Timothy O. Randhir

A watershed-based land prioritization model for water supply protection

Abstract Water quality management at a watershed scale is important for water supply protection. Escalating costs of water treatment, along with the need for cooperative solutions among various water users in a watershed, reinforce the need for such approach. In a watershed approach, optimum water quality benefits can be achieved by targeting practices to those areas that have the maximum marginal value of water quality protection. To accomplish this, prioritization based on marginal benefits and costs is essential. The information that is crucial for developing an effective prioritization method includes geographic information, relationship between land criteria and effects, and travel-time of runoff water. By integrating these three types of information, a watershed level prioritization model was developed and applied to the Ware River watershed in Massachusetts, USA. It was observed that the time of travel of surface runoff followed a complex spatial distribution. Use of zones based on distance from the outlet or drainage zones may not accurately reflect the spatially explicit nature of travel path and travel-times. The area under each category of travel-time as a function of travel-time followed a nonlinear trend in the Ware River watershed. The distribution of the prioritization index showed that sensitive areas do not clearly fall within the boundaries of any single land characteristic (e.g. riparian buffer, steep slopes, sensitive soils, etc.). Low priority areas covered the highest percent of the watershed and this percentage decreased with increase in land sensitivity. Focusing on fewer areas in the watershed can maximize benefits to water quality and result in lower expenditures. By adjusting criteria and weights, this approach can be adapted to prioritize a wide variety of land-protection and land-use decisions such as preserving prime forestland, protecting critical wildlife habitats, recreational and open space planning, and ecological–economic planning.

ECONOMIC AND WATER QUALITY IMPACTS OF REDUCING NITROGEN AND PESTICIDE USE IN AGRICULTURE

A multiyear regional risk programming model was used in evaluating the impacts of different environmental policies on cropping systems, input use, nonpoint source pollution, farm income and risk. A direct expected utility maximizing problem (DEMP) objective with a Von Neuman Morgenstern utility function was used in deriving optimal cropping systems. A biophysical simulation model provided input for the optimization. Three types of policies-taxing, regulating the aggregate, and regulating the per acre level-were studied for two farm inputs-nitrogen and atazine. It was observed that policies had varied and multiple cross-effects on pollutant loads, farm income, and risk. This information is crucial in developing successful policies toward improving water quality. If an appropriate input policy is chosen, both targeted and nontargeted pollutant loads can be managed. The three policies varied in their effects on pollutant loads and involved tradeoffs in water quality and economic attributes.

Multiple criteria dynamic spatial optimization to manage water quality on a watershed scale

This article develops a dynamic spatial optimization algorithm for watershed modeling that reduces dimensionality and incorporates multiple objectives. Spatial optimization methods, which include spatially linear and nonlinear formulations, are applied to an experimental watershed and tested against a full enumeration frontier. The integrated algorithm includes biophysical simulation and economic decision-making within a geographic information system. It was observed that it is possible to achieve economic and water quality objectives in a watershed by spatially optimizing site-specific practices. It was observed that a spatially diversified watershed plan could achieve multiple goals in a watershed. The algorithm can be used to develop efficient policies towards environmental management of watersheds to address water quality issues by identifying optimal tradeoffs across objectives.

Climatic change impacts on the ecohydrology of Mediterranean watersheds

Impact of climate change on ecohydrologic processes of Mediterranean watersheds are significant and require quick action toward improving adaptation and management of fragile system. Increase in water shortages and land use can alter the water balance and ecological health of the watershed systems. Intensification of land use, increase in water abstraction, and decline in water quality can be enhanced by changes in temperature and precipitation regimes. Ecohydrologic changes from climatic impacts alter runoff, evapotranspiration, surface storage, and soil moisture that directly affect biota and habitat of the region. This paper reviews expected impacts of climatic change on the ecohydrology of watershed systems of the Mediterranean and identifies adaptation strategies to increase the resilience of the systems. A spatial assessment of changes in temperature and precipitation estimates from a multimodel ensemble is used to identify potential climatic impacts on watershed systems. This is augmented with literature on ecohydrologic impacts in watershed systems of the region. Hydrologic implications are discussed through the lens of geographic distribution and upstream-downstream dynamics in watershed systems. Specific implications of climatic change studied are on runoff, evapotranspiration, soil moisture, lake levels, water quality, habitat, species distribution, biodiversity, and economic status of countries. It is observed that climatic change can have significant impacts on the ecohydrologic processes in the Mediterranean watersheds. Vulnerability varied depending on the geography, landscape characteristics, and human activities in a watershed. Increasing the resilience of watershed systems can be an effective strategy to adapt to climatic impacts. Several strategies are identified that can increase the resilience of the watersheds to climatic and land use change stress. Understanding the ecohydrologic processes is vital to development of effective long-term strategies to improve the resilience of watersheds. There is need for further research into ecohydrologic dynamics at multiple scales, improved resolution of climatic predictions to local scales, and implications of disruptions on regional economies.

TRADE LIBERALIZATION AS A VEHICLE FOR ADAPTING TO GLOBAL WARMING

This study assesses the potential interaction between climate change and agricultural trade policies. We distinguish between two dimensions of agricultural trade policy: market insulation and subsidy levels. Building on the previous work of Tsigas, Frisvold and Kuhn (1997) we find that, in the presence of current levels of agricultural subsidies, increased price transmission—as called for under the Uruguay Round Agreement on Agriculture—reduces global welfare in the wake of climate change. This is due to the positive correlation between productivity changes and current levels of agricultural support. Increases in subsidized output under climate change tend to exacerbate inefficiencies in the global agricultural economy in the absence of market insulation. However, once agricultural subsidies have also been eliminated, price transmission via the global trading system contributes positively to economic adaptation under climate change.

