Vegetation Fire Emissions Exacerbate Glacier Melting on the Third Pole.

Vegetation fires release a large fraction of light-absorbing components, which can contribute to the melting of snowpack and alpine glaciers. However, the relationship between variability in fire emissions and alpine glacier melting on the Third Pole (TP) remains poorly understood. This study provides evidence that carbon emissions from windward vegetation fires play a crucial role in comprehending glacier melting on the TP, particularly during the months of intense vegetation fires from March to May for monsoon-dominated glaciers and from June to October for westerlies-dominated glaciers.

Analysis of the synergistic benefits of typical technologies for pollution reduction and carbon reduction in the iron and steel industry in the Beijing-Tianjin-Hebei region.

With its high energy consumption and pollutant emissions, the iron and steel industry is a significant source of air pollution and carbon emissions in the Beijing-Tianjin-Hebei (BTH) region. To improve air quality and reduce greenhouse gas emissions, a series of policies involving ultra-low emission, synergistic reduction of pollution, and carbon application have been implemented in the region. This study has assessed air pollutant and CO emission patterns in the iron and steel industry of the region by employing co-control effects coordinate system, marginal abatement cost curve, and numerical modeling, along with the synergistic benefits of typical technologies.

Agricultural expansion dominates rapid increases in cropland fires in Asia.

Asia contains 58 % of the global population and approximately 39 % of the world's cropland, making evaluation of the spatiotemporal variability patterns in cropland fire critical for understanding the interplay between crop residue burning and human activity in Asia. Although agricultural expansion and intensification have contributed to an overall decline in vegetation fires worldwide since the late 1990s, burned area by cropland fires in Asia has expanded by more than 19 % over the past two decades. India accounts for about 32 % of cropland fires in Asia, and the burned area has increased by more than two-thirds since 2003, particularly increased around 80 % during the two major cereal harvest seasons of March-May and October-November.