Donelle Schwalm scite author profile

Ecological niche theory holds that species distributions are shaped by a large and complex suite of interacting factors. Species distribution models (SDMs) are increasingly used to describe species' niches and predict the effects of future environmental change, including climate change. Currently, SDMs often fail to capture the complexity of species' niches, resulting in predictions that are generally limited to climate-occupancy interactions. Here, we explore the potential impact of climate change on the American pika using a replicated place-based approach that incorporates climate, gene flow, habitat configuration, and microhabitat complexity into SDMs. Using contemporary presence-absence data from occupancy surveys, genetic data to infer connectivity between habitat patches, and 21 environmental niche variables, we built separate SDMs for pika populations inhabiting eight US National Park Service units representing the habitat and climatic breadth of the species across the western United States. We then predicted occurrence probability under current (1981-2010) and three future time periods (out to 2100). Occurrence probabilities and the relative importance of predictor variables varied widely among study areas, revealing important local-scale differences in the realized niche of the American pika. This variation resulted in diverse and - in some cases - highly divergent future potential occupancy patterns for pikas, ranging from complete extirpation in some study areas to stable occupancy patterns in others. Habitat composition and connectivity, which are rarely incorporated in SDM projections, were influential in predicting pika occupancy in all study areas and frequently outranked climate variables. Our findings illustrate the importance of a place-based approach to species distribution modeling that includes fine-scale factors when assessing current and future climate impacts on species' distributions, especially when predictions are intended to manage and conserve species of concern within individual protected areas.

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Replicated landscape genetic and network analyses reveal wide variation in functional connectivity for American pikas

Castillo

Epps

Jeffress

et al. 2016

Ecological Applications

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Landscape connectivity is essential for maintaining viable populations, particularly for species restricted to fragmented habitats or naturally arrayed in metapopulations and facing rapid climate change. The importance of assessing both structural connectivity (physical distribution of favorable habitat patches) and functional connectivity (how species move among habitat patches) for managing such species is well understood. However, the degree to which functional connectivity for a species varies among landscapes, and the resulting implications for conservation, have rarely been assessed. We used a landscape genetics approach to evaluate resistance to gene flow and, thus, to determine how landscape and climate-related variables influence gene flow for American pikas (Ochotona princeps) in eight federally managed sites in the western United States. We used empirically derived, individual-based landscape resistance models in conjunction with predictive occupancy models to generate patch-based network models describing functional landscape connectivity. Metareplication across landscapes enabled identification of limiting factors for dispersal that would not otherwise have been apparent. Despite the cool microclimates characteristic of pika habitat, south-facing aspects consistently represented higher resistance to movement, supporting the previous hypothesis that exposure to relatively high temperatures may limit dispersal in American pikas. We found that other barriers to dispersal included areas with a high degree of topographic relief, such as cliffs and ravines, as well as streams and distances greater than 1-4 km depending on the site. Using the empirically derived network models of habitat patch connectivity, we identified habitat patches that were likely disproportionately important for maintaining functional connectivity, areas in which habitat appeared fragmented, and locations that could be targeted for management actions to improve functional connectivity. We concluded that climate change, besides influencing patch occupancy as predicted by other studies, may alter landscape resistance for pikas, thereby influencing functional connectivity through multiple pathways simultaneously. Spatial autocorrelation among genotypes varied across study sites and was largest where habitat was most dispersed, suggesting that dispersal distances increased with habitat fragmentation, up to a point. This study demonstrates how landscape features linked to climate can affect functional connectivity for species with naturally fragmented distributions, and reinforces the importance of replicating studies across landscapes.

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Publication rates of presentations given at annual conferences of The Wildlife Society, 1994–2006

et al. 2013

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Annual conferences of The Wildlife Society (TWS) are important venues to advance wildlife science research through the presentation of papers and posters. However, no longitudinal analysis has been conducted of publication rates of TWS conference presentations. We classified all conference presentations from 1994 to 2006 by publication status, publication outlet, lead author affiliation, and elapsed time between presentation and publication to analyze presentation and publication trends. Of the 6,279 presentations reviewed, 1,771 were published (28.2%), primarily in the Journal of Wildlife Management (22.9%) or the Wildlife Society Bulletin (15.2%). The average time between presentation and publication was 30.1 ± 0.6 months. Academics provided most of the presentations (52.6%), as well as publications (62.4%). We believe consideration of TWS annual conference presentation and publication metrics by TWS membership and conference organizers is warranted to ensure maximum stakeholder benefit. We discuss these implications of publication analysis and offer suggestions for increasing publication rates, if that becomes a goal of TWS. We encourage periodic investigation to quantify conference benefits and to better assess the efficacy of TWS conferences. © 2013 The Wildlife Society.

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Donelle Schwalm

Habitat availability and gene flow influence diverging local population trajectories under scenarios of climate change: a place‐based approach

Replicated landscape genetic and network analyses reveal wide variation in functional connectivity for American pikas

Publication rates of presentations given at annual conferences of The Wildlife Society, 1994–2006

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