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Water recreation is valuable to people, and its value can be affected by changes in water quality. This paper presents the results of a revealed preference survey to elicit coastal New England, USA, residents’ values for water recreation and water quality. We combined the survey responses with a comprehensive data set of coastal attributes, including in-water and remotely sensed water quality metrics. Using a travel cost model framework, we found water clarity and the bacterial conditions of coastal waters to be practical water quality inputs to economic analysis, available at appropriate scales, and meaningful to people and their behavior. Changes in clarity and bacterial conditions affected trip values, with a $4.5 change for a meter in clarity in Secchi depth and $0.08 for a one-unit bacteria change in colony-forming units per 100 ml. We demonstrate the large potential value of improving water quality through welfare analysis scenarios for Narragansett Bay, Rhode Island, and Cape Cod, Massachusetts, USA. The paper discusses lessons for improving the policy relevance and applicability of water quality valuation studies through improved water quality data collection, combined with the application of scalable analysis tools for valuation.
We investigate the effect of water quality on the educational outcomes of children aged 8–11 in 39 districts in five states in the Ganges Basin of India. Using data from the Centre for Pollution Control Board of India and the Indian Human Development Survey (IHDS) 2011–12, we study the effect of water quality in the Ganges Basin on the performance in three test scores. Our evidence suggests that faecal coliform levels in water sources above safety thresholds negatively affect reading and writing test scores. The effects of Nitrate-N and Nitrite-N in the water appear to be weaker compared to those of faecal coliform. The results establish that water pollution caused by excessive presence of faecal coliform is an important environmental factor in determining educational outcomes of children. High levels of faecal coliform in the water could be lowering cognitive abilities of the pollution-affected children through the channel of waterborne diseases.
Water is essential for (human) life, as necessity and threat. With industrialization, water use has grown exponentially, notably in agriculture (irrigation). Withdrawal from open water and groundwater constitutes blue water use. Water in soils and vegetation is called green water; grey water refers to waste water flows. The complex stocks and flows of water can be related to human activity in the water footprint. Blue water use of surface and groundwater and its availability vary greatly across the globe. Many people live in water-stressed regions, due to groundwater depletion, little and/or irregular rain and declining quality due to pollution. Water is a prime example of a common pool resource (CPR), but increasing demand and subsequent scarcity have led to marketization and privatization of water provision and infrastructure.Because water use is intrinsically regional, water modelling and governance should be context-specific and participatory. The path to sustainable water use will have to address the divergent views on water as private or public good, and on ways to connect water engineering (including for hydropower) to practices less damaging for biodiversity (nature-based solutions).
Anthropogenic nutrient loading from land use, especially agriculture, is a major threat to waterbodies worldwide. Efforts to govern nutrient pollution are increasingly based on simulation modeling for research, evaluation, and regulation. This study develops a novel approach to simulate nutrient losses from agriculture applied to the Lake Champlain basin in the US state of Vermont. The Vermont Phosphorus-Index—a farm-based empirical model regularly used for site evaluation—is scaled up to the basin level with high-resolution geographic data and probabilistic estimation of unknown parameters and management practices. Results are comparable with analyses using more data and computationally intensive tools. Important insights into basin-wide management include: (1) nutrient-management planning can significantly reduce P losses in a livestock-agriculture-dominated watershed by re-distributing manure applications from areas of high loss to low loss; (2) hotspot identification from geographic data alone may be deeply complicated by high underlying heterogeneity of soil phosphorus; and (3) probabilistic modeling using simple, field-scale models is a potentially useful complement to complex watershed process models. Findings suggest that currently available best-management practices will likely be insufficient to reach reduction targets in the most impaired sub-watersheds. Reductions of agricultural land use and herd size, particularly in intensive dairy operations, may be necessary.
We develop a theoretical framework and present a corresponding empirical analysis of the Food and Drug Administration’s irrigation water quality regulatory standard under the Food Safety Modernization Act using lettuce as a case study. We develop a stochastic price endogenous partial equilibrium model with recourse to examine the standard’s efficacy under various scenarios of foodborne illness severity, standard implementation, demand response to foodborne outbreaks, and irrigation costs. The stringency of regulation is evaluated with endogenous producer response to regulatory requirements and corresponding implications for economic surplus. The baseline results show that in the case of the lettuce market, the proposed microbial irrigation water quality regulation in the Food Safety Modernization Act (FSMA) is not cost effective relative to the existing Leafy-Greens Marketing Agreements relying on water treatment for mitigation of microbial contamination. However, FSMA can be cost effective if water treatment is sufficiently expensive.
