The Impact of Biomass Burning on Climate Change

The recent study conducted by researchers from the University of Cambridge and the British Antarctic Survey sheds light on the impact of biomass burning on climate change. By tracking fire activity over the past 150 years through measurements of carbon monoxide trapped in Antarctic ice cores, the researchers have uncovered significant findings that challenge previous assumptions about the variability of biomass burning.

Uncovering Key Information

One of the key aspects of the study is the revelation that biomass burning has been more variable since the 1800s than previously thought. This new data is crucial for improving climate models, which heavily rely on information about past atmospheric gases, such as carbon monoxide, to enhance their forecasting capabilities. According to Rachael Rhodes, the senior author of the paper, this information from the period when humans started to dramatically alter Earth’s climate is essential for testing and developing climate models.

The researchers achieved their results by analyzing ice cores from Antarctica, which contain air pockets that directly sample the atmosphere’s composition at the time of snow deposition. This method allowed them to measure carbon monoxide levels from 1821 to 1995. However, a major challenge faced by the researchers was obtaining gas measurements from very young ice where air bubbles had not yet formed due to the weight of snow. To overcome this obstacle, they studied ice cores from locations with rapid snow accumulation.

One significant finding of the study was the continuous decline in biomass burning strength since the 1920s. This decline was attributed to the expansion and intensification of agriculture in regions such as southern Africa, South America, and Australia. As wildlands were converted into farmland, forest cover decreased, resulting in a drop in fire activity. According to Rhodes, this trend highlights how human actions have negatively impacted landscapes and ecosystems, disrupting the natural fire regime and altering the planet’s carbon cycle.

Challenging Assumptions

The study challenges a common assumption made by climate models, including those used by the IPCC, that fire activity has increased in line with population growth. However, Rhodes pointed out that the research provides evidence to the contrary, indicating that historic fire activity inventories need to be corrected in order to accurately reflect the variability observed in the carbon monoxide record. This emphasizes the importance of updating climate models to align with the realities of biomass burning trends.

The study on biomass burning and its effects on climate change offers valuable insights that can shape our understanding of past and present environmental dynamics. By refining our knowledge of how human activities impact the planet’s carbon cycle, we can work towards more accurate climate modeling and predictions for the future.