利用协调的Landsat和Sentinel-2 (HLS)近实时检测冬季覆盖作物终止,以支持生态系统评估

IF 5.7 Q1 ENVIRONMENTAL SCIENCES
Feng Gao , Jyoti Jennewein , W. Dean Hively , Alexander Soroka , Alison Thieme , Dawn Bradley , Jason Keppler , Steven Mirsky , Uvirkaa Akumaga
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引用次数: 1

摘要

种植覆盖作物是为了减少土壤侵蚀,提高土壤肥力,改善流域管理。在美国东部的德尔玛瓦半岛,冬季覆盖作物对于减少农田的营养和沉积物损失至关重要。已经制定了成本分担计划,以激励覆盖作物实现保护目标。该计划要求在指定的时间窗口内种植并终止覆盖作物。通常,农民会报告每个登记田地的覆盖作物终止日期(每年约28000),保护区工作人员会在终止后两周内通过实地考察来确认报告。这一验证过程劳动密集且耗时,由于新冠肺炎大流行,在2020-2021年受到限制。本研究使用协调陆地卫星和哨兵2号(HLS,2.0版)时间序列数据和季内终止(WIST)算法来检测马里兰州和德尔马瓦半岛的覆盖作物终止日期。将估计的遥感终止日期与路边调查和马里兰州农业部数据库中2020-2021年覆盖作物季节农民报告的终止日期进行了比较。结果表明,使用HLS的WIST算法检测到注册字段(n=28190)94%的终止(状态)。在检测到的终止中,约49%、72%、84%和90%的遥感检测到终止日期分别在与农民报告日期一致的一周、两周、三周和四周内。实时模拟表明,使用常规可用的HLS数据,可以在终止手术后一周检测到终止日期,并且在5月中旬之后检测到的终止日期比早春标准化差异植被指数(NDVI)较低时的终止日期更可靠。我们得出的结论是,HLS图像和WIST算法为生成大面积近实时覆盖作物终止图提供了一种快速一致的方法,可用于支持成本分担计划的验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Near real-time detection of winter cover crop termination using harmonized Landsat and Sentinel-2 (HLS) to support ecosystem assessment

Cover crops are planted to reduce soil erosion, increase soil fertility, and improve watershed management. In the Delmarva Peninsula of the eastern United States, winter cover crops are essential for reducing nutrient and sediment losses from farmland. Cost-share programs have been created to incentivize cover crops to achieve conservation objectives. This program required that cover crops be planted and terminated within a specified time window. Usually, farmers report cover crop termination dates for each enrolled field (∼28,000 per year), and conservation district staff confirm the report with field visits within two weeks of termination. This verification process is labor-intensive and time-consuming and became restricted in 2020–2021 due to the COVID-19 pandemic. This study used Harmonized Landsat and Sentinel-2 (HLS, version 2.0) time-series data and the within-season termination (WIST) algorithm to detect cover crop termination dates over Maryland and the Delmarva Peninsula. The estimated remote sensing termination dates were compared to roadside surveys and to farmer-reported termination dates from the Maryland Department of Agriculture database for the 2020–2021 cover crop season. The results show that the WIST algorithm using HLS detected 94% of terminations (statuses) for the enrolled fields (n = 28,190). Among the detected terminations, about 49%, 72%, 84%, and 90% of remote sensing detected termination dates were within one, two, three, and four weeks of agreement to farmer-reported dates, respectively. A real-time simulation showed that the termination dates could be detected one week after termination operation using routinely available HLS data, and termination dates detected after mid-May are more reliable than those from early spring when the Normalized Difference Vegetation Index (NDVI) was low. We conclude that HLS imagery and the WIST algorithm provide a fast and consistent approach for generating near-real-time cover crop termination maps over large areas, which can be used to support cost-share program verification.

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