Governments need tools to analyze trade-offs for freshwater policy, yet valuation estimates from the literature can be difficult to deploy in a policy setting. Obstacles to benefit transfer include (i) difficulties in scaling up local estimates, (ii) water quality attributes that cannot be linked to policy, and (iii) surveys positing large, unrealistic water quality changes. Focusing on freshwater rivers and streams in New Zealand, we develop and implement a nationwide discrete choice stated preference study aimed at future benefit transfer. The stated provision mechanism and environmental commodity being valued are specified at the regional council level, which is the administrative unit for policy implementation. The survey is administered on a national scale with three attributes – nutrients, water clarity, and E. coli levels – which were chosen to align with government policy levers and salience to the public. Estimation results demonstrate positive and significant willingness to pay values for improvements in each attribute, with magnitudes that are comparable to a recent referendum vote on a water quality tax. To illustrate the utility of our study, we apply the results to a recent policy analyzed by New Zealand’s Ministry for the Environment and estimate nationwide annual benefits of NZ $115 million ($77 million USD).
Protected areas (PAs) represent a powerful refuge for maintaining and safeguarding biodiversity. Generally, PAs are delineated to protect terrestrial taxa, providing incidental protection to the aquatic ecosystems within their borders. Here, we compare water quality within PAs and non-PAs in southern Brazil, encompassing remnants of the Atlantic Forest biome, to assess whether PAs serve as a buffer from external pressures for aquatic ecosystems within their boundaries. In addition to physicochemical and microbiological water parameters, we analysed 147 pesticide and 31 pharmaceutical compounds in water samples from 33 sites within and outside PAs. The water quality did not differ between PAs and non-PAs but indicated clear pollution from sewage discharges. We found 19 pesticides and five pharmaceuticals in streams within the study area. We detected pesticides in all sampling sites, with the herbicide 2,4-dichlorophenoxyacetic acid present in 91% of them. Our data show that PAs are insufficient means to mitigate the impacts stemming from their catchments, and the running water that reaches their domains already shows signs of anthropogenic interference, which may affect aquatic biodiversity. Protection and management measures require consideration of the whole watershed to protect freshwater habitats and biota.
Irrigation of crops and drainage of excess water have both positive and negative environmental consequences. Irrigation return flows degrade the quality of receiving streamflow as they transport pollutants. Although return flows cannot be entirely eliminated, they can be reduced by appropriate water management and improved conveyance and delivery systems. This chapter briefly discusses the importance of return flows and the pollutants transported by them.
Design of a farm irrigation system entails both technical and nontechnical considerations. It is an integration of principles borrowed from agriculture, meteorology, hydrology, hydraulics, irrigation, and drainage engineering as well as economic, environmental, and management sciences. This chapter provides a snapshot of the steps involved in designing a farm irrigation system.
Fundamental to food security is irrigated agriculture. This chapter discusses different aspects that impact food security, including population, agricultural land, water availability, water quality, crop water requirement, energy requirement, food production, increase in food production due to irrigated agriculture, and impacts of climate change.
Even when they are not directly related to the provision of water and sanitation services, business activities can be an important driver for the realization or, more frequent, violation of the HRtWS. The different ways those economic activities engage in development projects can affect the way people, notably traditional communities, access water and sanitation services. Usually, when confronting the economic and social benefits of those projects with the human rights risks for the affected communities, the mainstream narrative overestimates the former and makes the latter invisible. Among those business activities, megaprojects have a prominent role in terms of concerns for the HRtWS.
This chapter introduces the major components of the Water Quality Act of 1987. The chapter guides the reader through the six major titles included in the Water Quality Act, and describes the various programs and functions. The chapter also provides in-depth discussion of the elements of the Clean Water State Revolving Fund program, including the use of leveraging, the reporting and accountability elements of the program, and mechanisms such as the Letter of Credit and the importance of state primacy.
The amendments to the Federal Water Pollution Control Act in 1972 represent a significant change in the balance between federal authority and states' rights in water quality policy. The 1972 legislation significantly increased the federal role in clean water, and substantially increased the federal budgetary commitment to water quality. Combined with a new regulatory framework, this legislation set the stage for the development of the Water Quality Act of 1987. The Water Quality Act signifies a substantive redefinition of the federal role in water quality policy. Through the development of a block grant program, the WQA shifted primary responsibility for the distribution of resources for clean water infrastructure to the states, while stating preferences for states to serve certain types of communities. This chapter details the development of the 1987 legislation, the forces that drove the changes in policy instruments, and discusses the modest changes to the program since its initial passage in 1987.
