Testing common habitat-based surrogates of invertebrate diversity in a semi-arid rangeland

Habitat-based surrogates are a low cost alternative to intensive biodiversity surveys, though they have been poorly investigated in semi-arid ecosystem compared to others such as temperate woodlands. In this study we tested potential habitat-based surrogates of invertebrate richness in a semi-arid r...

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Bibliographic Details
Published in:Biodiversity and conservation 2009-05, Vol.18 (5), p.1147-1159
Main Authors: Gollan, John R, Ashcroft, Michael B, Cassis, Gerasimos, Donnelly, Andrew P, Lassau, Scott A
Format: Article
Language:English
Subjects:
Abundance
Arid environments
Biodiversity
Biological diversity
Biomedical and Life Sciences
Climate Change/Climate Change Impacts
Conservation
Conservation Biology/Ecology
Ecology
Environmental factors
Environmental gradient
Grazing
Habitat
Habitats
Hardness
Invertebrata
Invertebrates
Life Sciences
Original Paper
Rangelands
Semiarid environments
Soil
Soil hardness
Species composition
Species richness
Taxa
Woodlands
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Summary:Habitat-based surrogates are a low cost alternative to intensive biodiversity surveys, though they have been poorly investigated in semi-arid ecosystem compared to others such as temperate woodlands. In this study we tested potential habitat-based surrogates of invertebrate richness in a semi-arid rangeland in northwest Australia. Potential surrogates were: distance from artificial watering-point; soil hardness; habitat complexity; and individual complexity components. Generalised additive models (GAMs) were used to relate abundance and richness of selected invertebrates with environmental factors and cluster analysis was used to examine similarity in species composition. The most frequently selected factor was soil hardness, but taxa varied as to whether biodiversity was higher in soft or hard soils. Where distance from watering-point was an important predictor, there were generally higher abundances and richness closer to watering-points than further away. Abundance and species richness could be partially explained using individual complexity components, but relationships were weak and there were no consistent trends among taxa. Therefore, although habitat complexity has been correlated with species richness under some circumstances, our results cast doubt on the generality of this relationship. There are also dangers in assuming that all taxa respond in a manner similar to indicator taxa, as we observed that different taxa had higher richness at opposite extremes of some environmental gradients. Grazing may have a negative impact on biodiversity in some environments, but in regions where water is limiting, the net effect may be positive due to the creation of waterholes.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-008-9504-3