Expanding or shrinking? range shifts in wild ungulates under climate change in Pamir-Karakoram mountains, Pakistan

Ali, Hussain; Din, Jaffar Ud; Bosso, Luciano; Hameed, Shafqat; Kabir, Muhammad; Younas, Muhammad; Nawaz, Muhammad Ali

doi:10.1371/journal.pone.0260031

Cited by 59 publications

(32 citation statements)

References 74 publications

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“…This results in the isolation and decrease in their resistance to climate change or human-induced change [39,40]. One of the most common recommendations for protecting biodiversity is to increase connectivity and create ecological networks that connect natural habitats [41], a conservation practice that is becoming even more relevant in the face of impending climate change [5,42,43].…”

Section: Discussionmentioning

confidence: 99%

Methodology for Identifying Ecological Corridors: A Spatial Planning Perspective

Popescu

Tache

Petrişor

2022

Land

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Recent studies carried out by landscape and urban ecologists have shown that habitat fragmentation has negative environmental effects and is accountable for the loss of biodiversity. The development and extension of road infrastructure to support economic growth, the urbanization and the land-use changes are major drivers of habitat fragmentation. Planners have attempted to develop tools for restoring connectivity and stopping biodiversity loss at the landscape scale and which can be applied at the urban scale, too. The study fills in the gap by developing a methodology for identifying the ecological corridors of a Romanian large carnivore (brown bear) in the Romanian Carpathian Mountains at several spatial scales. The methodology relies on geospatial data; this is equally its most important advantage and challenge. Our findings suggest that the implementation of ecological corridors in current planning practice must be completed cautiously, provided the possible restrictions are imposed on economic activities by plans, and highlight the importance of field data in increasing the scientific soundness of the results. In addition, the findings show the need to interconnect spatial planning policies with environmental policies by improving the actual legislation.

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Section: Discussionmentioning

confidence: 99%

Methodology for Identifying Ecological Corridors: A Spatial Planning Perspective

Popescu

Tache

Petrişor

2022

Land

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“…We found that saturated O 2 , range sea surface temperature, salinity, primary productivity, and pH play little role in shaping this complex distribution supporting previous findings that these variables have little contribution in predicting richness of mangrove crabs 23 . Climate change is known as a major driver of biodiversity loss worldwide 18,[53][54][55] . Previous studies have shown that marine species will be negatively affected by climate change 53,[56][57][58] .…”

Section: Discussionmentioning

confidence: 99%

Global habitat suitability modeling reveals insufficient habitat protection for mangrove crabs

Yousefi

Naderloo

2022

Sci Rep

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Mangrove crabs are important components of mangrove forests however their large scale habitat suitability and conservation received little attention. The Metopograpsus thukuhar/cannicci species complex is a mangrove dwelling species occurs in the Indo-Pacific mangrove forests. Since identifying the complex suitable habitat is critical for its conservation, we modeled global habitat suitability of the complex within marine biogeographic realms and estimated representation of the complex suitable habitats within marine protected areas. We found that the complex’ largest and smallest suitable ranges are located in Central Indo-Pacific and Temperate Southern Africa realms, respectively. Only 12.5% of the complex suitable habitat is protected. The highest proportion of the complex’ protected suitable habitat (22.9%) is located in Western Indo-Pacific realm while the lowest proportion of the complex’ protected suitable habitat (1.38%) is located in Central Indo-Pacific realm. Suitable unprotected habitats of the complex identified in this study have high priority for conservation and should be included in marine protected areas to ensure species conservation. Our results show that species distribution models are practical tools to study marine species distribution across large spatial scales and help marine conservation planning.

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“…Species Distribution Models (SDMs) help to evaluate habitat suitability and are key to estimating risk to species by understanding potential vulnerabilities and what landscape and climate variables contribute most to their distribution (Wang et al, 2020). These tools can also be useful for predicting species' responses to future climate and environmental change (Beest et al, 2021; Pang et al, 2021), which is especially important for climatically constrained species, such as those that live in mountainous areas (Ali et al, 2021; Rahbek et al, 2019; Xenarios et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Modeling the distribution of the endangered Jemez Mountains salamander (Plethodon neomexicanus) in relation to geology, topography, and climate

Bartlow

Giermakowski

Painter³

et al. 2022

Ecology and Evolution

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The Jemez Mountains salamander (Plethodon neomexicanus; hereafter JMS) is an endangered salamander restricted to the Jemez Mountains in north-central New Mexico, United States. This strictly terrestrial and lungless species requires moist surface conditions for activities such as mating and foraging. Threats to its current habitat include fire suppression and ensuing severe fires, changes in forest composition, habitat fragmentation, and climate change. Forest composition changes resulting from reduced fire frequency and increased tree density suggest that its current aboveground habitat does not mirror its historically successful habitat regime. However, because of its limited habitat area and underground behavior, we hypothesized that geology and topography might play a significant role in the current distribution of the salamander.We modeled the distribution of the JMS using a machine learning algorithm to assess how geology, topography, and climate variables influence its distribution. The best habitat suitability model indicates that geology type and maximum winter temperature (November to March) were most important in predicting the distribution of the salamander (23.5% and 50.3% permutation importance, respectively). Minimum winter temperature was also an important variable (21.4%), suggesting this also plays a role in salamander habitat. Our habitat suitability map reveals low uncertainty in model predictions, and we found slight discrepancies between the designated critical habitat and the most suitable areas for the JMS. Because geological features are important to its distribution, we recommend that geological and topographical data are considered, both during survey design and in the description of localities of JMS records once detected.

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Expanding or shrinking? range shifts in wild ungulates under climate change in Pamir-Karakoram mountains, Pakistan

Cited by 59 publications

References 74 publications

Methodology for Identifying Ecological Corridors: A Spatial Planning Perspective

Methodology for Identifying Ecological Corridors: A Spatial Planning Perspective

Global habitat suitability modeling reveals insufficient habitat protection for mangrove crabs

Modeling the distribution of the endangered Jemez Mountains salamander (Plethodon neomexicanus) in relation to geology, topography, and climate

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