U.S. Geological Survey (USGS), Northern Rocky Mountain Science Center, 2327 University Way, Suite 2, Bozeman, MT 59715, USA.
Science. 2011 Jul 15;333(6040):332-5. doi: 10.1126/science.1201570. Epub 2011 Jun 9.
In western North America, snowpack has declined in recent decades, and further losses are projected through the 21st century. Here, we evaluate the uniqueness of recent declines using snowpack reconstructions from 66 tree-ring chronologies in key runoff-generating areas of the Colorado, Columbia, and Missouri River drainages. Over the past millennium, late 20th century snowpack reductions are almost unprecedented in magnitude across the northern Rocky Mountains and in their north-south synchrony across the cordillera. Both the snowpack declines and their synchrony result from unparalleled springtime warming that is due to positive reinforcement of the anthropogenic warming by decadal variability. The increasing role of warming on large-scale snowpack variability and trends foreshadows fundamental impacts on streamflow and water supplies across the western United States.
在北美西部,近年来积雪量有所减少,预计到 21 世纪还会进一步减少。在这里,我们使用科罗拉多、哥伦比亚和密苏里河流域主要产流区的 66 个树木年轮年表的积雪重建数据来评估近期减少的独特性。在过去的一千年中,在落基山脉北部以及山脉南北同步的范围内,20 世纪后期的积雪减少量在规模上几乎是前所未有的。积雪的减少及其同步性是由于春季变暖的空前增强,这是人为变暖与年代际变率的正反馈作用的结果。变暖对大规模积雪变化和趋势的影响越来越大,预示着对美国西部的径流量和水资源供应将产生根本性影响。
