Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment

To investigate how the Caucasian endemic Carabus exaratus is distributed in a changing climate, we conducted modeling of its current and predicted ranges using the Maxent environment. Data from literary sources and our own field collections were used for this study, totaling 99 identified habitats....

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Main Authors: Avtaeva, Tamara A., Kushalieva, Shapaat A., Matsyura, Alex V.
Format: Article in Journal/Newspaper
Language:English
Published: Altai State University 2024
Subjects:
Energy efficient measures
Green Zoom
greenness indicators
integrated residential development
sustainable development
standards
Sibirica
Online Access:http://journal.asu.ru/biol/article/view/15161
https://doi.org/10.5281/zenodo.11113045
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spelling ftaltaistuniojs:oai:journal.asu.ru:article/15161 2024-06-09T07:49:32+00:00 Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment Avtaeva, Tamara A. Kushalieva, Shapaat A. Matsyura, Alex V. 2024-05-07 application/pdf application/xml http://journal.asu.ru/biol/article/view/15161 https://doi.org/10.5281/zenodo.11113045 eng eng Altai State University http://journal.asu.ru/biol/article/view/15161/12841 http://journal.asu.ru/biol/article/view/15161/12852 http://journal.asu.ru/biol/article/view/15161 doi:10.5281/zenodo.11113045 Acta Biologica Sibirica; Vol 10 (2024): Acta Biologica Sibirica; 317–324 Acta Biologica Sibirica; Том 10 (2024): Acta Biologica Sibirica 317–324 2412-1908 Energy efficient measures Green Zoom greenness indicators integrated residential development sustainable development standards info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2024 ftaltaistuniojs https://doi.org/10.5281/zenodo.11113045 2024-05-15T23:44:59Z To investigate how the Caucasian endemic Carabus exaratus is distributed in a changing climate, we conducted modeling of its current and predicted ranges using the Maxent environment. Data from literary sources and our own field collections were used for this study, totaling 99 identified habitats. We utilized 20 bioclimatic variables with a spatial resolution of 30 seconds for the modeling. The analysis revealed several significant factors affecting C. exaratus: average annual temperature (bio 1), precipitation of the warmest quarter (bio 18), precipitation of the coldest quarter (bio 19), seasonality of precipitation (bio 15), isothermal conditions (bio 3), and elevation above sea level (bio 20). By applying the RCP 8.5 climate scenario, we generated maps showing forecasted ranges under changing climate conditions and calculated the areas of both current and predicted ranges. Our findings indicate that global warming will cause a shift and significant reduction in the bioclimatic range of Carabus exaratus. Article in Journal/Newspaper Sibirica Altai State University: Scientific Journals of ASU
institution Open Polar
collection Altai State University: Scientific Journals of ASU
op_collection_id ftaltaistuniojs
language English
topic Energy efficient measures
Green Zoom
greenness indicators
integrated residential development
sustainable development
standards
spellingShingle Energy efficient measures
Green Zoom
greenness indicators
integrated residential development
sustainable development
standards
Avtaeva, Tamara A.
Kushalieva, Shapaat A.
Matsyura, Alex V.
Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment
topic_facet Energy efficient measures
Green Zoom
greenness indicators
integrated residential development
sustainable development
standards
description To investigate how the Caucasian endemic Carabus exaratus is distributed in a changing climate, we conducted modeling of its current and predicted ranges using the Maxent environment. Data from literary sources and our own field collections were used for this study, totaling 99 identified habitats. We utilized 20 bioclimatic variables with a spatial resolution of 30 seconds for the modeling. The analysis revealed several significant factors affecting C. exaratus: average annual temperature (bio 1), precipitation of the warmest quarter (bio 18), precipitation of the coldest quarter (bio 19), seasonality of precipitation (bio 15), isothermal conditions (bio 3), and elevation above sea level (bio 20). By applying the RCP 8.5 climate scenario, we generated maps showing forecasted ranges under changing climate conditions and calculated the areas of both current and predicted ranges. Our findings indicate that global warming will cause a shift and significant reduction in the bioclimatic range of Carabus exaratus.
format Article in Journal/Newspaper
author Avtaeva, Tamara A.
Kushalieva, Shapaat A.
Matsyura, Alex V.
author_facet Avtaeva, Tamara A.
Kushalieva, Shapaat A.
Matsyura, Alex V.
author_sort Avtaeva, Tamara A.
title Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment
title_short Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment
title_full Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment
title_fullStr Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment
title_full_unstemmed Predicting the distribution of the caucasus endemic Carabus exaratus Quensel, 1806 in the Maxent environment
title_sort predicting the distribution of the caucasus endemic carabus exaratus quensel, 1806 in the maxent environment
publisher Altai State University
publishDate 2024
url http://journal.asu.ru/biol/article/view/15161
https://doi.org/10.5281/zenodo.11113045
genre Sibirica
genre_facet Sibirica
op_source Acta Biologica Sibirica; Vol 10 (2024): Acta Biologica Sibirica; 317–324
Acta Biologica Sibirica; Том 10 (2024): Acta Biologica Sibirica
317–324
2412-1908
op_relation http://journal.asu.ru/biol/article/view/15161/12841
http://journal.asu.ru/biol/article/view/15161/12852
http://journal.asu.ru/biol/article/view/15161
doi:10.5281/zenodo.11113045
op_doi https://doi.org/10.5281/zenodo.11113045
_version_ 1801382169788022784

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