Summary
Combating the effects of climate change (CC) is one of the top priorities of EU policy. In order for CC mitigation & adaptation measures to be successful, they must be based on sufficient knowledge about ecosystems & how they respond to change, which is complex & not linear. The identification of spatio-temporal patterns & their relationship with the underlying ecosystem processes is one of the ongoing scientific challenges in which scale-dependency constitutes one of the principal pitfalls. Passive or active Earth Observation (EO) sensors offer a vital toolset to address this issue, by providing long archives at a variety of spectral & spatial resolutions, from the global (e.g. AVHRR), & the regional (e.g. Landsat) to the local, very high-resolutions (e.g. WorldView, Orthophotos, drones).
The objective of PantEOn is to obtain empirical evidence about the long-term evolution & regime-shifts due to Climate Change of the functional & structural properties of Mediterranean ecosystems. This evidence is crucial for the identification of ecosystem resilience thresholds & the development of land degradation indicators. A multi-scale methodological framework will be developed in order to bridge the existing eco-hydro-geomorphological process-based knowledge of the Fellow, gained from 16 years of field experimentation & monitoring, with the advanced EO experience of the Hosts, to investigate & identify the spatio-temporal pattern/process relationships. The key for the proposed approach is to relate spatio-temporal patterns of vegetation with connectivity of soil surface components with respect to overland flow of water & sediments. The concluding objective of PantEOn is to provide an advancement in the design of operational indicators for the assessment & monitoring of land degradation, within the Land Degradation Neutrality framework suggested by the UN, in order to achieve the target of the Sustainable Development Goals to combat desertification by the 2030.
The objective of PantEOn is to obtain empirical evidence about the long-term evolution & regime-shifts due to Climate Change of the functional & structural properties of Mediterranean ecosystems. This evidence is crucial for the identification of ecosystem resilience thresholds & the development of land degradation indicators. A multi-scale methodological framework will be developed in order to bridge the existing eco-hydro-geomorphological process-based knowledge of the Fellow, gained from 16 years of field experimentation & monitoring, with the advanced EO experience of the Hosts, to investigate & identify the spatio-temporal pattern/process relationships. The key for the proposed approach is to relate spatio-temporal patterns of vegetation with connectivity of soil surface components with respect to overland flow of water & sediments. The concluding objective of PantEOn is to provide an advancement in the design of operational indicators for the assessment & monitoring of land degradation, within the Land Degradation Neutrality framework suggested by the UN, in order to achieve the target of the Sustainable Development Goals to combat desertification by the 2030.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/845146 |
Start date: | 25-09-2019 |
End date: | 07-03-2025 |
Total budget - Public funding: | 319 400,64 Euro - 319 400,00 Euro |
Cordis data
Original description
Combating the effects of climate change (CC) is one of the top priorities of EU policy. In order for CC mitigation & adaptation measures to be successful, they must be based on sufficient knowledge about ecosystems & how they respond to change, which is complex & not linear. The identification of spatio-temporal patterns & their relationship with the underlying ecosystem processes is one of the ongoing scientific challenges in which scale-dependency constitutes one of the principal pitfalls. Passive or active Earth Observation (EO) sensors offer a vital toolset to address this issue, by providing long archives at a variety of spectral & spatial resolutions, from the global (e.g. AVHRR), & the regional (e.g. Landsat) to the local, very high-resolutions (e.g. WorldView, Orthophotos, drones).The objective of PantEOn is to obtain empirical evidence about the long-term evolution & regime-shifts due to Climate Change of the functional & structural properties of Mediterranean ecosystems. This evidence is crucial for the identification of ecosystem resilience thresholds & the development of land degradation indicators. A multi-scale methodological framework will be developed in order to bridge the existing eco-hydro-geomorphological process-based knowledge of the Fellow, gained from 16 years of field experimentation & monitoring, with the advanced EO experience of the Hosts, to investigate & identify the spatio-temporal pattern/process relationships. The key for the proposed approach is to relate spatio-temporal patterns of vegetation with connectivity of soil surface components with respect to overland flow of water & sediments. The concluding objective of PantEOn is to provide an advancement in the design of operational indicators for the assessment & monitoring of land degradation, within the Land Degradation Neutrality framework suggested by the UN, in order to achieve the target of the Sustainable Development Goals to combat desertification by the 2030.
Status
SIGNEDCall topic
MSCA-IF-2018Update Date
28-04-2024
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