机译:根据飞机和AIRS传感器测量,亚马逊地区生物质燃烧对甲烷干年变异的影响
Postgraduate Program in Climate and Environment (CLIAMB, INPA/UEA);
Amazonas State University, Superior School of Technology;
National Institute for Space Research, Center for Weather Forecasting and Climate Research;
Postgraduate Program in Ecology (PPG-ECO, INPA);
Postgraduate Program in Climate and Environment (CLIAMB, INPA/UEA);
Postgraduate Program in Climate and Environment (CLIAMB, INPA/UEA);
Postgraduate Program in Water Resources and Environmental Engineering (PPGERHA, UFPR);
Federal University of Parana, Environmental Engineering Department;
School of Engineering and Applied Sciences, Harvard University;
Amazonas State University, Superior School of Technology;
Greenhouse gas; Air pollution; Remote sensing; Drought; Climate;
机译:在亚马逊上燃烧气溶胶的生物量:使用全球气溶胶模型分析飞机,表面和卫星观察
机译:在亚马逊上燃烧气溶胶的生物量:使用全球气溶胶模型分析飞机,表面和卫星观察
机译:在亚马逊上燃烧气溶胶的生物量:使用全球气溶胶模型分析飞机,表面和卫星观察
机译:Amazonia的气溶胶:天然生物颗粒和大规模生物量燃烧的影响
机译:通过区域气候模型测试,生物量燃烧产生的气溶胶对亚马逊地区从干季到湿季过渡的辐射效应
机译:生物量燃烧导致亚马逊河干旱期间甲烷排放量增加
机译:2002年IAGOS飞机测量的Troposheric Co垂直型材; 2017年和Ndash; 2017年和生物量燃烧的作用
机译:亚马逊生物质燃烧季节期间季节内气象变化和土地覆盖对气溶胶 - 云相互作用的影响分析