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基于MODIS温度产品,着重分析了2000-2020年格陵兰冰盖夏季表面温度和表面融化范围的年际变化趋势;联合IMBIE(冰盖物质平衡对比实验)数据分析表面温度对于冰盖物质平衡的影响;进一步讨论了大气环流对于格陵兰冰盖表面温度变化的影响。结果表明:格陵兰冰盖夏季表面温度和融化范围趋势较为一致,2000年初期呈现出显著的上升趋势,2012年达到峰值,随后波动下降;整个研究阶段北部区域是增温速率最大的区域,高于其他任何区域两倍,东南部和西南部是温度最高的区域却具有最小的增长率;格陵兰冰盖夏季表面温度、融化范围以及物质平衡之间都具有显著的相关性,同时格陵兰冰盖夏季表面温度每上升1℃,会导致其物质损失增加74.29Gt·a;最后,经过对北大西洋涛动(NAO)和格陵兰阻塞指数(GBI)指数的分析得到,格陵兰冰盖夏季表面温度受到GBI的影响要强于NAO的影响,冰盖夏季表面温度和NAO呈现出负相关(r=-0.64,P<0.05),和GBI呈现出正相关(r=0.77,P<0.05)。 相似文献
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According to 73 snow samples collected in the southeast and southwest of Tibetan Plateau in January,2021,the characteristics of hydrogen and oxygen stable isotopes(δD and δ18O)fractionation in dry season and the influence of water vapor migration on the chemical composition change of snow profile were revealed by measuring the stable isotopes of hydrogen and oxygen and soluble inorganic ions in snow,and the relationship between stable isotopes of hydrogen and oxygen and climate and the composition and source of soluble inorganic ions were discussed. The results show that the local meteoric waterline of snowpack in the whole study area is δD=7. 86δ18O+11. 8(R2=0. 95),which is close to the Lhasa winter meteoric waterline,and the slope and inter⁃ cept of the meteoric waterline in the southeast are slightly lower than those in the southwest. δD and δ18O fluctu⁃ ates from -178. 11% to -68. 07% and -23. 80% to -9. 61%,respectively,and the d-excess values fluctuate from 11. 03% to 23. 49%,showing low values of δD and δ18O in winter,and high d-excess values. The surface layer is relatively enriched in heavy isotopes,and the isotope values are higher than those of the lower snow sam⁃ ples,and the water vapor migration inside the snow makes the slope of the relationship between δD and δ18O dif⁃ ferent. The concentration sequence of the main soluble inorganic ions is Ca2+>SO42->Na+>NO3->Cl->K+>Mg2+> NH4+,of which Ca2+(42. 47%),SO42-(23. 53%)accounted for the largest proportion of cation and anion,re⁃ spectively,and the average concentration of ions in the southeast was higher than that in the southwest. The re⁃ sults of principal component analysis show that terrigenous sources are the main source of ions in snow,and NH4+ and some NO3- are related to human activities. The backward air mass trajectory shows that the source of water vapor is related to the water vapor transport controlled by the upper-altitude westerly circulation,and most of the ions are terrestrial mineral dust carried by westerly winds in winter. © 2023 The Author(s). 相似文献
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