Using latent selection difference to model persistence in a declining population.

Mara E Erickson,Mark S Boyce,Christine Found-Jackson,David L Roberts

doi:10.1371/journal.pone.0098126

Mara E Erickson, Mark S Boyce + Show 2 more

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https://doi.org/10.1371/journal.pone.0098126

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Abstract

Population persistence is a direct measure of the viability of a population. Monitoring the distribution of declining populations or subpopulations over time can yield estimates of persistence, which we show can be modeled as a latent selection difference (LSD) contrasting attributes of sites where populations have persisted versus those that have not. Predicted persistence can be modeled with predictor covariates to identify factors correlated with species persistence. We demonstrate how to model persistence based on changes in occupancy that can include adjustments for detection probability. Using a known historical distribution of the western grebe (Aechmophorus occidentalis), we adapted methods originally developed for occupancy modeling to evaluate how environmental covariates including emergent vegetation and human developments have affected western grebe persistence in Alberta. The relative probability of persistence was correlated with the extent of shoreline bulrush (Scirpus lacustris), which is important vegetation for nesting cover. We also documented that western grebe populations were less likely to persist on lakes in the boreal forest, primarily located on the northern boundary of the species' range. Factors influencing occupancy were different than those determining persistence by western grebes; persistence and occupancy were not correlated. Persistence was more likely on lakes with recreational development, reflecting reliance by grebes on the larger, fish-bearing waterbodies that also are attractive for lakeshore development. Unfortunately, the correlation with recreational development on Alberta's lakes puts grebes at risk for loss of brood-rearing habitats—primary threats to altricial birds—if steps are not taken to prevent disturbance to bulrush stands. Identifying factors related to the persistence of a species—especially one in decline—is a fundamental step in conservation management.

Highlights

The distribution of threatened vertebrates can be affected by various threats that influence persistence of populations [1]
For a population declining in distribution and abundance, the current distribution is a sub-set of the species’ original distribution of once-occupied sites, and locations can be classified as currently occupied versus those where populations have been extirpated
From a sample of lakes where western grebes were known to occur in the past 40 years, we modeled population persistence using the latent selection difference (LSD) to identify differences in attributes between those lakes where the western grebe persisted and lakes where the species has disappeared

Summary

Introduction

The distribution of threatened vertebrates can be affected by various threats that influence persistence of populations [1]. Likewise, identifying attributes of habitats where a species has persisted relative to habitats where it has disappeared should help to identify extinction threats for a species in decline. Documenting such spatial patterns of population persistence can be central to the development of effective conservation programs. Persistence has been defined as the constancy of a species’ presence at a site over time [2]. For a population declining in distribution and abundance, the current distribution is a sub-set of the species’ original distribution of once-occupied sites, and locations can be classified as currently occupied versus those where populations have been extirpated

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