Do aerosols influence surface and satellite observations of total cloud cover over China

机译：气溶胶是否会影响中国整个云层的表面和卫星观测

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In this study, we tested the influence of aerosols on surface and satellite observations of total cloud cover (TCC). The surface-observed TCC (TCC) and satellite-retrieved TCC (TCC) shows a good agreement over China and difference between them (TCC) are mostly within the -10% to 10% range. The monthly mean TCC, AOD and visibility have a consistent spatial pattern and the negative TCC appears mostly in high AOD and low visibility regions. As expected, TCC difference would increase as aerosol loading increases. We found that for negative TCC (MODIS reports more clouds than Synop), both the frequency and range increase as the AOD increases from 0 to 0.8. Compared with the positive TCC, negative ones show a more clear relation with aerosol loading. When the aerosol loading increases, there are more significant difference cases with TCC less than -20%.

机译：在这项研究中，我们测试了气溶胶对整个云覆盖（TCC）的表面和卫星观察的影响。表面观察到的TCC（TCC）和卫星检索到的TCC（TCC）对中国表示良好的一致性，并且它们（TCC）之间的差异大多在-10％到10％范围内。每月平均TCC，AOD和可见度具有一致的空间模式，负TCC主要出现在高AOD和低可见区域中。正如预期的那样，随着气溶胶荷载量的增加，TCC差异会增加。我们发现，对于负TCC（MODIS报告比SYNOP的更多云），随着AOD增加到0到0.8，频率和范围都会增加。与阳性TCC相比，阴性物呈现出与气溶胶载荷更明显的关系。当气溶胶加载增加时，TCC的差异差异更大差异均不到-20％。

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《IEEE International Geoscience and Remote Sensing Symposium》|2015年|898-901|共4页
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Yawen Zhang; Hui Lu;
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aerosols; clouds; remote sensing; China; MODIS; aerosol loading; aerosol optical depth; satellite-retrieved total cloud cover; surface-observed total cloud cover; Aerosols; Clouds; Loading; MODIS; Market research; Satellites; Snow; China; MODIS; Total cloud cover; aerosols; surface observations;

机译：气溶胶;云;遥感;中国; MODIS;气溶胶载荷;气溶胶光学深度;卫星修正总云量;表面观测总云量;气溶胶;云量;载荷; MODIS;市场研究;卫星;雪;中国; MODIS ;总云量;气溶胶;表面观测;

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Do aerosols influence surface and satellite observations of total cloud cover over China

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