NSF Award Abstract - #0083545 | AWSFL008-DS3 |
NSF Org | DEB |
Latest Amendment Date | April 28, 2004 |
Award Number | 0083545 |
Award Instrument | Standard Grant |
Program Manager |
Robert Kelman Wieder DEB DIVISION OF ENVIRONMENTAL BIOLOGY BIO DIRECT FOR BIOLOGICAL SCIENCES |
Start Date | October 1, 2000 |
Expires | September 30, 2005 (Estimated) |
Expected Total Amount | $2998607 (Estimated) |
Investigator |
Stephen R. Carpenter srcarpen@facstaff.wisc.edu (Principal Investigator current) Anthony R. Ives (Co-Principal Investigator current) Monica G. Turner (Co-Principal Investigator current) Timothy K. Kratz (Co-Principal Investigator current) William A. Brock (Co-Principal Investigator current) |
Sponsor |
U of Wisconsin Madison 750 University Ave Madison, WI 537061490 608/262-3822 |
NSF Program | 1366 BIOCOMPLEXITY |
Field Application |
0510602 Ecosystem Dynamics 0208000 Water Resources |
Program Reference Code | 1366,9169,9189,EGCH, |
Abstract00-83545 Carpenter
Biocomplexity: Divergent dynamics: Complex interactions of riparian land, people and lakes
Surprises -large, unexpected changes from apparently small causes -are common in systems of people and nature. Are these surprises a consequence of the complexity or nonlinearity of natural-social systems? Or can they be explained by simpler processes? This research project addresses this question for systems composed of lakes, their riparian vegetation and land use, and social and economic organizations of lake users. The investigators will study the self-organization of lake users and associated characteristics of shoreline and lake ecosystems. The project will determine whether thresholds in riparian organization set the stage for an important class of surprises: collapses of economically important game fish stocks. The researchers will also test the possibility that nonlinear dynamics can be used to design manipulations that remove invading crayfish from a lake. If successful, this experiment will catalyze a self-sustaining removal of an invasive species - a path-breaking ecological restoration.