Antarctic terrestrial ecosystems have poorly developed soils and currently experience one of the greatest rates of climate warming on the globe. We investigated the responsiveness of organic matter decomposition in Maritime Antarctic terrestrial ecosystems to climate change, using two study sites in the Antarctic Peninsula region (Anchorage Island, 67 degrees S; Signy Island, 61 degrees S), and contrasted the responses found with those at the cool temperate Falkland Islands (52 degrees S). Our approach consisted of two complementary methods: (1) Laboratory measurements of decomposition at different temperatures (2, 6 and 10 degrees C) of plant material and soil organic matter from all three locations. (2) Field measurements at all three loc...
Aims: Litter decomposition is an important driver of soil carbon and nutrient cycling in nutrient-li...
Background. Antarctic terrestrial vegetation is subject to one of the most extreme climates on Earth...
Climate change is expected to affect the high latitudes first and most severely, rendering Antarctic...
Antarctic terrestrial ecosystems have poorly developed soils and currently experience one of the gre...
Antarctic terrestrial ecosystems have poorly developed soils and currently experience one of the gre...
Polar Regions are the most important soil carbon reservoirs on Earth. Monitoring soil carbon storage...
Environmental change, as predicted by the Intergovernmental Panel on Climate Change (IPCC), will ent...
This study concerned the fragility of maritime Antarctic soils under increasing temperature, using t...
We report a space-for-time substitution study predicting the impacts of climate change on vegetated ...
Although the maritime Antarctic has undergone rapid warming, the effects on indigenous soil-inhabiti...
Understanding relationships between environmental changes and soil microbial respiration is critical...
Background: Antarctic terrestrial vegetation is subject to one of the most extreme climates on Earth...
This paper explores the biological consequences of climate change by integrating the results of a tr...
Global warming in the Antarctic Peninsula, Maritime Antarctica, within the past 45 years has acceler...
The Ninth Symposium on Polar Science/Ordinary sessions: [OB] Polar biology, Wed. 5 Dec. / 2F Auditor...
Aims: Litter decomposition is an important driver of soil carbon and nutrient cycling in nutrient-li...
Background. Antarctic terrestrial vegetation is subject to one of the most extreme climates on Earth...
Climate change is expected to affect the high latitudes first and most severely, rendering Antarctic...
Antarctic terrestrial ecosystems have poorly developed soils and currently experience one of the gre...
Antarctic terrestrial ecosystems have poorly developed soils and currently experience one of the gre...
Polar Regions are the most important soil carbon reservoirs on Earth. Monitoring soil carbon storage...
Environmental change, as predicted by the Intergovernmental Panel on Climate Change (IPCC), will ent...
This study concerned the fragility of maritime Antarctic soils under increasing temperature, using t...
We report a space-for-time substitution study predicting the impacts of climate change on vegetated ...
Although the maritime Antarctic has undergone rapid warming, the effects on indigenous soil-inhabiti...
Understanding relationships between environmental changes and soil microbial respiration is critical...
Background: Antarctic terrestrial vegetation is subject to one of the most extreme climates on Earth...
This paper explores the biological consequences of climate change by integrating the results of a tr...
Global warming in the Antarctic Peninsula, Maritime Antarctica, within the past 45 years has acceler...
The Ninth Symposium on Polar Science/Ordinary sessions: [OB] Polar biology, Wed. 5 Dec. / 2F Auditor...
Aims: Litter decomposition is an important driver of soil carbon and nutrient cycling in nutrient-li...
Background. Antarctic terrestrial vegetation is subject to one of the most extreme climates on Earth...
Climate change is expected to affect the high latitudes first and most severely, rendering Antarctic...