increase in plant cover on the Antarctic
new study indicates a dramatic increase in plant cover on the Antarctic Peninsula, attributed to rising temperatures, signalling significant ecological changes.
About Antarctic warming:
• Warming rate: Antarctica is warming at a rate between 0.22°C to 0.32°C per decade, double the global average of 0.14-0.18°C per decade.
• Antarctic peninsula: This region is warming five times faster than the global average, with temperatures now nearly 3°C higher than in 1950.
• Extreme heatwaves: The continent has faced record-breaking heatwaves, with temperatures in July 2024 reaching up to 28°C above normal and a peak heatwave in March 2022 showing a rise of 39°C above average.
• Sea ice loss: Antarctica’s sea ice extent in 2024 was the second smallest on record, closely following the record low in 2023.
Recent study findings:
• Increased vegetation: The extent of plant cover on the Antarctic Peninsula has increased 14 times over the past 35 years, expanding from less than 1 sq km in 1986 to nearly 12 sq km by 2021.
• Greening rate: The rate of greening increased by over 30% between 2016 and 2021, with vegetation like mosses and lichen thriving due to warmer conditions.
• Impact on ecosystem: Rising temperatures and increased plant life may lead to soil formation, creating conditions conducive to invasive species, potentially threatening native flora and fauna.
• Albedo effect: More plant life could reduce the peninsula’s albedo (reflectivity), absorbing more solar energy and further increasing temperatures, potentially accelerating global warming.
Significance:
• Indicator of climate change: The expansion of plant cover highlights the profound impact of climate change even in the most remote and extreme regions.
• Global repercussions: Increased temperatures and ice loss in Antarctica contribute to rising sea levels, affecting coastal areas worldwide.
• Ecological shifts: The greening of Antarctica raises concerns about altering its ecosystem balance, paving the way for non-native species and impacting native biodiversity.
new study indicates a dramatic increase in plant cover on the Antarctic Peninsula, attributed to rising temperatures, signalling significant ecological changes.
About Antarctic warming:
• Warming rate: Antarctica is warming at a rate between 0.22°C to 0.32°C per decade, double the global average of 0.14-0.18°C per decade.
• Antarctic peninsula: This region is warming five times faster than the global average, with temperatures now nearly 3°C higher than in 1950.
• Extreme heatwaves: The continent has faced record-breaking heatwaves, with temperatures in July 2024 reaching up to 28°C above normal and a peak heatwave in March 2022 showing a rise of 39°C above average.
• Sea ice loss: Antarctica’s sea ice extent in 2024 was the second smallest on record, closely following the record low in 2023.
Recent study findings:
• Increased vegetation: The extent of plant cover on the Antarctic Peninsula has increased 14 times over the past 35 years, expanding from less than 1 sq km in 1986 to nearly 12 sq km by 2021.
• Greening rate: The rate of greening increased by over 30% between 2016 and 2021, with vegetation like mosses and lichen thriving due to warmer conditions.
• Impact on ecosystem: Rising temperatures and increased plant life may lead to soil formation, creating conditions conducive to invasive species, potentially threatening native flora and fauna.
• Albedo effect: More plant life could reduce the peninsula’s albedo (reflectivity), absorbing more solar energy and further increasing temperatures, potentially accelerating global warming.
Significance:
• Indicator of climate change: The expansion of plant cover highlights the profound impact of climate change even in the most remote and extreme regions.
• Global repercussions: Increased temperatures and ice loss in Antarctica contribute to rising sea levels, affecting coastal areas worldwide.
• Ecological shifts: The greening of Antarctica raises concerns about altering its ecosystem balance, paving the way for non-native species and impacting native biodiversity.