Journal ArticleDOI
Estimating species richness: the importance of heterogeneity in species detectability
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TLDR
In this article, the authors used a capture-recapture approach to estimate species detectability with North American Breeding Bird Survey (BBS) data in order to gain insight about its importance.Abstract:
Estimating species richness (i.e., the actual number of species present in a given area) is a basic objective of many field studies carried out in community ecology and is also of crucial concern when dealing with the conservation and management of biodiversity. In most studies, the total number of species recorded in an area at a given time is taken as a measure of species richness. Here we use a capture–recapture approach to species richness estimation with North American Breeding Bird Survey (BBS) data in order to estimate species detectability and thus gain insight about its importance. In particular, competing models making different assumptions about species detectability are available. We carried out analyses on all survey routes of four states, Arizona, Maryland, North Dakota, and Wisconsin, in two years, 1970 and 1990. These states were chosen to provide contrasting habitats, bird species composition, and survey quality. We investigated the effect of state, year, and observer ability on the propo...read more
Citations
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Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness
TL;DR: A series of common pitfalls in quantifying and comparing taxon richness are surveyed, including category‐subcategory ratios (species-to-genus and species-toindividual ratios) and rarefaction methods, which allow for meaningful standardization and comparison of datasets.
Journal ArticleDOI
Model selection in ecology and evolution
TL;DR: The steps of model selection are outlined and several ways that it is now being implemented are highlighted, so that researchers in ecology and evolution will find a valuable alternative to traditional null hypothesis testing, especially when more than one hypothesis is plausible.
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The concepts of bias, precision and accuracy, and their use in testing the performance of species richness estimators, with a literature review of estimator performance
Bruno A. Walther,Joslin L. Moore +1 more
TL;DR: In a recent review as mentioned in this paper, the authors clarified the concepts of bias, precision and accuracy as they are commonly defined in the biostatistical literature, with a focus on the use of these concepts in quantitatively testing the performance of point estimators.
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Absent or undetected? Effects of non-detection of species occurrence on wildlife-habitat models
Weidong Gu,Robert K. Swihart +1 more
TL;DR: It is suggested that for many sampling situations, relationships between probability of detection and habitat covariates need to be established to correctly interpret results of wildlife–habitat models.
Journal ArticleDOI
Distribution of specialist and generalist species along spatial gradients of habitat disturbance and fragmentation
TL;DR: It is found that the more specialist a species, the more negative its spatial response to landscape fragmentation and disturbance, suggesting that measuring specialization may be helpful in predicting which species are likely to thrive in human degraded landscapes.
References
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Journal ArticleDOI
Estimating Terrestrial Biodiversity through Extrapolation
TL;DR: The importance of using 'reference' sites to assess the true richness and composition of species assemblages, to measure ecologically significant ratios between unrelated taxa, toMeasure taxon/sub-taxon (hierarchical) ratios, and to 'calibrate' standardized sampling methods is discussed.
Journal Article
Statistical inference from capture data on closed animal populations
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How many species are there on Earth
TL;DR: Current answers to the factual question posed in the title are surveyed and the kinds of information that are needed to make these answers more precise are reviewed.
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Capture-Recapture and Removal Methods for Sampling Closed Populations.
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Robust Estimation of Population Size When Capture Probabilities Vary Among Animals
Kenneth P. Burnham,W. S. Overton +1 more
TL;DR: A model is given for multiple recapture studies on closed populations which allows capture probabilities to vary among individuals and a nonparametric estimation procedure for population size is given that is robust to moderate variations in individual capture probabilities which may occur in commonly used short—term livetrapping studies.