Facilitating adaptation to global climate change: perspectives from experts and decision makers serving the Florida Keys

Slivers of land amidst the world’s third largest barrier reef, the Florida Keys provide unique insights on the emerging challenges associated with adaptation to global climate change. While political will and public awareness are gradually shifting on the imposing risks, analysis of survey responses from experts and decision makers serving the Florida Keys (federal, state and local personnel) reveals insufficient resources, limited direction and leadership, and lack of institutional frameworks to facilitate the adaptation process. Against this backdrop, we investigate experts and decision makers’ interest in an array of adaptation measures including their willingness to support a proposed ‘Community Adaptation Fund’ (CAF) to mobilize resources and lay the foundation for adaptation initiatives in the Florida Keys. We also explore potential funding sources for establishing the proposed CAF, and test the feasibility of a diverse set of financing mechanisms. We discuss implications of our findings in the context of enhancing adaptive capacity in the Florida Keys and beyond.

Managing local commons in developing economies: an institutional approach

Abstract Resource degradation has a profound influence on food sustainability of developing economies. The breakdown of traditional institutions enhanced this problem and needs an institutional approach. Many of the traditional policies, like regulation and taxation, have failed to deliver the required benefits. This paper uses Principal-Agency theory to develop a criterion for incentive design. Three incentive structures are developed based on contractual agreements and restructured property rights that use the criterion. Two case studies were used to discuss the new institutional arrangement. Some practical implications of the mechanisms designed include linearity of incentive rules, development of an effort-reward matrix, and gradual reinstatement of local governance.

Managing Emerging Contaminants: Status, Impacts, and Watershed-Wide Strategies

Widespread occurrence of emerging contaminants (ECs) in water bodies is a major health concern worldwide, both in developing and developed countries. Contaminants from pharmaceutical, personal care products, pest control, and animal operations enter water bodies and can exceed acceptable levels. ECs can cause harmful impacts on aquatic and terrestrial wildlife and human communities. Endocrine disrupting chemicals cause a number of reproductive and sexual abnormalities in wildlife and humans. During prenatal and/or early postnatal life, exposure to these chemicals can impair the development of the endocrine system and of the organs that respond to endocrine signals in organisms. The effects during development are permanent and sometimes irreversible. Managing ECs in water resources is a critical issue that requires attention especially in sensitive ecosystems and in rapidly developing areas. There is a need for a comprehensive framework that aims at system-wide abatement (source-transfer-fate levels) using both structural and non-structural approaches. In this study, we review the state of this problem in developing and developed countries, nature of their impacts on aquatic organisms, terrestrial animals, and on public health. A comprehensive, innovative, and novel approach with multi-level strategies at source, transfer, and sink level is proposed for effective removal of ECs. Some structural approaches at source level for abatement of ECs include the use of best management practices like buffer strips, riparian management, natural, and constructed wetlands. Since these strategies have multi-level applicability, they are cost-effective alternatives to include in wastewater treatment. Among structural approaches at sink level, powdered activated carbon, nanofiltration, and reverse osmosis can remove most of the emerging organic. However, the cost of treatment by these methods is high and it is inevitable for treating drinking water. Besides structural approaches, non-structural approaches play a major role and need to use targeted strategies in dissemination of information, outreach to modify human behavior, incentives for controlling contaminant loads, and improved and updated policy mechanism for compliance to pollutant standards.

Alleviating soil erosion/pollution stock externalities: alternative roles for government

Abstract This paper addresses two temporal externalities due to agriculture: soil erosion and related pollution. The possibility of decentralization of decisions, the appropriate role of a resource manager, and the efficiency of alternative policies are examined using traditional welfare economics concepts for a two-sector model of rural–urban linkage. Three alternative types of policies can be socially efficient, but imply different involvement by government, and have different knowledge requirements. A Pigouvian policy requires full information. A bargaining solution involves government only in setting an entitlement, but it may require too much knowledge by rural households in terms of understanding dynamic environmental relationships. A third way is that government and rural households be co-producers of environmental goods. This concept assigns government the responsibility for maintaining knowledge about environmental relationships, and government is a participant in a market system that determines prices for environmental-related goods.

Watershed Management - Issues and Approaches

Watershed management is an integrated approach that evaluates system-wide implications of natural resource problems. It has received considerable attention among communities and resource managers as an appropriate approach to deal with complex problems. Problem-solving is an important aspect of watersheds that involves diagnosis, assessment, solution, and implementation issues that often mean processing an enormous amount of information. A typical problem requires compilation of information from a variety of sources and is time consuming. This book will use a problem-based approach to present information on each problem facing watersheds. The subject area derives from a variety of disciplines and experiences and is presented clear and systematically throughout for easy reading and understanding. The problems covered in the book are major ones facing watersheds through the globe. The first chapter introduces principles of watershed management and is followed by chapters that are problem specific. Each problem is dealt with systematically with introduction, analysis, strategies, and further references. Watershed Management provides a valuable reference to professionals, students, scientists, and common citizens who are interested in learning about the variety of problems and approaches in watershed management.