NNLProject ID: 655497
Finanziato nell'ambito di:
An exploration into the feasibility of simultaneously achieving ‘No Net Loss’ of biodiversity and ecosystem services, in an uncertain and changing world
Dettagli del progetto
Costo totale:EUR 200 194,80
Contributo UE:EUR 200 194,80
Invito a presentare proposte:H2020-MSCA-IF-2014See other projects for this call
Meccanismo di finanziamento:MSCA-IF-EF-ST - Standard EF
We are evidently currently witnessing an ongoing loss of global biodiversity, caused largely by anthropogenic activity, and thought to be resulting in a loss of associated ecosystem services. However, the economic development that often leads to net loss of ecosystem services also provides benefits to humanity. An optimal balance between development and biodiversity conservation must be found.
A promising new policy principle is ‘No Net Loss’ (NNL) – giving rise to mechanisms in which biodiversity losses from development are measured, and conservation interventions implemented that fully compensate for those losses, resulting in no net loss of biodiversity alongside development. However, it has been suggested that biodiversity and ecosystem services can not always both be maximised. Further, NNL is not a trivial objective when ecological dynamics (e.g. climate change) and social dynamics (e.g. institutional change) are taken into account. It is crucial that we establish whether there are general principles that can be applied to achieving NNL across different ecosystem types, and if not, what are the most significant peculiarities to each system.
We propose to begin by creating for the first time a database of existing NNL interventions, as well as developing frames of reference for NNL interventions in a set of case study ecosystems. Systems are likely to include both European and other countries.
Building on this empirical basis, we will develop bespoke simulation models (using a novel implementation of the Management Strategy Evaluation framework) for each ecosystem, and explore implementation of different NNL mechanisms. We will consider feedback between social and ecological system components, drivers of change such as climate change, and sources of uncertainty.
The outputs will allow us to determine whether there are general principles concerning how and when NNL of both biodiversity and ecosystem services can be achieved in a given dynamic system.
Contributo UE: EUR 200 194,80