Summary
"The accelerating loss and fragmentation of natural habitats are major threats to biodiversity, the very foundation of our life-supporting system. High land pressure at the global scale reduces opportunities to preserve large amounts of habitat. Habitat configuration (i.e. spatial arrangement) and matrix resistance (i.e. easiness for animals to move between habitat patches) remain the only possible adjustment variables to sustain biodiversity. What the management of habitat configuration and matrix resilience offers as ""window of opportunity"" for conservation has been subject to debate since the 1970s. Resolving this debate is now critical. This is the objective of this project.
SCALED will investigate key ecological processes for multiple organisms and at multiple scales to:
1) understand the circumstances under which different habitat configurations - at fixed habitat amount - can lead to higher or lower levels of biodiversity; 2) understand and quantify the role of matrix resistance - at fixed habitat amount and habitat configuration – in shaping biodiversity in landscapes;
3) generalize and predict how habitat amount, habitat configuration and matrix resistance affect biodiversity with trait-based and process-based modelling.
SCALED combines a new model based on traits and processes at the individual-level with a set of multi-scale innovative empirical experiments, monitored with ambitious sampling designs and a range of advanced tools including landscape genetics and movement telemetry.
SCALED will offer a unique opportunity to validate our predictive model with unprecedented observations of movement, demographic and species-interaction processes under crossed conditions of habitat amount, habitat configuration and matrix resistance. SCALED can also bring wide applications, because public and private land planners deeply need effective decision guidelines and readily usable tools able to bring scientific support to land planning decision-making.
"
SCALED will investigate key ecological processes for multiple organisms and at multiple scales to:
1) understand the circumstances under which different habitat configurations - at fixed habitat amount - can lead to higher or lower levels of biodiversity; 2) understand and quantify the role of matrix resistance - at fixed habitat amount and habitat configuration – in shaping biodiversity in landscapes;
3) generalize and predict how habitat amount, habitat configuration and matrix resistance affect biodiversity with trait-based and process-based modelling.
SCALED combines a new model based on traits and processes at the individual-level with a set of multi-scale innovative empirical experiments, monitored with ambitious sampling designs and a range of advanced tools including landscape genetics and movement telemetry.
SCALED will offer a unique opportunity to validate our predictive model with unprecedented observations of movement, demographic and species-interaction processes under crossed conditions of habitat amount, habitat configuration and matrix resistance. SCALED can also bring wide applications, because public and private land planners deeply need effective decision guidelines and readily usable tools able to bring scientific support to land planning decision-making.
"
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/949812 |
| Start date: | 01-01-2021 |
| End date: | 31-12-2026 |
| Total budget - Public funding: | 1 499 978,00 Euro - 1 499 978,00 Euro |
Cordis data
Original description
"The accelerating loss and fragmentation of natural habitats are major threats to biodiversity, the very foundation of our life-supporting system. High land pressure at the global scale reduces opportunities to preserve large amounts of habitat. Habitat configuration (i.e. spatial arrangement) and matrix resistance (i.e. easiness for animals to move between habitat patches) remain the only possible adjustment variables to sustain biodiversity. What the management of habitat configuration and matrix resilience offers as ""window of opportunity"" for conservation has been subject to debate since the 1970s. Resolving this debate is now critical. This is the objective of this project.SCALED will investigate key ecological processes for multiple organisms and at multiple scales to:
1) understand the circumstances under which different habitat configurations - at fixed habitat amount - can lead to higher or lower levels of biodiversity; 2) understand and quantify the role of matrix resistance - at fixed habitat amount and habitat configuration – in shaping biodiversity in landscapes;
3) generalize and predict how habitat amount, habitat configuration and matrix resistance affect biodiversity with trait-based and process-based modelling.
SCALED combines a new model based on traits and processes at the individual-level with a set of multi-scale innovative empirical experiments, monitored with ambitious sampling designs and a range of advanced tools including landscape genetics and movement telemetry.
SCALED will offer a unique opportunity to validate our predictive model with unprecedented observations of movement, demographic and species-interaction processes under crossed conditions of habitat amount, habitat configuration and matrix resistance. SCALED can also bring wide applications, because public and private land planners deeply need effective decision guidelines and readily usable tools able to bring scientific support to land planning decision-making.
"
Status
SIGNEDCall topic
ERC-2020-STGUpdate Date
27-04-2024
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