Ecosystem Services (ES) are an established conceptual framework for attributing value to the benefits that nature provides to humans. As the promise of robust ES-driven management is put to the test, shortcomings in our ability to accurately measure, map, and value ES have surfaced. On the research side, mainstream methods for ES assessment still fall short of addressing the complex, multi-scale biophysical and socioeconomic dynamics inherent in ES provision, flow, and use. On the practitioner side, application of methods remains onerous due to data and model parameterization requirements. Further, it is increasingly clear that the dominant “one model fits all” paradigm is often ill-suited to address the diversity of real-world management situations that exist across the broad spectrum of coupled human-natural systems. This article introduces an integrated ES modeling methodology, named ARIES (ARtificial Intelligence for Ecosystem Services), which aims to introduce improvements on these fronts. To improve conceptual detail and representation of ES dynamics, it adopts a uniform conceptualization of ES that gives equal emphasis to their production, flow and use by society, while keeping model complexity low enough to enable rapid and inexpensive assessment in many contexts and for multiple services. To improve fit to diverse application contexts, the methodology is assisted by model integration technologies that allow assembly of customized models from a growing model base. By using computer learning and reasoning, model structure may be specialized for each application context without requiring costly expertise. In this article we discuss the founding principles of ARIES - both its innovative aspects for ES science and as an example of a new strategy to support more accurate decision making in diverse application contexts.
ABSTRACT. Ecosystem services mapping and modeling has focused more on supply than demand, until recently. Whereas the potential provision of economic benefits from ecosystems to people is often quantified through ecological production functions, the use of and demand for ecosystem services has received less attention, as have the spatial flows of services from ecosystems to people. However, new modeling approaches that map and quantify service-specific sources (ecosystem capacity to provide a service), sinks (biophysical or anthropogenic features that deplete or alter service flows), users (user locations and level of demand), and spatial flows can provide a more complete understanding of ecosystem services. Through a case study in Puget Sound, Washington State, USA, we quantify and differentiate between the theoretical or in situ provision of services, i.e., ecosystems' capacity to supply services, and their actual provision when accounting for the location of beneficiaries and the spatial connections that mediate service flows between people and ecosystems. Our analysis includes five ecosystem services: carbon sequestration and storage, riverine flood regulation, sediment regulation for reservoirs, open space proximity, and scenic viewsheds. Each ecosystem service is characterized by different beneficiary groups and means of service flow. Using the ARtificial Intelligence for Ecosystem Services (ARIES) methodology we map service supply, demand, and flow, extending on simpler approaches used by past studies to map service provision and use. With the exception of the carbon sequestration service, regions that actually provided services to people, i.e., connected to beneficiaries via flow paths, amounted to 16-66% of those theoretically capable of supplying services, i.e., all ecosystems across the landscape. These results offer a more complete understanding of the spatial dynamics of ecosystem services and their effects, and may provide a sounder basis for economic valuation and policy applications than studies that consider only theoretical service provision and/or use.
The Authors David Batker, cofounder and executive director of Earth Economics, has worked for 20 years in over 30 countries changing economic policy to effect measurable physical improvements for people and ecosystems. His areas of work include climate change, fisheries, forest, coastal management, hazardous waste, land use, energy, agriculture, trade and international finance and improving lending requirements of international banks. With a B.S. in geology and biology from Pacific Lutheran University, he completed his graduate training in economics at Louisiana State University under Herman Daly, one of the world's foremost ecological economists. He has work experience in mining and oil and has worked at the World Bank, Greenpeace International and the Philippine Rural Reconstruction Movement.Isabel de la Torre, has worked as a reporter, newspaper editor, and environmentalist for 20 years. She has worked with local and national governments around the world, and NGOs working on international institutions on trade, finance, energy, forestry, fisheries, indigenous peoples, coastal management, and human rights issues. Isabel worked as the Executive Director of Industrial Shrimp Action Network (ISA) Net and the United States Society for Ecological Economics and Special Projects Director of Earth Economics before joining The Harder Foundation. She has a graduate degree in law and a bachelor's degree in communications, major in journalism, from the University of the Philippines.Robert Costanza, director of the Gund Institute for Ecological Economics at the University of Vermont. He will become University Director and Professor of Sustainability Center for Sustainable Processes and Practices at Portland State University. Dr. Costanza received BA and MA degrees in Architecture and a Ph.D. in Environmental Engineering Sciences (Systems Ecology with Economics minor) all from the University of Florida. He was on the faculty at LSU. He is founding editor in chief of Solutions, a new hybrid academic/popular journal. He is the author or co-author of over 400 scientific papers and 20 books. His work has been cited in more than 5000 scientific articles and he has been named as one of ISI's Highly Cited Researchers.Paula Swedeen, has 20 years of forest conservation and management experience as a wildlife biologist, policy analyst, and ecological economist, and has applied her expertise to a wide array of issues, including endangered species conservation, forest carbon protocol development and valuation of ecosystem services. She joined Pacific Forest Trust after working for the Washington Departments of Natural Resources and Fish and Wildlife, and as a private consultant. She holds a Ph.D. in Ecological Economics from The Union Institute, a master's degree in Political Science and Environmental Studies from Western Washington University and a Bachelor of Science degree in Biology from Indiana University.John Day, a distinguished professor of Louisiana State University and a leading expert on the Louisiana wetlands, received his ...
Humans are rapidly depleting critical ecosystems and the life support functions they provide, increasing the urgency of developing effective conservation tools. Using a case study of the conversion of mangrove ecosystems to shrimp aquaculture, this article describes an effort to develop a transdisciplinary, transinstitutional approach to conservation that simultaneously trains future generations of environmental problem solvers. We worked in close collaboration with academics, non-government organizations, local government and local communities to organize a workshop in Puerto Princesa, Palawan, Philippines. The primary objectives of the workshop were to: (1) train participants in the basic principles of ecological economics and its goals of sustainable scale, just distribution and efficient allocation; (2) learn from local community stakeholders and participating scientists about the problems surrounding conversion of mangrove ecosystems to shrimp aquaculture; (3) draw on the skills and knowledge of all participants to develop potential solutions to the problem; and (4) communicate results to those with the power and authority to act on them. We found that the economic and ecological benefits of intact mangroves outweigh the returns to aquaculture. Perversely, however, private property rights to mangrove ecosystems favor inefficient, unjust and unsustainable allocation of the resource-a tragedy of the non-commons. We presented the workshop results to the press and local government, which shut down the aquaculture ponds to conserve the threatened ecosystem. Effective communication to appropriate audiences was essential for transforming research into action. Our approach is promising and can be readily applied to conservation research and advocacy projects worldwide, but should be improved through adaptive management-practitioners must continually build on those elements that work and discard or improve those that fail.
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