Skip navigation

Microbial biodiversity

2 Posts tagged with the bacteria tag

Thanks to a Shackleton Scholarship Fund and the help of Falklands Conservation, we were able to spend a few days on the Falklands to do sampling of soils for microbiology analysis at sites where Falklands Conservation is currently carrying out habitat restoration pilot studies.


We spent two busy days in the Fritzroy area and Cape Pembroke. The first day, we not only got to visit various sites covered in rich Diddle-dee and grassland vegetation as well as see exposed peat and clay areas with the Habitat Restoration Officer, but also got to enjoy one of the rare hot summer days on the Falkland Islands. Our second day was apparently a lot more like a 'normal' day in February with thick clouds, rain and strong gusts of winds.                                                                              


                                                                     Tussock grass at Cape Pembroke, Falkland Islands.


                                                                              Diddle-Dee in Fitzroy, Falkland Islands.


                                                        Fieldwork with the Habitat Restoration Officer, Falklands Conservation.



                                                                               Collection of soil using a corer.



                                                                      Collection of soil for molecular analysis.


A field team with members from the Natural History Museum and University of Sheffield will spend five weeks in January to February 2013 at King Edward Point research station in Cumberland Bay on South Georgia, Southern Atlantic Ocean. The project is funded through a Research Grant by the Government of South Georgia and the South Sandwich Islands.


The aims of the field trip are to collect samples from soils and streams around Cumberland Bay such as Greene and Barff Peninsula to perform a comprehensive characterization of the bacterial and microbial eukaryotic diversity using next generation sequencing. The sample collection will enable to map bacteria and microbial eukaryotic community richness, composition and geographic distribution. Nutrients analysis for especially nitrogen and iron will also be performed to evaluate the relationship between microbial diversity and nutrients present in soils and streams.


This is important because bacteria and microbial eukaryotes are a major component of soils, and are essential for maintaining terrestrial ecosystems. Microbes are also important for processing of organic biomass and minerals in the soils, and nutrients generated in the soils can be transported into coastal waters through terrestrial runoff, and could subsequently potentially provide a source of nutrients for phytoplankton and fish in the coastal waters of South Georgia.


South Georgia is an island in the southern Atlantic Ocean and located south of the Antarctic Convergence, which is a climatic boundary between air and water masses of the Antarctic and subantarctic regions. South Georgia is around 170 long and between 2 to 40 km wid.


map1.jpgSouth Georgia in Southern Atlantic Ocean


map2.jpgSouth Georgia and Cumberland Bay (based on BAS map of South Georiga)



The landscapes of South Georiga characterized by steep barren mountainswith Mount Paget being up to 2.934 m high, numerous large glaciers and snowfields. The vegetation is dominated by mosses, lichen, grasses and a several flowering plant species . Ponds and streams are often rich in algae and mosses (


IMG_9101.jpgCumberland Bay



By the way, here are links to two webcams on South Georgia next the Kind Edward Point station:


South Georgia Webcam1



South Georgia Webcam2