A new study suggests Earth's subtropical low-cloud zones are shrinking, allowing more sunlight to reach the ocean and accelerating global warming. By combining satellite observations with climate models, researchers found strong evidence that decreased cloud cover is a consequence of rising CO2 levels, and not just natural variation. This positive feedback loop, where warming reduces clouds which then leads to more warming, could amplify the effects of climate change beyond current projections. The study highlights the importance of low clouds in regulating Earth's temperature and underscores the potential for even more rapid warming than previously anticipated.
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Summary of Comments ( 51 )
https://news.ycombinator.com/item?id=43592756
Hacker News users discuss the study's implications and methodology. Several express concern about the potential for a positive feedback loop, where warming reduces cloud cover, leading to further warming. Some question the reliability of satellite data used in the research, citing potential biases and the short timescale of observation. Others highlight the complexity of cloud behavior and the difficulty of modeling it accurately, suggesting the need for more research. A few commenters point to the broader context of climate change and the urgency of addressing it, regardless of the specific findings of this study. One compelling comment argues that reducing emissions remains crucial, even if this particular feedback mechanism proves less significant than suggested. Another highlights the potential impact of reduced cloud cover on ecosystems, particularly deserts.
The Hacker News thread linked discusses the Science article "Earth's clouds are shrinking, boosting global warming." Several commenters express skepticism about the certainty of the findings, citing the complexity of cloud behavior and the difficulty of modeling it accurately.
One commenter points out that clouds are notoriously difficult to simulate in climate models, and that changes in cloud cover are a significant source of uncertainty in climate projections. They suggest that the observed shrinking cloud cover could be a temporary fluctuation rather than a long-term trend. This sentiment is echoed by others who emphasize the chaotic nature of weather systems and the need for longer-term data to confirm the study's conclusions.
Another commenter raises the issue of solar cycles and their potential influence on cloud formation, questioning whether the observed changes might be related to solar activity rather than solely to anthropogenic warming. This prompts a discussion about the relative contributions of various factors to climate change.
Several commenters discuss the limitations of observational data and the challenges of distinguishing between cause and effect in complex systems like the Earth's climate. They note the possibility of feedback loops, where changes in cloud cover could be both a cause and a consequence of warming.
Some commenters express concern about the potential implications of shrinking cloud cover, highlighting the role of clouds in reflecting sunlight and regulating the Earth's temperature. They worry that a decrease in cloud cover could exacerbate global warming and lead to more extreme weather events.
There is also discussion about the reliability of climate models and the importance of scientific skepticism. Some commenters caution against overinterpreting the study's findings, while others emphasize the need to take action to address climate change even in the face of uncertainty.
A few commenters provide links to related research and resources, offering additional context and perspectives on the issue of cloud cover and climate change. Some of these links lead to discussions about specific cloud types and their differing effects on the climate system.
Overall, the comments reflect a mix of skepticism, concern, and cautious optimism. While some question the certainty of the study's findings, many acknowledge the potential seriousness of shrinking cloud cover and the need for further research to understand its implications. The thread highlights the ongoing debate about the complexities of climate change and the challenges of predicting its future trajectory.