HTTP/1.1 200 OK Date: Sat, 30 May 2015 06:18:15 GMT Server: Apache/1.3.31 (Unix) mod_auth_tkt/1.3.11 PHP/4.3.8 mod_ssl/2.8.19 OpenSSL/0.9.7d mod_perl/1.29 X-Powered-By: PHP/4.3.8 Set-Cookie: cookieConsent=X; path=/ Connection: close Content-Type: text/html
Our site is using cookies to record anonymous visitor statistics and enhance your user experience. OK | Find out moreSkip navigation
BAS Research - Launching a weather balloon
Home » BAS Research » Our Research Programmes » Current Research » Polar Science for Planet Earth Programmes » Environmental Change & Evolution »
A BAS Twin Otter aircraft fitted with aerogeophysical surveying equipment.A BAS Twin Otter aircraft fitted with aerogeophysical surveying equipment.
Science Leader: Dr Alistair Crame ( firstname.lastname@example.org )
Earth’s environment and life are an integrated system of many parts. These interactions show complex behaviour on all scales from minutes to millennia, rocks to continents and genomes to communities. We need to understand this behaviour in order to make better predictions of future environmental changes.
The Environmental Change and Evolution programme addresses key aspects in the polar regions of geological and ice-sheet structure, marine and terrestrial biodiversity, and natural complexity, that influence the unique role of the polar regions in environmental change and evolution.
Biodiversity 'hotspots' in marine bivalve molluscs around AntarcticaBiodiversity 'hotspots' in marine bivalve molluscs around Antarctica
Environmental Change & Evolution
programme will analyse how past changes in the position of landmasses, ocean currents and climate have influenced biodiversity. Using molecular techniques on present-day species and populations, and morphological techniques on present-day and fossil species and populations, it will assess the phylogenetic relationships of Antarctic fauna and calculate when new species have evolved. The
Environmental Change & Evolution
programme is a strongly interdisciplinary programme that ranges from the present day back through deep time, and will combine biological and geological methods to assess rates of evolution in the polar regions.
Complex climate variations since 100 million years ago. - The cooling trend correlates with ice sheet growth (right) (after Miller et al. 2005 ref )
Complex climate variations since 100 million years ago. - The cooling trend correlates with ice sheet growth (right) (after Miller et al. 2005 ref )Complex climate variations since 100 million years ago. - The cooling trend correlates with ice sheet growth (right) (after Miller et al. 2005 ref )
To determine the structure and thickness of ice sheets and the underlying continent, including the Gamburtsev Mountains, the Environmental Change and Evolution programme will use aerogeophysical techniques (e.g. radar, gravity, magnetics). Measurements of physical processes (e.g. topography, substrate, heat flow and hydrology) within Antarctic ice sheets and subglacial lakes, will help to determine how they have evolved through time.
The Environmental Change & Evolution programme will apply advanced mathematical techniques to the study of complex natural systems. It aims to find out whether it is possible to improve quantitative predictions of environmental change, and to reduce levels of uncertainty.
As part of a UK consortium, BAS scientists will drill through 3 km of ice to access subglacial (External) Lake Ellsworth in West Antarctica . The project will test for life within this, the most extreme ultra-oligotrophic environment within the Earth’s hydrosphere.
As part of the international Super Dual Auroral Radar Network (SuperDARN), BAS scientists will deploy and operate a radar at Halley 6 station in order to study the Earth’s upper atmosphere, ionosphere and connection into space.
The Environmental Change & Evolution programme will carry out geological and geophysical surveys of Antarctica and the Scotia Sea (targeting areas where existing data is incomplete or non-existent) and back up field studies with high-precision uranium-lead (U-Pb) geochronology.
BAS has unique capability within the UK to investigate continental Antarctica, the surrounding deep sea and upper atmosphere. Our work in aerogeophysics, geological surveying and sea floor bathymetry mapping in the Antarctic is therefore a major resource for researchers and the UK Government.Programme information
Alistair Crame ( email@example.com )
Related NERC Science Themes:
Earth system science
The Environmental Change & Evolution contributes to many international initiatives. We are a major contributor of geological and geophysical survey data to international map compilations including:
BAS is a partner in major international research programmes including:
The Environmental Change & Evolution programme contributes to the NERC Earth System Science, Biodiversity, Natural Hazards and Climate System Themes. It addresses, in particular, the Earth System Science high level challenge to understand evolution of life and the planet; the Earth System Science sub-challenge on understanding cryospheric change and its interaction with the Earth System; and the Biodiversity challenge to develop new tools and techniques to describe biodiversity and its function.Glossary of terms
Back to Top Email to a Friend
© NERC-BAS 2015
Change Text Only Settings
Graphic version of this page