Shunan Feng , Adrien Wehrlé , Joseph Mitchell Cook , Alexandre Magno Anesio , Jason Eric Box , Liane G. Benning , Martyn Tranter
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引用次数: 0
Abstract
The NASA MODIS MOD10A1 snow albedo product has enabled numerous glaciological applications. The temporal consistency of MODIS albedo is critical to obtaining reliable results from this 22-year time series. The orbit of Terra began to drift toward earlier acquisition times after the final inclination adjustment maneuver to maintain its nominal orbit by NASA on 27 February 2020, which may introduce biases that compromise the accuracy of quantitative time series analysis as the drift continues. Here, we evaluate the impact of Terra's orbital drift by comparing the differences between the Terra MODIS albedo and albedo products derived from Aqua MODIS, harmonized Landsat and Sentinel 2, Sentinel 3, and PROMICE (Programme for Monitoring of the Greenland Ice Sheet) ground measurements over the Greenland ice sheet. Our results suggest that the influence of orbital drift on albedo is small (+0.01 in 2020), but potentially biased for time series analysis. Our analysis also finds that the drift effect that causes earlier image acquisition time may lead to more apparently cloudy pixels and thus effectively reduce the Terra MODIS temporal resolution over Greenland.
美国国家航空航天局 MODIS MOD10A1 雪反照率产品为众多冰川学应用提供了便利。MODIS 反照率的时间一致性对于从这一长达 22 年的时间序列中获得可靠结果至关重要。2020 年 2 月 27 日,美国国家航空航天局(NASA)为保持其名义轨道而进行了最后一次倾角调整机动后,Terra 的轨道开始向更早的采集时间漂移,随着漂移的继续,可能会带来偏差,从而影响定量时间序列分析的准确性。在这里,我们通过比较 Terra MODIS 反照率与 Aqua MODIS、统一 Landsat 和 Sentinel 2、Sentinel 3 以及 PROMICE(格陵兰冰盖监测计划)对格陵兰冰盖的地面测量得出的反照率产品之间的差异,评估 Terra 轨道漂移的影响。我们的结果表明,轨道漂移对反照率的影响很小(2020 年为 +0.01),但对时间序列分析来说可能有偏差。我们的分析还发现,漂移效应导致图像采集时间提前,可能会导致更多明显的多云像素,从而有效降低 Terra MODIS 在格陵兰上空的时间分辨率。
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