There is increasing evidence of climate change in Antarctica, especially elevated temperature and ultraviolet B (UVB) flux within the ozone “hole.” Its origins are debatable, but the effects on ice recession, water availability, and summer growth conditions are demonstrable. Light-dependent, temperature-sensitive, fast-growing organisms respond to these physical and biogeographical changes. Microalgae (cyanobacteria and eukaryotic algae), which are pioneer colonists of Antarctic mineral fellfield soils, are therefore highly suitable biological indicators of such changes. In frost-heaved soil polygons containing naturally sorted fine mineral particles, microalgal growth is restricted to a shallow zone of light penetration. By virtue of this ...
Investigation of the seasonal changes in composition of an immature Antarctic fellfield cyanobacteri...
This paper explores the biological consequences of climate change by integrating the results of a tr...
By 2100, the mean air temperature at the Earth\u2019s surface is predicted to increase by 1.4 \ub0C ...
The survival and growth of four genera of cyanobacteria and microalgae isolated from Antarctic fellf...
The Western Antarctic Peninsula (WAP) is a hotspot for changes caused by humans. The total column oz...
Abstract: Microbial mats dominated by cyanobacteria are the most abundant living forms in non-oceani...
Antarctic terrestrial ecosystems experience some of the most extreme growth conditions on Earth and ...
SummaryAnnual temperatures on the Antarctic Peninsula, one of the most rapidly warming regions on Ea...
Antarctic terrestrial ecosystems experience some of the most extreme growth conditions on Earth and ...
Antarctic terrestrial biota are generally limited by the inexorably linked environmental factors of ...
Microbial mats dominated by cyanobactena are the most abundant living forms in non-oceanic Antarctic...
While most research on ultraviolet radiation (UVR) was focused on the effect of UVR on the physiolog...
Sea ice algal communities play a very significant role in primary production in the Southern Ocean, ...
The terrestrial biota of the Antarctic Peninsula region are experiencing marked changes in climate, ...
The simplicity of maritime Antarctic terrestrial ecosystems, combined with rapid changes in several ...
Investigation of the seasonal changes in composition of an immature Antarctic fellfield cyanobacteri...
This paper explores the biological consequences of climate change by integrating the results of a tr...
By 2100, the mean air temperature at the Earth\u2019s surface is predicted to increase by 1.4 \ub0C ...
The survival and growth of four genera of cyanobacteria and microalgae isolated from Antarctic fellf...
The Western Antarctic Peninsula (WAP) is a hotspot for changes caused by humans. The total column oz...
Abstract: Microbial mats dominated by cyanobacteria are the most abundant living forms in non-oceani...
Antarctic terrestrial ecosystems experience some of the most extreme growth conditions on Earth and ...
SummaryAnnual temperatures on the Antarctic Peninsula, one of the most rapidly warming regions on Ea...
Antarctic terrestrial ecosystems experience some of the most extreme growth conditions on Earth and ...
Antarctic terrestrial biota are generally limited by the inexorably linked environmental factors of ...
Microbial mats dominated by cyanobactena are the most abundant living forms in non-oceanic Antarctic...
While most research on ultraviolet radiation (UVR) was focused on the effect of UVR on the physiolog...
Sea ice algal communities play a very significant role in primary production in the Southern Ocean, ...
The terrestrial biota of the Antarctic Peninsula region are experiencing marked changes in climate, ...
The simplicity of maritime Antarctic terrestrial ecosystems, combined with rapid changes in several ...
Investigation of the seasonal changes in composition of an immature Antarctic fellfield cyanobacteri...
This paper explores the biological consequences of climate change by integrating the results of a tr...
By 2100, the mean air temperature at the Earth\u2019s surface is predicted to increase by 1.4 \ub0C ...