PMP Research interests (T1)

Key words

Climate of the past - dendroecology - Biogeography - paleoecology - Human impact - Phylogeography - Agroecology - Modeling - Macroecology

Research Themes

In this team, two main themes stand out :

Palaeoenvironments, climate change and human action
This theme brings together specialists in paleoecology, ecology, biology, archeology and Quaternary geology, who recon-struct ancient environments and climates (physical and biological components) using a multidisciplinary and multi-conceptual systemic approach. The existing scientific axes will be maintained and strengthened through collaborations with : 1) geologists and geneticists in order to integrate biomolecular markers and sedimentary DNA which will allow us to specify, on a taxonomic scale finer than that delivered by biological markers, the biodiversity of ancient ecosystems and agrosystems ; 2) statisticians and geochemists in order to specify the climatic signal delivered by independent biological markers (insects, pollen, bacteria and archae) of the most remarkable sedimentary series such as those studied in high temporal resolution or exceptional as the Asian series dating back to 2 million years at least.
We will concentrate our efforts on sites located in continental and insular environments in the Mediterranean, Middle-East and Central Asia, which correspond to areas where climate-man-environment relations have been crucial for the structuring of landscapes, ecosystems and the development of agriculture. We will also work on non-Mediterranean sites in Western Europe and the boreal regions of North America to improve knowledge on the impact of global climate change on ecosystem dynamics.

Macroecology and biogeography of global changes
Recent environmental changes (climate, land and sea use, pollution, etc.) pose considerable risks to the functioning of ecosystems, biodiversity conservation and human well-being. Current scenarios of different environmental forcings (ur-banization, artificialisation and fragmentation of natural environments, greenhouse gases, agricultural and fisheries prac-tices, etc.) all provide indications of aggravated risks in the future for human interactions Ecosystems. Given the im-portance of these environmental issues, research methods and the evaluation of trajectories leading to resistant and / or resilient systems have yet to be developed. This research involves socio-ecological approaches with better consideration of observations, results of controlled experiments, and numerical modeling.
This field of research is particularly important in the Mediterranean region where the various predictive studies suggest that environmental changes will be particularly acute, in particular in the areas of socio-economic and biodiversity chang-es, due to global warming leading to increased water stress, agricultural intensification, rising sea levels and acidification. Advances in biogeographic and environmental modeling make it possible to compare the spatial patterns of the function-ing of the socio-ecosystem and the distribution of biodiversity, both in retrospective approaches (weight of climatic and human impacts of the past, importance of refuge zones) and predictive.
All this research is integrated in a context of interaction with social and political actors, at national and international level. The transition to a more sustainable ecological resource use, both short and long term, will require the recognized scien-tific expertise of the members of this team.