Antarctic ‘greening’ at dramatic rate, satellite data show (Image Credit: Phys.org)
Vegetation cover across the Antarctic Peninsula has increased more than 10-fold over the last four decades, new research shows.
The Antarctic Peninsula, like many polar regions, is warming faster than the global average, with extreme heat events in Antarctica becoming more common.
The new study—by the universities of Exeter and Hertfordshire, and the British Antarctic Survey—used satellite data to assess how much the Antarctic Peninsula has been “greening” in response to climate change.
It found that the area of vegetation cover across the Peninsula increased from less than one square kilometer in 1986 to almost 12 square kilometers by 2021.
Published in the journal Nature Geoscience, the study also found this greening trend accelerated by over 30% in recent years (2016–2021) relative to the full study period (1986–2021)—expanding by over 400,000 square meters per year in this period. The paper is titled “Satellites evidence sustained greening of the Antarctic Peninsula.”
In a previous study, which examined core samples taken from moss-dominated ecosystems on the Antarctic Peninsula, the team found evidence that rates of plant growth had increased dramatically in recent decades.
This new study uses satellite imagery to confirm that a widespread greening trend, across the Antarctic Peninsula, is under way and accelerating.
“The plants we find on the Antarctic Peninsula—mostly mosses—grow in perhaps the harshest conditions on Earth,” said Dr. Thomas Roland, from the University of Exeter.
“The landscape is still almost entirely dominated by snow, ice and rock, with only a tiny fraction colonized by plant life.
“But that tiny fraction has grown dramatically—showing that even this vast and isolated ‘wilderness’ is being affected by anthropogenic climate change.”
Dr. Olly Bartlett, from the University of Hertfordshire, added, “As these ecosystems become more established—and the climate continues to warm—it’s likely that the extent of greening will increase.
“Soil in Antarctica is mostly poor or non-existent, but this increase in plant life will add organic matter, and facilitate soil formation—potentially paving the way for other plants to grow.
“This raises the risk of non-native and invasive species arriving, possibly carried by eco-tourists, scientists or other visitors to the continent.”
The researchers emphasize the urgent need for further research to establish the specific climate and environmental mechanisms that are driving the “greening” trend.
“The sensitivity of the Antarctic Peninsula’s vegetation to climate change is now clear and, under future anthropogenic warming, we could see fundamental changes to the biology and landscape of this iconic and vulnerable region,” said Dr. Roland.
He added, “Our findings raise serious concerns about the environmental future of the Antarctic Peninsula, and of the continent as a whole. In order to protect Antarctica, we must understand these changes and identify precisely what is causing them.”
The researchers are now investigating how recently deglaciated (ice-free) landscapes are colonized by plants, and how the process might proceed into the future.
More information:
Nature Geoscience (2024). DOI: 10.1038/s41561-024-01564-5
Journal information:
Nature Geoscience
Provided by
University of Exeter