 21. Sedjo, R.A. 1987. "Incentives and Distortions in Indonesia Forest P'olicy", Mimeo, Jakarta. 22. Tampubolan, S.M.H. and B. Saragih. 1986. "Model Farm Upland Farming Technology in the Citanduy River Basin; A State of the Art", USESE, Jakarta. 23. World Bank. 1990a. "Indonesia Sustainable Development of Forests, Land and Water", World Bank Country Study. 24. World Bank. 1990b. "Indonesia: Poverty Assessment and Strategy", World Bank Country Study. PRE Working Paper Series Contact :bl AL4ho D& for pLaper WPS771 Macroeconomic Structure and Ibrahim A. Elbadawi September 1991 S. Jonnakuty Policy in Zimbabwe: Analysis and Klaus Schmidt-Hebbel 39074 Empirical Model (1965-88) WPS772 Macroeconomic Adjustment to Oil Ibrahim A. Elbadawi September 1991 S. Jonnakuty Shocks and Fiscal Reform: Klaus Schmidt-Hebbel 39074 Simulations for Zimbabwe, 1988-95 WPS773 Are Ghana's Roads Paying Their Reuben Gronau September 1991 J. Francis Way? Assessing Road Use Cost ano 35205 User Charges in Ghana WPS774 Agricultural Pricing Systems and Mark Gersovtz October 1991 B. Gregory Transportation Policy in Africa 33744 WPS775 The Macroeconomics of Public William Easterly October 1991 R. 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