Abstract
Predicting how environmental factors affect the distribution of species is a fundamental goal of conservation biology. Conservation biologists rely on species distribution and abundance models to identify key habitat characteristics for species. Occupancy modeling is frequently promoted as a practical alternative to use of abundance in identifying habitat quality. While occupancy and abundance are potentially governed by different limiting factors operating at different scales, few studies have directly compared predictive models for these approaches in the same system. We evaluated how much occupancy and abundance are driven by the same environmental factors for a species of conservation concern, the greater short‐horned lizard (Phrynosoma hernandesi). Occupancy was most strongly dictated by precipitation, temperature, and density of ant mounds. While these factors were also in the best‐supported predictive models for lizard abundance, the magnitude of the effects varied, with the sign of the effect changing for temperature and precipitation. These discrepancies show that while occupancy modeling can be an efficient approach for conservation planning, predictors of occupancy probability should not automatically be equated with predictors of population abundance. Understanding the differences in factors that control occupancy versus abundance can help us to identify habitat requirements and mitigate the loss of threatened species.
Highlights
Habitat degradation and loss are increasing the rate of global biodiversity declines, a trend that is expected to accelerate throughout the century (Butchart et al, 2010)
We studied the greater short-horned lizard in relatively undisturbed areas to address two general questions concerning the use of occupancy modeling to identify good predictors of local habitat quality: 1. Which habitat factors best predict horned lizard occupancy and which best predict abundance?
We found that the environmental factors that best predict site occupancy and abundance can differ substantially
Summary
Habitat degradation and loss are increasing the rate of global biodiversity declines, a trend that is expected to accelerate throughout the century (Butchart et al, 2010). Elusive, or sensitive species, the difficulty of gathering accurate abundance data makes occupancy models especially promising These advantages have led researchers to use occupancy model results—predictions of the probability of occupancy—to draw conclusions about presumed abundance patterns Direct comparisons of statistical approaches to quantify occupancy and abundance can indicate how reliable occupancy analyzes are for characterizing abundance patterns, but we currently have surprisingly few such tests (Royle & Nichols, 2003; Sileshi, 2007; Couturier, Cheylan, Bertolero, Astruc, & Besnard, 2013), and the focus has been on temporal variation (but see Fletcher, MacKenzie, & Villouta, 2005; Wilson & Schmidt, 2015) Understanding this relationship for rare or habitat-limited species could be especially valuable for conservation efforts across temporal and spatial scales. While we discuss the specific implications for greater horned lizards, we use the results to draw broader inferences about the use of occupancy and abundance data to predict species vulnerability to anthropogenic disturbances, and how to craft successful conservation management strategies
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