Habitat suitability and movement corridors of grey wolf (Canis lupus) in Northern Pakistan

Kabir, Muhammad; Hameed, Shafqat; Ali, Hussain; Bosso, Luciano; Din, Jaffar Ud; Bischof, Richard; Redpath, Stephen M.; Nawaz, Muhammad Ali

doi:10.1371/journal.pone.0187027

Cited by 90 publications

(63 citation statements)

References 79 publications

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“…While there are many methods with which to generate SDMs (Guisan & Thuiller, ), maxent has become the most popular for both its ease of use and functionality (Morales, Fernández, & Baca‐González, ). maxent is a machine learning algorithm that allows SDMs to be generated using presence‐only data, making it an effective tool for predicting species distribution when obtaining presence–absence data is logistically impractical (Clemente et al, ; Kabir et al, ; Zhang, Yao, Meng, & Tao, ).…”

Section: Methodsmentioning

confidence: 99%

Species distribution modelling supports “nectar corridor” hypothesis for migratory nectarivorous bats and conservation of tropical dry forest

Burke

Frey

Ganguli

et al. 2019

Diversity and Distributions

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Aim:The Mexican long-tongued bat (Choeronycteris mexicana), Mexican long-nosed bat (Leptonycteris nivalis) and lesser long-nosed bat (Leptonycteris yerbabuenae) (Phyllostomidae: Glossophaginae) undertake long-distance migrations from southcentral Mexico to the south-western United States. It is proposed that these bats migrate along a nectar corridor of columnar cacti and Agave species, but this has not been tested with independent data and the spatiotemporal nature of this relationship is poorly understood. Our goal was to test this nectar corridor hypothesis and determine the relative importance of food plant and abiotic variables to the distribution and seasonal movements of these migratory nectarivores.Location: Mexico and the south-western United States. Methods:We generated species distribution models (SDMs) of documented food plants for these bats. We then created SDMs for each bat following a model selection approach, using food plant and abiotic predictor variables. We modelled migration pathways for C. mexicana and L. yerbabuenae using circuit theory and seasonal SDMs based on seasonally available food plants. Main conclusions: Food plants were more important than climatic and topographic variables in shaping the distribution of these bats. The most important predictors of distribution were Agave, columnar cacti and species richness of food plants. Species richness of food plants was the most consistently important variable, but the components of this diversity varied by bat species: Choeronycteris mexicana was influenced by Agave and cacti; Leptonycteris nivalis was influenced solely by Agave; Leptonycteris yerbabuenae was influenced more generally by cacti, Agave and C3 plants. Migration models for C. mexicana and L. yerbabuenae provided independent support for the nectar corridor hypothesis and indicate shifts in relative importance of specific food plants throughout the year. These results suggest that conservation of these bats should focus more broadly on management for species richness of food plants, especially in tropical dry forests.

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Section: Methodsmentioning

confidence: 99%

Species distribution modelling supports “nectar corridor” hypothesis for migratory nectarivorous bats and conservation of tropical dry forest

Burke

Frey

Ganguli

et al. 2019

Diversity and Distributions

View full text Add to dashboard Cite

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“…Prey abundance-although intuitively a key factor-is often ignored in these models (Gehring & Potter, 2005;Hebblewhite & Merrill, 2008;Jedrzejewski, Niedzialkowska, Nowak, & Jedrzejewska, 2004;Kabir et al, 2017), probably due to the lack of data. In some cases, prey abundance is approximated by prey species diversity (Ciucci et al, 2003;Falcucci et al, 2013) or abundance estimates derived from hunting bag statistics (Karlsson et al, 2007), although the latter tends to provide distorted estimates of actual prey supply (Kilpatrick, LaBonte, & Barclay, 2005;Ranta, Lindstrom, Linden, & Helle, 2008).…”

Section: Introductionmentioning

confidence: 99%

Deer density drives habitat use of establishing wolves in the Western European Alps

