Sand quarry wetlands provide high-quality habitat for native amphibians
Anthropogenic disturbances to habitats influence the fitness of individual animals, the abundance of their populations, and the composition of their communities. Wetlands in particular are frequently degraded and destroyed, impacting the animals that inhabit these important ecosystems. The creat...
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Copernicus Publications
2017-05-01
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| Series: | Web Ecology |
| Online Access: | http://www.web-ecol.net/17/19/2017/we-17-19-2017.pdf |
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doaj-631925d3a8674ee18c675f703d830d392020-11-25T03:31:49ZengCopernicus PublicationsWeb Ecology2193-30811399-11832017-05-0117192710.5194/we-17-19-2017Sand quarry wetlands provide high-quality habitat for native amphibiansM. Sievers0M. Sievers1School of BioSciences, University of Melbourne, Parkville, Victoria, 3010, AustraliaSchool of Ecosystem and Forest Sciences, University of Melbourne, Parkville, Victoria, 3010, AustraliaAnthropogenic disturbances to habitats influence the fitness of individual animals, the abundance of their populations, and the composition of their communities. Wetlands in particular are frequently degraded and destroyed, impacting the animals that inhabit these important ecosystems. The creation of wetlands during and following sand extraction processes is inevitable, and thus, sand quarries have the potential to support aquatic animals. To determine how amphibians utilise these wetlands, I conducted nocturnal call surveys at wetlands within the Kables Sands quarry, New South Wales, Australia, and within surrounding reference wetlands, and quantified levels of developmental instability (DI) as a proxy for fitness. Whilst quarry and reference wetlands were largely similar in terms of environmental characteristics, quarry wetlands consistently harboured more amphibian species and individuals. Using unsigned asymmetry as a measure of DI, frogs from the quarry sites exhibited significantly lower levels of DI compared to reference wetlands, indicating that quarry wetlands may be comparatively higher quality. Levels of DI within quarry wetlands also compared favourably to data from healthy frog populations extracted from the literature. Further enhancing the suitability of quarry wetlands would require minimal effort, with potentially significant increases in local and regional biodiversity. Documenting species presence and quantifying individual fitness by measuring limb lengths is an economically and logistically feasible method to assess the health of quarry wetlands. Overall, the methods outlined here provide a powerful, yet simple, tool to assess the overall health and suitability of quarry wetlands that could be easily adopted at quarries throughout the world.http://www.web-ecol.net/17/19/2017/we-17-19-2017.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
M. Sievers M. Sievers |
| spellingShingle |
M. Sievers M. Sievers Sand quarry wetlands provide high-quality habitat for native amphibians Web Ecology |
| author_facet |
M. Sievers M. Sievers |
| author_sort |
M. Sievers |
| title |
Sand quarry wetlands provide high-quality habitat for native amphibians |
| title_short |
Sand quarry wetlands provide high-quality habitat for native amphibians |
| title_full |
Sand quarry wetlands provide high-quality habitat for native amphibians |
| title_fullStr |
Sand quarry wetlands provide high-quality habitat for native amphibians |
| title_full_unstemmed |
Sand quarry wetlands provide high-quality habitat for native amphibians |
| title_sort |
sand quarry wetlands provide high-quality habitat for native amphibians |
| publisher |
Copernicus Publications |
| series |
Web Ecology |
| issn |
2193-3081 1399-1183 |
| publishDate |
2017-05-01 |
| description |
Anthropogenic disturbances to habitats influence the fitness of
individual animals, the abundance of their populations, and the composition
of their communities. Wetlands in particular are frequently degraded and
destroyed, impacting the animals that inhabit these important ecosystems. The
creation of wetlands during and following sand extraction processes is
inevitable, and thus, sand quarries have the potential to support aquatic
animals. To determine how amphibians utilise these wetlands, I conducted
nocturnal call surveys at wetlands within the Kables Sands quarry, New South
Wales, Australia, and within surrounding reference wetlands, and quantified
levels of developmental instability (DI) as a proxy for fitness. Whilst
quarry and reference wetlands were largely similar in terms of environmental
characteristics, quarry wetlands consistently harboured more amphibian
species and individuals. Using unsigned asymmetry as a measure of DI, frogs
from the quarry sites exhibited significantly lower levels of DI compared to
reference wetlands, indicating that quarry wetlands may be comparatively
higher quality. Levels of DI within quarry wetlands also compared favourably
to data from healthy frog populations extracted from the literature. Further
enhancing the suitability of quarry wetlands would require minimal effort,
with potentially significant increases in local and regional biodiversity.
Documenting species presence and quantifying individual fitness by measuring
limb lengths is an economically and logistically feasible method to assess
the health of quarry wetlands. Overall, the methods outlined here provide a
powerful, yet simple, tool to assess the overall health and suitability of
quarry wetlands that could be easily adopted at quarries throughout the
world. |
| url |
http://www.web-ecol.net/17/19/2017/we-17-19-2017.pdf |
| work_keys_str_mv |
AT msievers sandquarrywetlandsprovidehighqualityhabitatfornativeamphibians AT msievers sandquarrywetlandsprovidehighqualityhabitatfornativeamphibians |
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