Biodiversity at BAS Cambridge
Biodiversity@BAS is an initiative formed by BAS staff. Adopting current NERC Biodiversity policy and working closely with BAS Estates and Environment Office teams, its goal is to assist with the …
Antarctica is a natural laboratory for studying the small number of plant and animal species that live in communities. Microbial life, invisible to the naked eye, plays a vital role in Antarctic ecosystems. State-of-the-art genetic methods to study the DNA of these microbes may lead to discoveries that could help in the production of new antibiotics and other compounds.
Remote and hostile, Antarctica harbours some of the most amazing creatures on the planet. It is also a powerful natural laboratory for studying biodiversity, evolution and the impacts of climate change. Cut off from the rest of planet, Antarctica’s isolation and its cold climate have allowed some unique species to evolve.
Mostly covered in ice and snow, Antarctica is the driest, coldest and windiest continent on Earth. Little of its land surface can support life, so the communities of plants and animals that survive there consist of only a small number of species living in simple relationships. Because of the simplicity of these communities, Antarctica is an exceptionally useful place for scientists to uncover how ecosystems work.
Some of the creatures in these communities are particularly interesting. Known as nematodes, their ancestors survived on tiny areas of land left uncovered during the last ice ages, more than one million years ago. By studying these nematodes, scientists at British Antarctic Survey (BAS) are able to increase our understanding of evolution and help reconstruct Antarctica’s glacial history.
Unlike the land, the seas around Antarctica are home to a rich and diverse group of species that have evolved some unique ways of coping with the cold. Some Antarctic fish, for example, are the only vertebrates in the world that do not use red blood cells to carry oxygen around their bodies.
But because they are so well adapted to the cold, some of these species may not be able to cope with life in a warmer world. Climate change is likely to have a major impact on Antarctic species. From their research stations on and around the Antarctic Peninsula – one of the fastest warming parts of the planet – BAS scientists are well placed to study how these species are responding to climate change.
Compared with our understanding of the continent’s plants and animals, we know very little about Antarctica’s microbial life. Invisible to the naked eye, these organisms play a vital role in Antarctic ecosystems and, because they may help us produce new antibiotics and other compounds, are rich but untapped resource. At BAS, scientists are using state-of-the-art genetic methods to study the DNA of these microbes and, hopefully, harness their potential.
Biodiversity@BAS is an initiative formed by BAS staff. Adopting current NERC Biodiversity policy and working closely with BAS Estates and Environment Office teams, its goal is to assist with the …
Contemporary research has shown that the Southern Ocean is warming. Summer surface temperatures have risen by more than 1 degree Centigrade in the last 80 years and a strong upper-layer …
Antarctic krill (Euphausia superba) are a key component of the food chain throughout much of the Southern Ocean. These small, shrimp-like animals occur in dense swarms, but their distribution is …
The white-chinned petrel is the most common bird species recorded as fisheries bycatch in the Southern Ocean [1]. Although currently listed as Vulnerable by the IUCN, limited population trend data …
Reproductive capacity and success of marine animals
Baseline study to monitor how marine biodiversity will respond to climate change
The South Orkney Islands is a small archipelago located in the Southern Ocean, 375 miles north-east of the tip of the Antarctic Peninsula. The seafloor around the South Orkney Islands …
How will life and biodiversity on Earth will respond to climate change? This information is particularly urgent for the waters along the Antarctic Peninsula, which are experiencing rapid regional climate …
European Marine Biological Resource Centre
In order to assess the impact of anthropogenic carbon dioxide (CO2) on the oceans today we are investigating the effect of decreasing upper ocean pH on calcifying zooplankton. Pteropods, …
20 February, 2020
A team led by British Antarctic Survey has just returned from the sub-Antarctic island of South Georgia, as the last of three expeditions to investigate the recovery of whales a …
31 January, 2020
Large brown seaweed can bring invasive species to Antarctica, according to research published today (31 January 2020) in the journal Scientific Reports. The new study describes the first scientific evidence …
13 January, 2020
A new study identifies the non-native species most likely to ‘invade’ the Antarctic Peninsula region over the next decade. It provides a baseline for all operators in the region to …
8 January, 2020
A new study published this week (7 January 2020) identifies a need for fishery managers to adopt clear objectives for the protection of seabirds and mammals. It is published in …
29 November, 2019
Two studies published in a special issue of the journal Science Advances this week (27 November 2019) highlight the fragility of the Antarctic and its ecosystems in the lead up …
18 October, 2019
A new study involving British Antarctic Survey researchers highlights the influence of krill (Euphausia superba) on atmospheric carbon levels. It is published in the journal Nature Communications today (18th October …
17 October, 2019
A new technique for analysing satellite images may help scientists detect and count stranded whales from space. Researchers tested a new detection method using Very High Resolution (VHR) satellite images …
9 October, 2019
In a new study published this week (Wednesday 9 October) in the journal Biological Conservation, an international team of researchers recommends the need for additional measures to protect and conserve …
25 July, 2019
New research, published this week (24 July 2019) in the journal PLOS ONE, shows how Antarctic krill (Euphausia superba), a key species in the Southern Ocean food web, choose different …
19 June, 2019
A new study shows how marine life around Antarctica returned after the extinction event that wiped out the dinosaurs. A team led by British Antarctic Survey studied just under 3000 …