Roder

Biollaz

Mettaz

et al. 2020

Journal of Applied Ecology

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1. The return of top carnivores to their historical range triggers conflicts with the interests of different stakeholder groups. Anticipating such conflicts is key to appropriate conservation management, which calls for reliable spatial predictions of future carnivore occurrence. Previous models have assessed general habitat suitability for wolves, but the factors driving the settlement of dispersing individuals remain ill-understood. In particular, little attention has been paid to the role of prey availability in the recolonization process.2. High spatial resolution and area-wide relative densities of the wolf's main ungulate prey species (red deer, roe deer and chamois) were assessed from snow-track surveys and modelled along with wolf presence data and other environmental descriptors to identify the main drivers of habitat selection of re-establishing wolves in the Western European Alps.3. Prey species abundance was estimated from the minimum number of individuals recorded from snow-tracks along two hundred and eighteen 1-km transects surveyed twice a year during four successive winters (2012/2013-2015/2016).Abundance estimates per transect, corrected for species-specific detection probabilities and averaged across winters, were used to model area-wide relative prey density and biomass.2008; but see Mladenoff et al., 1995); so, clearly, there is an urgent the most profitable prey in the Western Alps, was the main driver of winter habitat selection during the settlement phase.7. Synthesis and applications. We demonstrate the crucial importance of including accurate, fine-grained information about prey supply for predicting recolonization patterns of carnivores and thus anticipating areas with potential human-wildlife conflicts where preventive measures should be prioritized. K E Y W O R D SCanis lupus, habitat modelling, human-wildlife interactions, Maxent, predator-prey relationships, recolonization patterns, ungulate density, wolf | 997

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“…Despite their ecological importance, most large carnivores suffered major declines in both population size and geographic range over the twentieth century [2]. The major causes of these declines were the loss and fragmentation of habitats, the decline of prey populations and the direct persecution by humans [3,4,5]. Nevertheless, in the last decades, a large-scale recovery of carnivore populations has occurred even within some of the most anthropized areas of the world, such as in Europe [6].…”

Section: Introductionmentioning

confidence: 99%

Combining ensemble models and connectivity analyses to predict wolf expected dispersal routes through a lowland corridor

et al. 2020

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The Italian wolf (Canis lupus italicus) population has remained isolated South of the Alps for the last few thousand years. After a strong decline, the species has recolonized the Apennines and the Western Alps, while it is currently struggling to colonize the Eastern Alps. Recently, the species was detected in a lowland park connecting the Northern Apennines to the Central Alps. If the park was able to sustain a net wolf dispersal flow, this could significantly boost the connection with the Eastern Alps and the Dinaric-Balkan population. We investigated the suitability of the park as a functional ecological corridor for the wolf through the unhospitable lowland of Northern Italy. We collected wolf occurrence data in two study areas. We modeled species distribution running a separate ensemble model for each study area and then merging the output of the models to obtain an integrated suitability map. We used this map to identify corridors for the wolf adopting a factorial least-cost path and a cumulative resistant kernel approach. The connectivity models showed that only two corridors exist in the lowland areas between the Northern Apennines and the Central Alps. The Western corridor is a blind route, while the eastern corridor passes through the park and has a continuous course. However, the models also revealed a scarce resilience of corridor connectivity in the passageways between the park and the Apennines and the Prealps, which suggests that urgent management actions are necessary to ensure the future functionality of this important corridor.

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Habitat suitability and movement corridors of grey wolf (Canis lupus) in Northern Pakistan

Cited by 90 publications

References 79 publications

Species distribution modelling supports “nectar corridor” hypothesis for migratory nectarivorous bats and conservation of tropical dry forest

Species distribution modelling supports “nectar corridor” hypothesis for migratory nectarivorous bats and conservation of tropical dry forest

Deer density drives habitat use of establishing wolves in the Western European Alps

Combining ensemble models and connectivity analyses to predict wolf expected dispersal routes through a lowland corridor

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