This paper analyzes public willingness to support farmer adoption of best management practices in Oklahoma’s Fort Cobb Watershed, a multiuse area for agriculture, residential water provision, and recreation. The study uses Oklahoma’s Meso-Scale Integrated Sociogeographic Network survey to conduct a contingent valuation analysis of a hypothetical, one-time tax that would support farmer adoption of pasture and riparian buffer management practices. Respondent heterogeneity is modeled using beta-binomial regression. Public support for the hypothetical program is stronger for the tandem implementation of riparian buffer establishment and pasture expansion (willingness to pay [WTP] = $290) and riparian buffer establishment (WTP = $317).
The Water Quality Act of 1987 ushered in a new era of clean water policy to the US. The Act stands today as the longest-lived example of national water quality policy. It included a then-revolutionary funding model for wastewater infrastructure - the Clean Water State Revolving Fund - which gave states much greater authority to allocate clean water infrastructure resources. Significant differences between states exist in terms of their ability to provide adequate resources for the program, as well as their ability (or willingness) to meet the wishes of Congress to serve environmental needs and communities. This book examines the patterns of state program resource distribution using case studies and analysis of state and national program data. This book is important for researchers from a range of disciplines, including water, environmental and infrastructure policy, federalism/intergovernmental relations, intergovernmental administration, and natural resource management, as well as policy makers and policy advocates.
Due to COVID-19, many households faced hardships in the spring of 2020 – unemployment, an uncertain economic future, forced separation, and more. At the same time, the number of people who participated in outdoor recreation in many areas increased, as it was one of the few activities still permitted. How these experiences affect the public’s willingness to pay (WTP) for environmental public goods is unknown. During the early months of the pandemic, we conducted a stated preference survey to value statewide water quality improvements in Delaware. While a majority of participants report experiencing hardship of some sort (economic, emotional, etc.), mean household WTP declined by only 7 % by May 2020.
Energy and water have been fundamental to powering the global economy and building modern society. This cross-disciplinary book provides an integrated assessment of the different scientific and policy tools around the energy-water nexus. It focuses on how water use, and wastewater and waste solids produced from fossil fuel energy production affect water quality and quantity. Summarizing cutting edge research, it describes the scientific methods for detecting contamination sources in the context of policy and regulations. The authors highlight the growing evidence that fossil fuel production, from both conventional and unconventional sources, leads to water quality degradation, while regulations for the water and energy sector remain fractured and highly variable across and within countries. This volume will be a key reference for scholars, industry professionals, environmental consultants and policy makers seeking information on the risks associated with the energy cycle and its impact on the environment, particularly water resources.
The litigation between the Agua Caliente Band of Cahuilla Indians and several water districts in southern California may address the unclear ownership of aquifer pore spaces directly. In this case, the tribal parties have claimed a federally reserved right to aquifer pore spaces as a component of the mineral estate of their reservation. This directly addresses whether parties may have exclusive rights to store water in an aquifer or must share storage rights with others. The resolution of this question has important implications to aquifer unitization, including defining the necessary parties to the agreement and the allocation of shares. The court has several potential methods of resolving this question, which would determine the basis of public and private rights to the use of the aquifer.
This interdisciplinary volume examines how nine arid or semi-arid river basins with thriving irrigated agriculture are doing now and how they may change between now and mid-century. The rivers studied are the Colorado, Euphrates-Tigris, Jucar, Limarí, Murray-Darling, Nile, Rio Grande, São Francisco, and Yellow. Engineered dams and distribution networks brought large benefits to farmers and cities, but now the water systems face multiple challenges, above all climate change, reservoir siltation, and decreased water flows. Unchecked, they will see reduced food production and endanger the economic livelihood of basin populations. The authors suggest how to respond to these challenges without loss of food production, drinking water, or environmental health. The analysis of the political, hydrological, and environmental conditions within each basin gives policymakers, engineers, and researchers interested in the water/sustainability nexus a better understanding of engineered rivers in arid lands.
The Yellow River is by its nature not sustainable since it carried the world’s heaviest silt load for a long time. Yet, this silt load (loess plateau) has fallen considerably in recent years, but at the cost of other forms of sustainability, such as streamflow. The reasons for this dramatic decline in runoff are complex. In addition to reducing silt load, terraces and vegetation have led to the marked reduction in runoff. The fall in natural runoff can also be attributed to groundwater and mining extractions, as well as reservoir filling. Population per se is not a major driver of water demand compared to irrigated agriculture and other sectors, notably mining and industry. While China is not a federal system, it is organized in a complex hierarchical system where provinces play an important role and are capable of serving their own interests in negotiating usages and allocations of the river. The chapter analyzes peculiar physical conditions and water management institutions in the Yellow River Basin.