Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation

Riverine floodplains are among the most diverse and dynamic ecosystems, but river regulation measures have altered the natural hydrological regime threatening their ecological integrity. We compared spatial patterns of phyto- and zooplankton functional diversity and of environmental heterogeneity be...

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Publicado:	2019
Materias:	Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Banks (bodies of water) Ecosystems Environmental regulations Floods Forestry Hydrogeology Plankton Rivers Water levels Wetlands community structure conservation management environmental factor floodplain functional role heterogeneity phytoplankton river engineering species diversity wetland Article Austria Crustacea ecosystem restoration environmental parameters environmental protection habitat structure nonhuman plankton priority journal river ecosystem Rotifera surface water hydrology water flow zooplankton Danube River
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00489697_v667_n_p338_Chaparro http://hdl.handle.net/20.500.12110/paper_00489697_v667_n_p338_Chaparro
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_00489697_v667_n_p338_Chaparro
record_format	dspace
spelling	paper:paper_00489697_v667_n_p338_Chaparro2023-06-08T15:05:45Z Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Banks (bodies of water) Ecosystems Environmental regulations Floods Forestry Hydrogeology Plankton Rivers Water levels Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Wetlands community structure conservation management environmental factor floodplain functional role heterogeneity phytoplankton river engineering species diversity wetland Article Austria Crustacea ecosystem restoration environmental parameters environmental protection floodplain habitat structure nonhuman phytoplankton plankton priority journal river ecosystem Rotifera species diversity surface water hydrology water flow zooplankton Austria Danube River Rotifera Riverine floodplains are among the most diverse and dynamic ecosystems, but river regulation measures have altered the natural hydrological regime threatening their ecological integrity. We compared spatial patterns of phyto- and zooplankton functional diversity and of environmental heterogeneity between floodplain wetlands located in free-flowing and impounded stretches of the Danube River (Austria). We included two nested spatial scales (different habitats and water sections within wetland areas) and two contrasting hydrological conditions (post-flood, no flood). Environmental heterogeneity was lower in the wetland in the impounded stretch than in the free-flowing ones. At post-flood conditions, increased alpha diversity of rotifers and microcrustaceans and decreased beta diversity of phytoplankton and rotifers occurred in the impounded stretch as compared to the wetlands in free-flowing one. Beta diversity was higher between water sections than between habitats in free-flowing wetlands and similar across scales in the wetland in the impounded stretch. Regarding functional composition, the wetland in the impounded stretch hosted more homogeneous communities, as some ecological traits were nearly absent. Our results indicate that patterns of functional diversity in floodplain wetlands affected by river regulation are altered, highlighting the major role of the gradient of lateral connectivity and dynamic water level fluctuations as drivers for planktic diversity in river floodplains. This study contributes with essential knowledge to optimize restoration and diversity conservation measures in riverine ecosystems. © 2019 2019 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00489697_v667_n_p338_Chaparro http://hdl.handle.net/20.500.12110/paper_00489697_v667_n_p338_Chaparro
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Banks (bodies of water) Ecosystems Environmental regulations Floods Forestry Hydrogeology Plankton Rivers Water levels Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Wetlands community structure conservation management environmental factor floodplain functional role heterogeneity phytoplankton river engineering species diversity wetland Article Austria Crustacea ecosystem restoration environmental parameters environmental protection floodplain habitat structure nonhuman phytoplankton plankton priority journal river ecosystem Rotifera species diversity surface water hydrology water flow zooplankton Austria Danube River Rotifera
spellingShingle	Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Banks (bodies of water) Ecosystems Environmental regulations Floods Forestry Hydrogeology Plankton Rivers Water levels Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Wetlands community structure conservation management environmental factor floodplain functional role heterogeneity phytoplankton river engineering species diversity wetland Article Austria Crustacea ecosystem restoration environmental parameters environmental protection floodplain habitat structure nonhuman phytoplankton plankton priority journal river ecosystem Rotifera species diversity surface water hydrology water flow zooplankton Austria Danube River Rotifera Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation
topic_facet	Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Banks (bodies of water) Ecosystems Environmental regulations Floods Forestry Hydrogeology Plankton Rivers Water levels Diversity Environmental heterogeneity Floodplain wetlands River regulation Species traits Wetlands community structure conservation management environmental factor floodplain functional role heterogeneity phytoplankton river engineering species diversity wetland Article Austria Crustacea ecosystem restoration environmental parameters environmental protection floodplain habitat structure nonhuman phytoplankton plankton priority journal river ecosystem Rotifera species diversity surface water hydrology water flow zooplankton Austria Danube River Rotifera
description	Riverine floodplains are among the most diverse and dynamic ecosystems, but river regulation measures have altered the natural hydrological regime threatening their ecological integrity. We compared spatial patterns of phyto- and zooplankton functional diversity and of environmental heterogeneity between floodplain wetlands located in free-flowing and impounded stretches of the Danube River (Austria). We included two nested spatial scales (different habitats and water sections within wetland areas) and two contrasting hydrological conditions (post-flood, no flood). Environmental heterogeneity was lower in the wetland in the impounded stretch than in the free-flowing ones. At post-flood conditions, increased alpha diversity of rotifers and microcrustaceans and decreased beta diversity of phytoplankton and rotifers occurred in the impounded stretch as compared to the wetlands in free-flowing one. Beta diversity was higher between water sections than between habitats in free-flowing wetlands and similar across scales in the wetland in the impounded stretch. Regarding functional composition, the wetland in the impounded stretch hosted more homogeneous communities, as some ecological traits were nearly absent. Our results indicate that patterns of functional diversity in floodplain wetlands affected by river regulation are altered, highlighting the major role of the gradient of lateral connectivity and dynamic water level fluctuations as drivers for planktic diversity in river floodplains. This study contributes with essential knowledge to optimize restoration and diversity conservation measures in riverine ecosystems. © 2019
title	Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation
title_short	Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation
title_full	Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation
title_fullStr	Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation
title_full_unstemmed	Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation
title_sort	multi-scale analysis of functional plankton diversity in floodplain wetlands: effects of river regulation
publishDate	2019
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00489697_v667_n_p338_Chaparro http://hdl.handle.net/20.500.12110/paper_00489697_v667_n_p338_Chaparro
_version_	1768542355816710144

Multi-scale analysis of functional plankton diversity in floodplain wetlands: Effects of river regulation

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