Projections on the Spatiotemporal Bioclimatic Change over the Phytogeographical Regions of Greece by the Emberger Index DOI Open Access
Ioannis Charalampopoulos,

Fotoula Droulia,

Ioannis Kokkoris

et al.

Water, Journal Year: 2024, Volume and Issue: 16(14), P. 2070 - 2070

Published: July 22, 2024

Unquestionably, the rapidly changing climate and, therefore, alterations in associated bioclimate, constitute an alarming reality with implications for daily practice and natural capital management. This research displays present projected bioclimate evolution over Greece’s phytogeographical regions. For this purpose, ultrahigh-resolution computation results on spatial distribution of Emberger index’s Q2 classes bioclimatic characterization are analyzed illustrated first time. The assessments performed reference period (1970–2000) two future time frames (2021–2040; 2041–2060) under RCP4.5 RCP8.5 emission scenarios. By 2060 extreme RCP8.5, intense xerothermic trends demonstrated owing to resulting significant mainly Arid–Hot, Semi-Arid–Very Hot, Semi-Arid–Hot, Semi-Arid–Temperate classes, respectively, regions Kiklades (up 29% occupation), Kriti Karpathos 30%), West Aegean Islands 26%), North East 56%), Central 31%). long-term exhibits strongest impacts approximately right half Greek territory, appearing more dry–thermal future. In conclusion, index provides in-depth view area’s regime potential due change per region.

Language: Английский

Climate change: Horticulture DOI
Rebecca Darbyshire, Leanne Webb, Ian Goodwin

et al.

Elsevier eBooks, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 1, 2025

Citations

0
How monitoring crops and drought, combined with climate projections, enhances food security: Insights from the Northwestern regions of Bangladesh DOI
Tahmid Anam Chowdhury, Zia Ahmed,

Md. Aminul Haque Laskor

et al.

Environmental Monitoring and Assessment, Journal Year: 2025, Volume and Issue: 197(4)

Published: March 19, 2025

Language: Английский

Citations

0
Projections on the Spatiotemporal Bioclimatic Change over the Phytogeographical Regions of Greece by the Emberger Index DOI Open Access
Ioannis Charalampopoulos,

Fotoula Droulia,

Ioannis Kokkoris

et al.

Published: July 2, 2024

Unquestionably the rapidly changing climate and, therefore, alterations in associated bioclimate, constitute an alarming reality with implications daily practice and natural capital management. In this research present projected bioclimate evolution over phytogeographical regions of Greece is displayed. For purpose, ultrahigh-resolution computation results on spatial distribution Emberger index’s Q2 classes bioclimatic characterisation are analysed illustrated for first time. The assessments performed reference period (1970–2000) two future time frames (2021–2040; 2041–2060) under RCP4.5 RCP8.5 emission scenarios. By 2060 extreme RCP8.5, intense xerothermic trends demonstrated owing to resulting significant mainly Arid-Hot, Semi-Arid-Very Hot, Semi-Arid-Hot Semi-Arid-Temperate classes, respectively, Kiklades (up 29% occupation), Kriti Karpathos 30%), West Aegean Islands 26%), North East 56%)–North Central 31%). long-term exhibits strongest impacts approximately right half Greek territory which appears as more dry-thermal future.

Language: Английский

Citations

3
Projections on the Spatiotemporal Bioclimatic Change over the Phytogeographical Regions of Greece by the Emberger Index DOI Open Access
Ioannis Charalampopoulos,

Fotoula Droulia,

Ioannis Kokkoris

et al.

Water, Journal Year: 2024, Volume and Issue: 16(14), P. 2070 - 2070

Published: July 22, 2024

Unquestionably, the rapidly changing climate and, therefore, alterations in associated bioclimate, constitute an alarming reality with implications for daily practice and natural capital management. This research displays present projected bioclimate evolution over Greece’s phytogeographical regions. For this purpose, ultrahigh-resolution computation results on spatial distribution of Emberger index’s Q2 classes bioclimatic characterization are analyzed illustrated first time. The assessments performed reference period (1970–2000) two future time frames (2021–2040; 2041–2060) under RCP4.5 RCP8.5 emission scenarios. By 2060 extreme RCP8.5, intense xerothermic trends demonstrated owing to resulting significant mainly Arid–Hot, Semi-Arid–Very Hot, Semi-Arid–Hot, Semi-Arid–Temperate classes, respectively, regions Kiklades (up 29% occupation), Kriti Karpathos 30%), West Aegean Islands 26%), North East 56%), Central 31%). long-term exhibits strongest impacts approximately right half Greek territory, appearing more dry–thermal future. In conclusion, index provides in-depth view area’s regime potential due change per region.

Language: Английский

Citations

0