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New project on the impacts of floods and droughts on aquatic macrophytes, forests, and fisheries of central Amazonian river floodplains

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NEW PROJECT: About 20% of the Amazon basin is seasonally inundated, and these wetlands are sites of intense biological activity with highly productive macrophytes, forests, and fisheries. Floodplains and river channels—maintained by seasonal inundation—promote nutrient cycling and high biological production, and support diverse biological communities as well as human populations with one of the highest per capita rates of fish consumption.  However, the hydrology of Amazon river-floodplains is increasingly being impacted by extreme climatic events and land use changes in the uplands. The extreme droughts of 2005 and 2010 and the extreme flood of 2009 provide an excellent opportunity to understand the feedbacks of such extreme events on seasonal inundation and, ultimately, on the future productivity of floodplain ecosystems and associated ecosystem services.

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We have assembled an interdisciplinary team of qualified scientists from Virginia Polytechnic Institute and State University, the Woods Hole Research Center, and University of California Santa Barbara.  The team has developed a varied research approach based on suitably sophisticated remote sensing, ground observation, statistical modeling, and numerical simulation methods.  The project is funded by the National Aeronautics and Space Administration (NASA).

This proposal aims to:

(1) Explore the consequences of droughts and floods for the integrity of river-floodplain ecosystems.
(2) Quantify the relationship between inter-annual inundation variability and the productivity of fisheries and floodplain vegetation.
(3) Model the effect of extreme climatic events on inundation dynamics under historic and alternative future scenarios.

 

dams map

Impacts of dams on the integrity of Amazonian ecosystems

dams mapNEW PROJECT: Freshwater ecosystems in the Amazon are among the most biological diverse and productive in the world.  Current infrastructure development (e.g., hydroelectric dams) is altering the structure and function of these ecosystems. However, detailed ecological assessments of the impacts created by such dams on the integrity of these freshwater ecosystems are lacking.  With funding from WWF-Brasil, the project will assess the potential impacts of hydroelectric dams on the lateral and longitudinal connectivity of Amazon freshwater ecosystems.  Participants include Marcia N. Macedo (Woods Hole Research Center).

OLYMPUS DIGITAL CAMERA

Muskellunge population dynamics in the New River

OLYMPUS DIGITAL CAMERA

NEW PROJECT: A project in the New River of Virginia to reassess the potential of muskellunge (Esox masquiongy) to impact the smallmouth bass (Micropterus dolomieu) population through predation.  With funding from the Virginia Department of Game and Inland Fisheries, the project will assess current population dynamics and life history of muskellunge, and model musky growth dynamics and effects of musky predation on smallmouth bass.  Participants include Brian Murphy (Virginia Tech).