Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity

Tropical forests around the world, and particularly in Southeast Asia, are being affected by anthropogenic habitat conversion and degradation. Ants, an ecologically important group in the rainforest canopy, have previously been demonstrated to be robust to a single round of selective logging, but ar...

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Main Authors: Amelia J. Philip, Tom M. Fayle, Kalsum M. Yusah
Format: Article
Language:English
English
Published: 2018
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Online Access:https://eprints.ums.edu.my/id/eprint/25248/1/Selectively%20Logging%20Old%20Growth%20Rain%20Forest%20Twice%20Changes%20Canopy%20Ant%20Species%20Composition%2C%20While%20Conversion%20to%20Oil%20Palm%20Changes%20Composition%20and%20Reduces%20Species%20Richness%20and%20Diversity.pdf
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spelling my.ums.eprints.252482021-04-13T14:01:24Z https://eprints.ums.edu.my/id/eprint/25248/ Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity Amelia J. Philip Tom M. Fayle Kalsum M. Yusah SD Forestry SF Animal culture Tropical forests around the world, and particularly in Southeast Asia, are being affected by anthropogenic habitat conversion and degradation. Ants, an ecologically important group in the rainforest canopy, have previously been demonstrated to be robust to a single round of selective logging, but are strongly affected by conversion to oil palm. However, the impacts of multiple rounds of selective logging on canopy ants remain unexplored. We studied the ant assemblages across a habitat gradient comprising old growth forest, twice-logged forest and oil palm plantation in Sabah, Malaysian Borneo. Canopy ants were collected using insecticide fogging across 36 sampling sites. Old growth forest and twice-logged forest had similar species richness and Shannon species diversity. These two forest habitats were significantly higher in species richness and Shannon diversity than oil palm plantation. Abundance of canopy ants was similar across all three habitats. There was a significant difference in species composition between all pairs of habitats. Leaf litter depth on the ground was positively related to ant species richness, while canopy cover was positively related to ant abundance. Hence, multiple rounds of logging cause shifts in ant species composition, while forest conversion to oil palm additionally causes reductions in ant diversity. This is of concern, since forests in Sabah and elsewhere are becoming increasingly degraded. Our results indicate that both old growth and twice-logged rain forests can be useful for conservation of canopy ants. 2018 Article PeerReviewed text en https://eprints.ums.edu.my/id/eprint/25248/1/Selectively%20Logging%20Old%20Growth%20Rain%20Forest%20Twice%20Changes%20Canopy%20Ant%20Species%20Composition%2C%20While%20Conversion%20to%20Oil%20Palm%20Changes%20Composition%20and%20Reduces%20Species%20Richness%20and%20Diversity.pdf text en https://eprints.ums.edu.my/id/eprint/25248/7/Selectively%20Logging%20Old%20Growth%20Rain%20Forest%20Twice%20Changes%20Canopy%20Ant%20Species%20Composition%2C%20While%20Conversion%20to%20Oil%20Palm%20Changes%20Composition%20and%20Reduces%20Species%20Richness%20and%20Diversity1.pdf Amelia J. Philip and Tom M. Fayle and Kalsum M. Yusah (2018) Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity. Journal of Tropical Biology and Conservation, 15. pp. 139-154. ISSN 1823-3902
institution Universiti Malaysia Sabah
building UMS Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Sabah
content_source UMS Institutional Repository
url_provider http://eprints.ums.edu.my/
language English
English
topic SD Forestry
SF Animal culture
spellingShingle SD Forestry
SF Animal culture
Amelia J. Philip
Tom M. Fayle
Kalsum M. Yusah
Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity
description Tropical forests around the world, and particularly in Southeast Asia, are being affected by anthropogenic habitat conversion and degradation. Ants, an ecologically important group in the rainforest canopy, have previously been demonstrated to be robust to a single round of selective logging, but are strongly affected by conversion to oil palm. However, the impacts of multiple rounds of selective logging on canopy ants remain unexplored. We studied the ant assemblages across a habitat gradient comprising old growth forest, twice-logged forest and oil palm plantation in Sabah, Malaysian Borneo. Canopy ants were collected using insecticide fogging across 36 sampling sites. Old growth forest and twice-logged forest had similar species richness and Shannon species diversity. These two forest habitats were significantly higher in species richness and Shannon diversity than oil palm plantation. Abundance of canopy ants was similar across all three habitats. There was a significant difference in species composition between all pairs of habitats. Leaf litter depth on the ground was positively related to ant species richness, while canopy cover was positively related to ant abundance. Hence, multiple rounds of logging cause shifts in ant species composition, while forest conversion to oil palm additionally causes reductions in ant diversity. This is of concern, since forests in Sabah and elsewhere are becoming increasingly degraded. Our results indicate that both old growth and twice-logged rain forests can be useful for conservation of canopy ants.
format Article
author Amelia J. Philip
Tom M. Fayle
Kalsum M. Yusah
author_facet Amelia J. Philip
Tom M. Fayle
Kalsum M. Yusah
author_sort Amelia J. Philip
title Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity
title_short Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity
title_full Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity
title_fullStr Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity
title_full_unstemmed Selectively Logging Old Growth Rain Forest Twice Changes Canopy Ant Species Composition, While Conversion to Oil Palm Changes Composition and Reduces Species Richness and Diversity
title_sort selectively logging old growth rain forest twice changes canopy ant species composition, while conversion to oil palm changes composition and reduces species richness and diversity
publishDate 2018
url https://eprints.ums.edu.my/id/eprint/25248/1/Selectively%20Logging%20Old%20Growth%20Rain%20Forest%20Twice%20Changes%20Canopy%20Ant%20Species%20Composition%2C%20While%20Conversion%20to%20Oil%20Palm%20Changes%20Composition%20and%20Reduces%20Species%20Richness%20and%20Diversity.pdf
https://eprints.ums.edu.my/id/eprint/25248/7/Selectively%20Logging%20Old%20Growth%20Rain%20Forest%20Twice%20Changes%20Canopy%20Ant%20Species%20Composition%2C%20While%20Conversion%20to%20Oil%20Palm%20Changes%20Composition%20and%20Reduces%20Species%20Richness%20and%20Diversity1.pdf
https://eprints.ums.edu.my/id/eprint/25248/
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