Relevant Past CNH Grants: Difference between revisions

Fisheries

2011

Aligning Marine Management Institutions with Key Ecological and Economic Linkages in the Gulf of California, Mexico Heather Leslie, Brown University

Scientists will explore the interplay among key ecological, economic and institutional processes related to small-scale fisheries in Mexico's Gulf of California, looking at how interactions among these processes influence both ecological and economic outcomes.

Diversification, Portfolio Effects, and the Sustainability of Fishing Communities Daniel Schindler, University of Washington

Researchers will investigate how the biocomplexity of fisheries ecosystems translates into social and economic attributes in the human communities that exploit these ecosystems. The scientists will examine salmon ecosystems and the social and economic benefits to people who rely on salmon for their livelihoods in Western Alaska.

2010

Fishscape: Complex Dynamics of the Eastern Pacific Tuna Fishery D.G Webster, Dartmouth College

This project will identify the major sources of stability and instability that lead to wide variation across otherwise similar fisheries systems. The researchers will develop a geospatial model of the international fishery, focusing on tropical tunas in the eastern Pacific Ocean and linking oceanographic conditions, fish population dynamics, and fisher behavior.

2009

An integrated computational approach to three fisheries (James Wilson, University of Maine)

2007

Direct and Indirect Coupling of Fisheries Through Economic, Regulatory, Environmental, and Ecological Linkages ( Andrew Pershing , Guillermo Herrara, Lewis Incze, Gulf of Maine Research Institute) [Long Abstract and Publications http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=0709527]

Methodology

2011

People, Water, and Climate: Adaptation and Resilience in Agricultural Watersheds David Bennett, University of Iowa

Scientists will investigate how coupled natural and human systems respond to changes in climate, economics and policies that operate over large geographic and time scales. They will study the agriculturally-based Iowa and Cedar River watersheds and their sustainability, resilience and adaptability.

2010

Modeling the Dynamics of Harmful Algal Blooms, Human Communities, and Policy Choices Along the Florida Gulf Coast Porter Hoagland, Woods Hole Oceanographic Institution; Barbara Kirkpatick, Mote Marine Laboratory; Andrew Reich, Florida Department of Health Division of Information Technology; Laura Fleming, University of Miami Rosenthal School of Marine and Atmospheric Science

This project will examine the choices and effectiveness of policies for mitigating the economic and public health effects of blooms of the harmful alga, Karenia brevis, along the Gulf coast of Florida. The researchers will develop statistical models of biophysical and human system dynamics and relate these to demographic, environmental exposure-response, cost-minimization, and policy-simulation models.

Northern Gulf of Mexico Hypoxia and Land Use in the Mississippi River Watershed: Feedback and Scale Interactions Catherine Kling, Iowa State University; Robert Turner, Louisiana State University; Nancy Rabalais, Louisiana Universities Marine Consortium; Sergey Rabotyagov, University of Washington; Raghavan Srinivasan, Texas A&M University

This project will examine the natural and human dynamics of this enormous system by the interactions among human and natural system dynamics in the Mississippi River watershed and the annual formation of an oxygen-depleted (hypoxia) zone in the northern Gulf of Mexico. The researchers will develop a comprehensive modeling system that relates agricultural land-use decisions made at the field scale in the Upper Mississippi, Ohio, and Tennessee river basins; system-wide environmental and hydrologic components; and downstream water-quality effects, including the hypoxic zone in the Gulf of Mexico.

2009

Computational modeling in the socioecological sciences (Michael Barton, Arizona State University)