Changes in community composition of riverine mussels after a severe drought depend on local conditions: a comparative study in four tributaries of a subtropical river

The frequency and intensity of droughts are predicted to increase over the next few decades and understanding the impacts of drought on mussels is imperative for species conservation. Our objective was to examine the impacts of an exceptional drought in 2011 on mussel communities in four tributaries...

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Veröffentlicht in:	Hydrobiologia 2021-07, Vol.848 (12-13), p.3015-3029
Hauptverfasser:	Mitchell, Zachary A., Burlakova, Lyubov E., Karatayev, Alexander Y., Schwalb, Astrid N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Biomedical and Life Sciences Communities Community composition Comparative analysis Comparative studies Composition Dominant species Drought Droughts Ecology Environmental conditions Environmental impact Freshwater & Marine Ecology Freshwater Molluscs Imagery Life history Life Sciences Mollusks Mussels Population decline Remote sensing River basins Rivers Satellite imagery Spaceborne remote sensing Species richness Surveys Tributaries Water discharge Water shortages Water temperature Weather forecasting Wildlife conservation Zoology
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container_end_page	3029
container_issue	12-13
container_start_page	3015
container_title	Hydrobiologia
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creator	Mitchell, Zachary A. Burlakova, Lyubov E. Karatayev, Alexander Y. Schwalb, Astrid N.
description	The frequency and intensity of droughts are predicted to increase over the next few decades and understanding the impacts of drought on mussels is imperative for species conservation. Our objective was to examine the impacts of an exceptional drought in 2011 on mussel communities in four tributaries of the Colorado River basin in central Texas by testing hypotheses that post-drought community composition depends on (1) relative abundances pre-drought, (2) life history strategy of the mussels, (3) ability of sites to retain water, (4) changes in temperature and discharge. Surveys were conducted pre- (2005–2011) and post-drought (2017) and environmental conditions during the drought were examined using discharge data, satellite imagery, and water temperature estimations. No mussels were found at 9 out of 30 sites where mussel populations were present pre-drought. The most abundant species pre-drought tended to be the most abundant species post-drought and no significant difference between life history strategies was found. No clear effect of the ability of a site to retain water was detected, but the largest declines in species richness occurred in the tributaries with the lowest mean discharge and highest water temperatures, suggesting that mussels may be especially at risk in rivers with lower discharge.
doi_str_mv	10.1007/s10750-019-04058-3
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Our objective was to examine the impacts of an exceptional drought in 2011 on mussel communities in four tributaries of the Colorado River basin in central Texas by testing hypotheses that post-drought community composition depends on (1) relative abundances pre-drought, (2) life history strategy of the mussels, (3) ability of sites to retain water, (4) changes in temperature and discharge. Surveys were conducted pre- (2005–2011) and post-drought (2017) and environmental conditions during the drought were examined using discharge data, satellite imagery, and water temperature estimations. No mussels were found at 9 out of 30 sites where mussel populations were present pre-drought. The most abundant species pre-drought tended to be the most abundant species post-drought and no significant difference between life history strategies was found. 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subjects	Biomedical and Life Sciences Communities Community composition Comparative analysis Comparative studies Composition Dominant species Drought Droughts Ecology Environmental conditions Environmental impact Freshwater & Marine Ecology Freshwater Molluscs Imagery Life history Life Sciences Mollusks Mussels Population decline Remote sensing River basins Rivers Satellite imagery Spaceborne remote sensing Species richness Surveys Tributaries Water discharge Water shortages Water temperature Weather forecasting Wildlife conservation Zoology
title	Changes in community composition of riverine mussels after a severe drought depend on local conditions: a comparative study in four tributaries of a subtropical river
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