Synergy between shading and herbivory triggers macrophyte loss and regime shifts in aquatic systems

Macrophytes play a keystone role in shallow aquatic ecosystems. In lakes, macrophytes stabilize clear-water conditions with high biodiversity and their decline can cause a shift to a turbid state with lower biodiversity. Various mechanisms have been suggested as triggers of macrophyte collapse. Herb...

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Veröffentlicht in:	Oikos 2016-10, Vol.125 (10), p.1489-1495
Hauptverfasser:	Hidding, Bert, Bakker, Elisabeth S., Hootsmans, Michiel J. M., Hilt, Sabine
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Sprache:	eng
Schlagworte:	Aquatic ecosystems Aquatic plants Biodiversity Eutrophication Growth models Herbivores
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creator	Hidding, Bert Bakker, Elisabeth S. Hootsmans, Michiel J. M. Hilt, Sabine
description	Macrophytes play a keystone role in shallow aquatic ecosystems. In lakes, macrophytes stabilize clear-water conditions with high biodiversity and their decline can cause a shift to a turbid state with lower biodiversity. Various mechanisms have been suggested as triggers of macrophyte collapse. Herbivory by waterfowl and fish seems to be one of the obvious factors, but the response of macrophytes to herbivory is ambiguous. We hypothesized that herbivory alone does not typically cause macrophyte collapse, but that shading from periphyton can enhance the effect of herbivores. Shading of macrophytes is supposed to increase with eutrophication due to changes in the top–down control cascading from fish via macroinvertebrates to periphyton. We elaborated on this idea by fitting a macrophyte growth model with different herbivore grazing and periphyton shading scenarios. In addition, we performed a meta-analysis on existing experimental herbivore exclosure studies with respect to periphyton growth. The model supported our proposed hypothesis and the reviewed field studies appeared to point in the same direction. We suggest that a significant herbivore impact may indicate a reduced resilience of vegetation to eutrophication, making it an early warning signal for an imminent macrophyte collapse leading to a sudden shift of the system to turbid conditions.
doi_str_mv	10.1111/oik.03104
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source	Jstor Complete Legacy; Wiley Online Library - AutoHoldings Journals
subjects	Aquatic ecosystems Aquatic plants Biodiversity Eutrophication Growth models Herbivores
title	Synergy between shading and herbivory triggers macrophyte loss and regime shifts in aquatic systems
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