Sub-optimal study design has major impacts on landscape-scale inference
Sub-optimal study design has major impacts on landscape-scale inference
Landscape-scale processes (e.g. habitat loss) are major drivers of the global biodiversity crisis, but the complexity and size of landscapes makes study design at this scale difficult. However, the impact of statistical problems associated with sub-optimal study design on inferences drawn from landscape-scale studies is poorly understood. Here, we examine how three common statistical ‘pitfalls’ associated with sub-optimal study design – (1) using landscapes that overlap in space; (2) using only a portion of the potential range of the landscape predictor variable(s) of interest; (3) failing to account for correlations among landscape predictor variables – affect the inferred relationships between the abundances of six species of anurans and the amount of forest in the landscape using a large (n = 1141) empirical dataset from Wisconsin and Michigan, USA. We show that sub-optimal study design alone can be sufficient to cause a switch in the sign of the inferred relationship between a species response and landscape structure, and that using only a portion of the potential range of a predictor variable, and correlations between predictor variables, are particularly likely to affect inferences. Our results also provide the first evidence of a non-monotonic relationship between forest amount and gray treefrog abundance, and suggest that inconsistencies in the literature about the inferred relationships between anuran presence/abundance and forest amount in the Great Lakes basin are likely largely due to sampling design issues. Increased attention to study design is therefore necessary for the development of robust generalizations in landscape ecology
landscape ecology, habitat fragmentation, biodiversity, amphibian decline, experimental design, habitat loss
298-305
Eigenbrod, Felix
43efc6ae-b129-45a2-8a34-e489b5f05827
Hecnar, Stephen J.
04b4dda1-a62d-4321-b768-fecc27d74a20
Fahrig, Lenore
0b5abbaa-cfb8-437a-bf31-be3d4ad721e0
January 2011
Eigenbrod, Felix
43efc6ae-b129-45a2-8a34-e489b5f05827
Hecnar, Stephen J.
04b4dda1-a62d-4321-b768-fecc27d74a20
Fahrig, Lenore
0b5abbaa-cfb8-437a-bf31-be3d4ad721e0
Eigenbrod, Felix, Hecnar, Stephen J. and Fahrig, Lenore
(2011)
Sub-optimal study design has major impacts on landscape-scale inference.
Biological Conservation, 144 (1), .
(doi:10.1016/j.biocon.2010.09.007).
Abstract
Landscape-scale processes (e.g. habitat loss) are major drivers of the global biodiversity crisis, but the complexity and size of landscapes makes study design at this scale difficult. However, the impact of statistical problems associated with sub-optimal study design on inferences drawn from landscape-scale studies is poorly understood. Here, we examine how three common statistical ‘pitfalls’ associated with sub-optimal study design – (1) using landscapes that overlap in space; (2) using only a portion of the potential range of the landscape predictor variable(s) of interest; (3) failing to account for correlations among landscape predictor variables – affect the inferred relationships between the abundances of six species of anurans and the amount of forest in the landscape using a large (n = 1141) empirical dataset from Wisconsin and Michigan, USA. We show that sub-optimal study design alone can be sufficient to cause a switch in the sign of the inferred relationship between a species response and landscape structure, and that using only a portion of the potential range of a predictor variable, and correlations between predictor variables, are particularly likely to affect inferences. Our results also provide the first evidence of a non-monotonic relationship between forest amount and gray treefrog abundance, and suggest that inconsistencies in the literature about the inferred relationships between anuran presence/abundance and forest amount in the Great Lakes basin are likely largely due to sampling design issues. Increased attention to study design is therefore necessary for the development of robust generalizations in landscape ecology
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Published date: January 2011
Keywords:
landscape ecology, habitat fragmentation, biodiversity, amphibian decline, experimental design, habitat loss
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Local EPrints ID: 181337
URI: http://eprints.soton.ac.uk/id/eprint/181337
ISSN: 0006-3207
PURE UUID: 5aa9612e-d754-4b27-aaa2-7575619e766d
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Date deposited: 18 Apr 2011 10:43
Last modified: 14 Mar 2024 02:56
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Author:
Stephen J. Hecnar
Author:
Lenore Fahrig
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