Listening Project

In an effort to better serve Southeast and Coastal Georgia, The Coastal Rivers Water Planning & Policy Center tapped the thoughts of several key stakeholders on water issues in our region.The Center was created in 2001 with a continuing mission to "assist policymakers in the formulation of policy designs to best manage sustainable economic growth and natural resource conservation via water planning, research, education and technical assistance." In order to best accomplish this mission, it is necessary for us to engage stakeholders in our region to determine those issues of critical importance.The Listening Project is designed to identify the perspective of water users throughout the Coastal Rivers Region by listening to the actual concerns and ideas for improvement of those who have a stake in the water future of the region. Using this information, the Center can better meet the research needs of stakeholders in the region.The objective of the first round of listening sessions is to identify issues, and not to take a quantitative measure of any given constituency. Thus, the results of the process do not lend themselves to conclusions that any one constituency has a certain viewpoint, but rather gives an idea for the type of issues that arise when representatives of one particular constituency gather to discuss their hopes and fears around the future of water use in Coastal Georgia region.The balance of this paper is organized in the following way: In Section II we discuss the process used in this first round of five listening sessions. In Section III we report the verbatim ideas of the participants in each of the five sessions. Section IV reports the same verbatim ideas put forward by the participants, but the ideas are organized according to dominant themes emerging from the sessions, where various constituencies' ideas on each theme are easily readable in the same place. Finally, in Section V we offer concluding remarks and describe our plans for Phase II of the project. Working Paper Number 2005-00

The development and application of economic valuation techniques and their use in environmental policy - A survey

This paper is concerned with the issue of how to introduce monetary valuation into public decision-making. This issue is closely related to introducing rational procedures into public decision-making (Pearce, 2001). All public decision-making involves choice. To economists, rational choice means making the 'best' use of available resources, i.e. choose that option that has the lowest opportunity cost or the lowest value to be sacrificed. Costs and benefits of any project should therefore be weighed as well as compared to cost and benefits of alternative projects. This implies that all impacts of these projects need to be expressed in the same unit to make comparison possible. Money seems to be the most obvious numéraire. We discuss some of the most popular economic valuation techniques and their potential role in public decision-making. Due to the high cost and time that is needed to perform original valuation studies and the limited knowledge of decision-makers with these techniques, we recommend that the Flemish Administration primarily invests in performing high-quality transfer studies.Valuation, Cost-benefit Analysis, Travel Cost Method, Contingent Valuation Method

The implementation and validation of improved landsurface hydrology in an atmospheric general circulation model

Landsurface hydrological parameterizations are implemented in the NASA Goddard Institute for Space Studies (GISS) General Circulation Model (GCM). These parameterizations are: (1) runoff and evapotranspiration functions that include the effects of subgrid scale spatial variability and use physically based equations of hydrologic flux at the soil surface, and (2) a realistic soil moisture diffusion scheme for the movement of water in the soil column. A one dimensional climate model with a complete hydrologic cycle is used to screen the basic sensitivities of the hydrological parameterizations before implementation into the full three dimensional GCM. Results of the final simulation with the GISS GCM and the new landsurface hydrology indicate that the runoff rate, especially in the tropics is significantly improved. As a result, the remaining components of the heat and moisture balance show comparable improvements when compared to observations. The validation of model results is carried from the large global (ocean and landsurface) scale, to the zonal, continental, and finally the finer river basin scales

Meta-Functional Benefit Transfer for Wetland Valuation: Making the Most of Small Samples

This study applies functional Benefit Transfer via Meta-Regression Modeling to derive valuation estimates for wetlands in an actual policy setting of proposed groundwater transfers in Eastern Nevada. We illustrate how Bayesian estimation techniques can be used to overcome small sample problems notoriously present in Meta-functional Benefit Transfer. The highlights of our methodology are (i) The hierarchical modeling of heteroskedasticity, (ii) The ability to incorporate additional information via refined priors, and (ii) The derivation of measures of model performance with the corresponding option of model-averaged Benefit Transfer predictions. Our results indicate that economic losses associated with the disappearance of these wetlands can be substantial and that primary valuation studies are warranted.Bayesian Model Averaging; t-Error Regression Model; Meta-Analysis; Benefit Transfer; Wetland Valuation

Program on State Agency Remote Sensing Data Management (SARSDM)

A planning study for developing a Missouri natural resources information system (NRIS) that combines satellite-derived data and other information to assist in carrying out key state tasks was conducted. Four focal applications -- dam safety, ground water supply monitoring, municipal water supply monitoring, and Missouri River basin modeling were identified. Major contributions of the study are: (1) a systematic choice and analysis of a high priority application (water resources) for a Missouri, LANDSAT-based information system; (2) a system design and implementation plan, based on Missouri, but useful for many other states; (3) an analysis of system costs, component and personnel requirements, and scheduling; and (4) an assessment of deterrents to successful technological innovation of this type in state government, and a system management plan, based on this assessment, for overcoming these obstacles in Missouri

Inflow and Loadings from Ground Water to the Great Bay Estuary, New Hampshire

This final report presents the results of a study to evaluate groundwater inflow and nutrient loadings to the Great Bay Estuary, New Hampshire. The evaluation of inflow was accomplished independently by two methods: one, used thermal imagery, and the other, piezometric mapping. The thermal imagery method assessed groundwater that was observed to discharge within the intertidal zone of an inland estuary. The groundwater piezometric mapping method used bedrock wells around the bay to create an overall piezometric map of the near-bay area. Groundwater discharge was evaluated with respect to flow, concentration, and ultimately nitrogen loading to coastal waters. The results represent a snapshot for these variables, examined by a thermal infrared aerial survey in the spring of 2000, and water quality, specific discharge, and piezometric surface maps in the summer of 2001. Monitoring wells upgradient of the Great Bay were analyzed for nitrogen as an indicator of potential discharge source waters. Total groundwater discharge to the estuary was calculated as 24.2 cubic feet per second (cfs) with an average of 0.81± 0.89 mg dissolved inorganic nitrogen (DIN)/L, with a maximum value of 2.7 mg DIN/L (n=20). Nutrient concentrations, averaging 0.83± 1.34 mg DIN/L, with a maximum value of 10.2 mg DIN/L, were observed in upgradient bedrock groundwater analyzed from 192 wells. Nutrient loading was calculated to be 19.3±21.2 tons of N per year for the total Great Bay Estuary, covering nearly 144 miles of shoreline. The groundwater derived nutrient loading accounts for approximately 5% of the total non-point source load to the estuary. The thermal imagery method was found to be an effective and affordable alternative to conventional groundwater exploration approaches

Research analysis on the effects of agricultural water and landholdings to rural livelihoods in Indo-Gangetic Basin: with emphasis on Bihar State

Agricultural development / River basins / Water use / Irrigation water / Economic aspects / Land ownership / Water allocation / Models / Case studies / Policy / South Asia / India / Indo-Gangetic Basin