Interglacials and Glacials - Natural Experiments in Biodiversity Dynamics

Informations

Funding country

Norway

Acronym

-

URL

-

Start date

1/1/2016

End date

12/31/2020

Budget

871,209 EUR

Fundings

Abstract

There are three major ecological hypotheses to explain plant community composition and structure: 1) external, or extrinsic, environmental control (e.g. climate change), 2) internal, or intrinsic, species interactions (e.g. competition, facilitation), and 3) neutral dynamics, random processes, and historical legacies. Testing of these hypotheses requires long-term observational data on community composition over several hundred thousand years or even the last 1-2 million years. During such periods, Earth has experienced major climatic shifts from temperate interglacial stages (we live in the latest interglacial) to cool, often dry, glacial 'ice-age' stages. Due to advances in our knowledge about past vegetation and improvements in Quaternary chronology, continuous records of vegetation change through alternating interglacial and glacial stages from Greece, France, and Colombia are now available. Each of these records provides a unique long-term ecological observatory. The changes from glacial to interglacial conditions are a series of 'natural experiments' on the vegetation and ecology. The IGNEX project used numerical methods to detect major recurring patterns of vegetation change, taxonomic diversity, and compositional turnover for each interglacial, for each glacial-interglacial pair, and for all interglacials. Results from these analyses have permitted testing of three previously unexplored hypotheses: 1) that 'historical legacies' are important in long-term vegetation dynamics - they are, 2) that interglacials differ in their composition and biodiversity - they do, and 3) that plant communities have long temporal continuity - no, they do not. Testing these hypotheses is important in establishing 'baseline conditions' for restoration ecology, in predicting biotic responses to future environmental change, and in providing a factual basis for future conservation. The project involved 18 researchers from eight countries.