Lake Restoration in Terms of Ecological Resilience: a Numerical Study of Biomanipulations under Bistable Conditions

Lake Restoration in Terms of Ecological Resilience: a Numerical Study of Biomanipulations under Bistable Conditions

An abstract version of the comprehensive aquatic simulation model (CASM) is found to exhibit bistability under intermediate loading of nutrient input, supporting the alternative-stable-states theory and field observations for shallow lakes. Our simulations of biomanipulations under the bistable cond...

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Bibliographic Details
Main Authors: Takashi Amemiya, Takatoshi Enomoto, A. G. Rossberg, Noriko Takamura, Kiminori Itoh
Format: Article
Language:English
Published: Resilience Alliance 2005-12-01
Series:Ecology and Society
Subjects:
alternative stable state
biomanipulation
bistable
comprehensive aquatic simulation model (CASM)
resilience
Online Access:http://www.ecologyandsociety.org/vol10/iss2/art3/
Description
Summary:An abstract version of the comprehensive aquatic simulation model (CASM) is found to exhibit bistability under intermediate loading of nutrient input, supporting the alternative-stable-states theory and field observations for shallow lakes. Our simulations of biomanipulations under the bistable conditions reveal that a reduction in the abundance of zooplanktivorous fish cannot switch the system from a turbid to a clear state. Rather, a direct reduction of phytoplankton and detritus was found to be most effective to make this switch in the present model. These results imply that multiple manipulations may be effective for practical restorations of lakes. We discuss the present results of biomanipulations in terms of ecological resilience in multivariable systems or natural systems.
ISSN:1708-3087

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