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Predicting the distribution of European Hop Hornbeam: application of MaxEnt algorithm and climatic suitability models

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dc.creator Azadi, Hossain
dc.creator Nooghabi, Saeedeh Nazari
dc.creator Stefanie, Horatiu Ioan
dc.creator Kamer Aksoy, Özgür
dc.creator Choobchian, Shahla
dc.creator Arslan, Emine Seda
dc.creator Örücü, Ömer Kamil
dc.date 2023-03-01T00:00:00Z
dc.date.accessioned 2025-02-25T10:34:11Z
dc.date.available 2025-02-25T10:34:11Z
dc.identifier 90c997e8-09c6-409f-9c17-1a54edebf6a7
dc.identifier 10.1007/s10342-023-01543-2
dc.identifier https://avesis.sdu.edu.tr/publication/details/90c997e8-09c6-409f-9c17-1a54edebf6a7/oai
dc.identifier.uri http://acikerisim.sdu.edu.tr/xmlui/handle/123456789/100560
dc.description <p><i style="box-sizing: inherit; color: rgb(51, 51, 51); font-family: Georgia, Palatino, serif; font-size: 18px; background-color: rgb(252, 252, 252);">Ostrya carpinifolia</i><span style="color: rgb(51, 51, 51); font-family: Georgia, Palatino, serif; font-size: 18px; background-color: rgb(252, 252, 252);">&nbsp;Scop. (European Hop Hornbeam) is a native tree in Europe as a species of the Betulaceae family. European Hop Hornbeam has a significant value for the European flora, and assessing the effects of climate change on habitats of species is essential for its sustainability. With this point of view, the main aim of the research was to predict the present and future potential distribution of European Hop Hornbeam across Europe. ‘‘IPSL-CM6A-LR’’ climate change model, ninety-six occurrence data, and seven bioclimatic variables were used to predict potential distribution areas with MaxEnt 3.4.1 program. This study applied a change analysis by comparing the present predicted potential distribution of European Hop Hornbeam with the future predicted potential distribution under the 2041–2060 and 2081–2100 SSP2 4.5 and SSP5 8.5 climate change scenarios. Study results indicated that the sum of suitable and highly suitable areas of European Hop Hornbeam is calculated to be 1,136,706 km</span><span style="box-sizing: inherit; font-size: 13.5px; line-height: 0; position: relative; vertical-align: baseline; top: -0.5em; color: rgb(51, 51, 51); font-family: Georgia, Palatino, serif; background-color: rgb(252, 252, 252);">2</span><span style="color: rgb(51, 51, 51); font-family: Georgia, Palatino, serif; font-size: 18px; background-color: rgb(252, 252, 252);">&nbsp;for the current potential distribution. On the contrary, 2,107,187 km</span><span style="box-sizing: inherit; font-size: 13.5px; line-height: 0; position: relative; vertical-align: baseline; top: -0.5em; color: rgb(51, 51, 51); font-family: Georgia, Palatino, serif; background-color: rgb(252, 252, 252);">2</span><span style="color: rgb(51, 51, 51); font-family: Georgia, Palatino, serif; font-size: 18px; background-color: rgb(252, 252, 252);">&nbsp;of highly suitable and suitable areas will be diminished in the worst case by 2100. The most affected bioclimatic variable is BIO 19 (Precipitation of Coldest Quarter), considering the prediction of the species distribution. These findings indicated that the natural ecosystems of the Mediterranean region will shift to northern areas. This study represented a reference for creating a strategy for the protection and conservation of the species in the future.</span><br></p>
dc.language eng
dc.rights info:eu-repo/semantics/closedAccess
dc.title Predicting the distribution of European Hop Hornbeam: application of MaxEnt algorithm and climatic suitability models
dc.type info:eu-repo/semantics/article


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