期刊
PLANT BIOSYSTEMS
卷 150, 期 2, 页码 227-235出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/11263504.2014.968232
关键词
endemic species; thermic vegetation indicator; vascular plants; life forms; climate warming; altitudinal ranks
资金
- NextData project (Data-LTER-Mountain)
- FP-5 project GLORIA-Europe of the European Commission as the re-survey by Life + project EnvEurope [EVK2-2000-00056, LIFE08 ENV/IT/000399]
- European Social Fund
- Autonomous Region of Aosta Valley
- Italian Ministry of Labour and Social Policies
Short-term changes occurring in high mountain vegetation were analysed using the data from two Italian sites already part of the GLobal Observation Research Initiative in Alpine environments (GLORIA - central Apennines and southwestern Alps). The study focused on a set of floristic (endemics), structural (life forms) and ecological (thermic vegetation indicator) variables. Vegetation data were collected according to the GLORIA multi-summit standardized method during the last decade. The re-visitation revealed a moderate decrease in regional endemic flora and significant variations in structural and ecological parameters. The increase in caespitose hemicryptophytes in both sites, in suffruticose chamaephytes in the central Apennines and in rosette-forming hemicryptophytes in the southwestern Alps emerged, highlighting the rapid responses of the alpine vegetation to climate warming. The increase in perennial life forms is related with the expansion of graminoids and small woody plants. These life forms seem to be most suitable to face climate warming in Italian summits. The increase in the thermic vegetation indicator exceeds the mean European summits increment, and this is due to the expansion of thermophilic species. Short-term analyses with fine spatial and temporal resolutions are still necessary to improve our understanding concerning species behaviour in high-elevation ecosystems.
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