Testing climate-based species distribution models with recent field surveys of pond-breeding amphibians in eastern Missouri

Trumbo, Daryl R.; Burgett, Amber A.; Knouft, Jason H.

doi:10.1139/z11-083

Cited by 8 publications

(12 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Our results add to the body of evidence on the relevance of ecological niche models for predicting local and regional occurrence of species within their native ranges (Trumbo et al 2011;Peterman et al 2013), and in novel environments (Gormley et al 2011;Vaclavik and Meentemeyer 2012). While climate alone may oversimplify the spatial extent of invasions, ecological niche models for patchily-distributed generalist species are a reliable alternative to using data intensive methods that require substantial resources and foresight.…”

Section: Discussionmentioning

confidence: 58%

“…4), the rank correlation between the two predictions is informative. Focusing on an area in eastern Missouri, Trumbo et al (2011) evaluated the accuracy of ecological niche models compared to estimates from single detection/ non-detection surveys for nine amphibian species, and found that six of nine species (including L. clamitans) had high congruence, while three species showed a weak or no congruence (including L. catesbeianus). These results were apparent in the spatial predictions of invasion extent, where ecological niche models based on data from both the native and invaded range overestimated suitability for L. catesbeianus at our occupancy survey sites (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…L. catesbeianus and L. clamitans are native to eastern North America, and despite high range overlap (Werner et al 1995), they are thought to have only partiallyoverlapping distributions along a freshwater habitat gradient (Collins and Wilbur 1979;Wellborn et al 1996). In contrast, L. clamitans are a more generalist wetland species, occupying a variety of habitats across the hydroperiod continuum (Wellborn et al 1996;Van Buskirk 2003), and their occurrence is primarily limited by climatic factors, such as mean annual temperature and annual precipitation (Trumbo et al 2011). In contrast, L. clamitans are a more generalist wetland species, occupying a variety of habitats across the hydroperiod continuum (Wellborn et al 1996;Van Buskirk 2003), and their occurrence is primarily limited by climatic factors, such as mean annual temperature and annual precipitation (Trumbo et al 2011).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Relative performance of ecological niche and occupancy models for predicting invasions by patchily-distributed species

et al. 2015

View full text Add to dashboard Cite

Ecological niche models (ENM) have been used with mixed success for predicting the geographic extent of non-native species to aid management and conservation. This approach is problematic for predicting invasions of patchily-distributed species (e.g., pond-breeding amphibians), whose occurrence is often determined by local habitat conditions. Here, we tested the performance of bioclimatic ENM for predicting occurrence (from repeated surveys) of two non-native pond-breeding anurans at 71 wetlands in British Columbia, Canada: permanent pond specialist American bullfrog (Lithobates catesbeianus), and generalist green frog (Lithobates clamitans). For L. catesbeianus, we assessed the risk of invasion beyond the invasion front. We found higher correlation between ENM and occupancy predictions for L. clamitans (r s = 0.58), than for L. catesbeianus (r s = -0.26). L. clamitans occurrence was highest at low elevations and high annual precipitation; in contrast, L. catesbeianus occupancy was predicted by wetland connectivity and distance from a historic introduction site [low at isolated ponds [50 km from the introduction site, and high ([0.8) at all ponds with [10 % water within 500 m]. Conditional on successful dispersal, four sites beyond the L. catesbeianus invasion front surveyed in this study were at high risk of invasion due to high habitat suitability (proportion of area occupied = 0.33; 0.04-0.83, 95 % CI). In conclusion, ENMs may be useful for informing invasion management for climate driven wetland species, but repeated sampling is necessary to predict invasions for habitat-driven wetland species.

show abstract

Section: Discussionmentioning

confidence: 58%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Relative performance of ecological niche and occupancy models for predicting invasions by patchily-distributed species

et al. 2015

View full text Add to dashboard Cite

show abstract

“…Under this promising scenario, we highlight some topics relating anuran physiological ecology to climate that remain understudied and that can contribute to amphibian conservation. Phenology and dormancy: Amphibians usually link reproduction to environmental cues, and therefore may have their phenology impacted by climate change (Beebee 1995, Blaustein et al 2001, Trumbo et al 2011). Indeed, a recent review lists phenological shifts among several key nonacute lethal impacts of climate change on amphibians (Li et al 2013).…”

Section: Amphibian Physiological Ecology In the Context Of Climate Chmentioning

confidence: 99%

Assessing the physiological sensitivity of amphibians to extreme environmental change using the stress endocrine responses

Navas¹,

Gomes²,

Domenico³

2017

Amphibian and Reptile Adaptations to the Environment

View full text Add to dashboard Cite

“…Amphibians, being ectothermic, are also sensitive to extreme overwinter climatic conditions (Tattersall and Ultsch 2008). For example, populations of the Columbia spotted frog are expected to enjoy increased viability due to improved survivorship and reproduction associated with milder winters brought by climate change (McCaffery and Maxell 2010), and yet occupancy predictions from species distribution models are unreliable at spatial scales relevant for amphibian conservation (Trumbo et al 2011). Development of detailed, mechanistic models like that developed here to help understand constraints on amphibian range expansion may help predict distribution changes for these species, which are some of the most vulnerable to climate change (Lawler et al 2009).…”

Section: Applicationsmentioning

confidence: 99%

How climate extremes—not means—define a species' geographic range boundary via a demographic tipping point

Lynch

Rhainds

Calabrese

et al. 2014

Ecological Monographs

View full text Add to dashboard Cite

Abstract. Species' geographic range limits interest biologists and resource managers alike; however, scientists lack strong mechanistic understanding of the factors that set geographic range limits in the field, especially for animals. There exists a clear need for detailed case studies that link mechanisms to spatial dynamics and boundaries because such mechanisms allow us to predict whether climate change is likely to change a species' geographic range and, if so, how abundance in marginal populations compares to the core.The bagworm Thyridopteryx ephemeraeformis (Lepidoptera: Psychidae) is a major native pest of cedars, arborvitae, junipers, and other landscape trees throughout much of North America. Across dozens of bagworm populations spread over six degrees of latitude in the American Midwest we find latitudinal declines in fecundity and egg and pupal survivorship as one proceeds toward the northern range boundary. A spatial gradient of bagworm reproductive success emerges, which is associated with a progressive decline in local abundance and an increase in the risk of local population extinction near the species' geographic range boundary.We developed a mathematical model, completely constrained by empirically estimated parameters, to explore the relative roles of reproductive asynchrony and stage-specific survivorship in generating the range limit for this species. We find that overwinter egg mortality is the biggest constraint on bagworm persistence beyond their northern range limit. Overwinter egg mortality is directly related to winter temperatures that fall below the bagworm eggs' physiological limit. This threshold, in conjunction with latitudinal declines in fecundity and pupal survivorship, creates a nonlinear response to climate extremes that sets the geographic boundary and provides a path for predicting northward range expansion under altered climate conditions. Our mechanistic modeling approach demonstrates how species' sensitivity to climate extremes can create population tipping points not reflected in demographic responses to climate means, a distinction that is critical to successful ecological forecasting.

show abstract

Testing climate-based species distribution models with recent field surveys of pond-breeding amphibians in eastern Missouri

Cited by 8 publications

References 32 publications

Relative performance of ecological niche and occupancy models for predicting invasions by patchily-distributed species

Relative performance of ecological niche and occupancy models for predicting invasions by patchily-distributed species

Assessing the physiological sensitivity of amphibians to extreme environmental change using the stress endocrine responses

How climate extremes—not means—define a species' geographic range boundary via a demographic tipping point

Contact Info

Product

Resources

About