Constructing a 30m African Cropland Layer for 2016 by Integrating Multiple Remote sensing, crowdsourced, and Auxiliary Datasets

IF 4.2 3区 地球科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Big Earth Data Pub Date : 2021-07-29 DOI:10.1080/20964471.2021.1914400
M. Nabil, Miao Zhang, Bingfang Wu, José Bofana, Abdelrazek Elnashar
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引用次数: 5

Abstract

ABSTRACT Despite its essential importance to various spatial agriculture and environmental applications, the information on actual cropland area and its geographical distribution remain highly uncertain over Africa among remote-sensing products. Each of the African regions has its unique physical and environmental limiting factors to accurate cropland mapping, which leads to high spatial discrepancies among remote sensing cropland products. Since no dataset could cope with all limitations, multiple datasets initially derived from various remote sensing sensors and classification techniques must be integrated into a more accurate cropland product than individual layers. Here, in the current study, four cropland products, produced initially from multiple sensors (e.g. Landsat-8 OLI, Sentinel-2 MSI, and PROBA–V) to cover the period (2015–2017), were integrated based on their cropland mapping accuracy to build a more accurate cropland layer. The four cropland layers’ accuracy was assessed at Agro-ecological zones units via an intensive reference dataset (17,592 samples). The most accurate cropland layer was then identified for each zone to construct the final cropland mask at 30 m resolution for the nominal year of 2016 over Africa. As a result, the new layer was produced in higher cropland mapping accuracy (overall accuracy = 91.64% and cropland’s F-score = 0.75). The layer mapped the African cropland area as 282 Mha (9.38% of the Continent area). Compared to earlier cropland synergy layers, the constructed cropland mask showed a considerable improvement in its spatial resolution (30 m instead of 250 m), mapping quality, and closeness to official statistics (R2 = 0.853 and RMSE = 2.85 Mha). The final layer can be downloaded as described under the “Data Availability Statement” section.
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整合多个遥感、众包和辅助数据集,构建2016年非洲30米农田层
尽管在各种空间农业和环境应用中具有重要意义,但在遥感产品中关于非洲实际耕地面积及其地理分布的信息仍然高度不确定。非洲每个区域都有其独特的自然和环境因素,限制了精确的农田制图,这导致遥感农田产品之间的空间差异很大。由于没有数据集可以应对所有限制,因此必须将最初来自各种遥感传感器和分类技术的多个数据集整合到比单个层更准确的农田产品中。在目前的研究中,最初由多个传感器(例如Landsat-8 OLI, Sentinel-2 MSI和PROBA-V)制作的四种农田产品覆盖了(2015-2017)期间,根据其农田制图精度进行整合,以建立更准确的农田层。通过密集的参考数据集(17592个样本),以农业生态区为单位评估了4个农田层的精度。然后为每个区域确定最准确的耕地层,以构建2016年非洲名义年30米分辨率的最终耕地掩膜。结果表明,新层的耕地填图精度较高(总体精度为91.64%,耕地f值为0.75)。该层绘制的非洲耕地面积为282 Mha(占非洲大陆面积的9.38%)。与早期的农田协同层相比,构建的农田掩膜在空间分辨率(30 m而不是250 m)、制图质量和与官方统计数据的接近程度(R2 = 0.853, RMSE = 2.85 Mha)方面都有显著提高。最后一层可以按照“数据可用性声明”部分的描述下载。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Big Earth Data
Big Earth Data Earth and Planetary Sciences-Computers in Earth Sciences
CiteScore
7.40
自引率
10.00%
发文量
60
审稿时长
10 weeks
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