Due to climate change and changes in land use,wildfires are predicted to rise by up to 14 percent by 2030,30 percent by 2050 and 50 percent by the end of this century,and even areas once considered safe from major fires such as the Arctic,will "very likely" experience a major increase...
根据第一段中“Due to climate change and changes in land use, wildfires are predicted to rise by up to 14 percent by 2030, 30 percent by 2050 and 50 percent by the end of the 21st century, and even areas previously unaffected by wildfires such as the Arctic face increased risk (由于...
Due to climate change and changes in land use, wildfires are predicted to rise by up to 14 percent by 2030, 30 percent by 2050 and 50 percent by the end of this century, and even areas once considered safe from major fires such as the Arctic, will “very likely” experience a major ...
However, the role of land use-climate interactions in pollinator biodiversity changes, as well as consequent economic effects via changes in crop pollination, remains poorly understood. We present a global assessment of the interactive effects of climate change and land use on pollinator abundance and...
In order to estimate the capacity of such mountainous valleys to face global changes (climate, but also climate-and human-induced land-use changes), it is necessary to be able to evaluate the evolution of the different threats. The present work shows a methodology to evaluate the influences ...
The impact of land use and climate change on late Holocene and future suspended sediment yield of the Meuse catchment In this study we investigate the relative importance of changes in land use and climate on suspended sediment yield (SY) on millennial timescales in the Me... PJ Ward,RTV ...
Weakening of Indian summer monsoon rainfall (ISMR) is traditionally linked with large-scale perturbations and circulations. However, the impacts of local changes in land use and land cover (LULC) on ISMR have yet to be explored. Here, we analyzed this topic using the regional Weather Research...
Climate change and land-cover change will have major impacts on biodiversity persistence worldwide. These two stressors are likely to interact, but how climate change will mediate the effects of land-cover change remains poorly understood. Here we use an empirically-derived model of the interaction...
Range shifts of infectious plant disease are expected under climate change. As plant diseases move, emergent abiotic-biotic interactions are predicted to modify their distributions, leading to unexpected changes in disease risk. Evidence of these complex range shifts due to climate change, however, rem...
The magnitude and frequency of extreme precipitation events in the early twenty-first century have already proven to be increasing at a rate more quickly than previously anticipated. Currently, the biggest consequence of the change in extreme precipitation is the lack of a climate-adjusted national ...