The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.

The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.

In the wet-dry tropics, animal species face the major challenges of acquiring food, water or shelter during an extended dry season. Although large and conspicuous animals such as ungulates and waterfowl migrate to wetter areas during this time, little is known of how smaller and more cryptic animal...

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Main Authors: J Sean Doody, Simon Clulow, Geoff Kay, Domenic D'Amore, David Rhind, Steve Wilson, Ryan Ellis, Christina Castellano, Colin McHenry, Michelle Quayle, Kim Hands, Graeme Sawyer, Michael Bass
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4489734?pdf=render
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spelling doaj-c847bdbda7b44027a7665ec87f23bcf82020-11-24T21:52:11ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01107e013118610.1371/journal.pone.0131186The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.J Sean DoodySimon ClulowGeoff KayDomenic D'AmoreDavid RhindSteve WilsonRyan EllisChristina CastellanoColin McHenryMichelle QuayleKim HandsGraeme SawyerMichael BassIn the wet-dry tropics, animal species face the major challenges of acquiring food, water or shelter during an extended dry season. Although large and conspicuous animals such as ungulates and waterfowl migrate to wetter areas during this time, little is known of how smaller and more cryptic animal species with less mobility meet these challenges. We fenced off the entire entrance of a gorge in the Australian tropical savanna, offering the unique opportunity to determine the composition and seasonal movement patterns of the small vertebrate community. The 1.7 km-long fence was converted to a trapline that was deployed for 18-21 days during the early dry season in each of two years, and paired traps on both sides of the fence allowed us to detect the direction of animal movements. We predicted that semi-aquatic species (e.g., frogs and turtles) would move upstream into the wetter gorge during the dry season, while more terrestrial species (e.g., lizards, snakes, mammals) would not. The trapline captured 1590 individual vertebrates comprising 60 species. There was a significant bias for captures on the outside of the fence compared to the inside for all species combined (outside/inside = 5.2, CI = 3.7-7.2), for all vertebrate classes, and for specific taxonomic groups. The opposite bias (inside/outside = 7.3, N= 25) for turtles during the early wet season suggested return migration heading into the wet season. Our study revealed that the small vertebrate community uses the gorge as a dry season refuge. The generality of this unreplicated finding could be tested by extending this type of survey to tropical savannahs worldwide. A better understanding of how small animals use the landscape is needed to reveal the size of buffer zones around wetlands required to protect both semi-aquatic and terrestrial fauna in gorges in tropical savannah woodland, and thus in ecosystems in general.http://europepmc.org/articles/PMC4489734?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author J Sean Doody
Simon Clulow
Geoff Kay
Domenic D'Amore
David Rhind
Steve Wilson
Ryan Ellis
Christina Castellano
Colin McHenry
Michelle Quayle
Kim Hands
Graeme Sawyer
Michael Bass
spellingShingle J Sean Doody
Simon Clulow
Geoff Kay
Domenic D'Amore
David Rhind
Steve Wilson
Ryan Ellis
Christina Castellano
Colin McHenry
Michelle Quayle
Kim Hands
Graeme Sawyer
Michael Bass
The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.
PLoS ONE
author_facet J Sean Doody
Simon Clulow
Geoff Kay
Domenic D'Amore
David Rhind
Steve Wilson
Ryan Ellis
Christina Castellano
Colin McHenry
Michelle Quayle
Kim Hands
Graeme Sawyer
Michael Bass
author_sort J Sean Doody
title The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.
title_short The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.
title_full The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.
title_fullStr The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.
title_full_unstemmed The Dry Season Shuffle: Gorges Provide Refugia for Animal Communities in Tropical Savannah Ecosystems.
title_sort dry season shuffle: gorges provide refugia for animal communities in tropical savannah ecosystems.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description In the wet-dry tropics, animal species face the major challenges of acquiring food, water or shelter during an extended dry season. Although large and conspicuous animals such as ungulates and waterfowl migrate to wetter areas during this time, little is known of how smaller and more cryptic animal species with less mobility meet these challenges. We fenced off the entire entrance of a gorge in the Australian tropical savanna, offering the unique opportunity to determine the composition and seasonal movement patterns of the small vertebrate community. The 1.7 km-long fence was converted to a trapline that was deployed for 18-21 days during the early dry season in each of two years, and paired traps on both sides of the fence allowed us to detect the direction of animal movements. We predicted that semi-aquatic species (e.g., frogs and turtles) would move upstream into the wetter gorge during the dry season, while more terrestrial species (e.g., lizards, snakes, mammals) would not. The trapline captured 1590 individual vertebrates comprising 60 species. There was a significant bias for captures on the outside of the fence compared to the inside for all species combined (outside/inside = 5.2, CI = 3.7-7.2), for all vertebrate classes, and for specific taxonomic groups. The opposite bias (inside/outside = 7.3, N= 25) for turtles during the early wet season suggested return migration heading into the wet season. Our study revealed that the small vertebrate community uses the gorge as a dry season refuge. The generality of this unreplicated finding could be tested by extending this type of survey to tropical savannahs worldwide. A better understanding of how small animals use the landscape is needed to reveal the size of buffer zones around wetlands required to protect both semi-aquatic and terrestrial fauna in gorges in tropical savannah woodland, and thus in ecosystems in general.
url http://europepmc.org/articles/PMC4489734?pdf=render
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