Improved soil organic matter monitoring by using cumulative crop residue indices derived from time-series remote sensing images in the central black soil region of China

IF 6.1 1区农林科学 Q1 SOIL SCIENCE Soil & Tillage Research Pub Date : 2024-11-13 DOI:10.1016/j.still.2024.106357

Mei-Wei Zhang , Xiao-Lin Sun , Mei-Nan Zhang , Hao-Xuan Yang , Huan-Jun Liu , Hou-Xuan Li

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Abstract

Soil organic matter (SOM) determines soil fertility and functions, playing a key role in agriculture, the environment and climate change. During the past century, the SOM of the world, e.g., the black soil (Mollisol) in croplands of Northeast China, experienced extensive changes, making SOM monitoring crucial. Recently, digital soil mapping (DSM) with time-series remote sensing images has become a mainstream method for SOM monitoring, but there is room for its accuracy to be improved. To fulfill this purpose, we propose utilizing crop residue indices (CRIs) derived from remote sensing images within the method, as crop residues are a main source of the SOM. In this study, performances of five commonly used CRIs, e.g., normalized difference tillage index (NDTI), on SOM monitoring was evaluated based on a series of topsoil samples collected from 2014 to 2018 in croplands of the center black soil region in Northeast China. The performances and those of cumulative CRIs computed over some years were compared to those of basic climate and terrain attributes, spectral bands, an empirical index, and commonly used vegetation indices (VIs, e.g., normalized difference vegetation index (NDVI)). Results showed that temporal CRIs had a stronger correlation with SOM content (0.52–0.73) than did the others (0.04–0.69). Integrating CRIs with basic soil covariates increased prediction accuracy by 7.27 % in Lin’s concordance correlation coefficient (CCC). Further, the CRIs and VIs accumulated over 3 and 4 years, respectively, had a much stronger correlation with SOM (0.65–0.73 and 0.67–0.69, respectively) and led to better accuracies with an average increase of 2.62 % in CCC compared to indices of the current sampling year. While annual SOM maps predicted with and without the optimal cumulative CRI showed similar spatial patterns, they were statistically significantly different. It is recommended to utilize the cumulative NDTI for monitoring SOM.

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利用时间序列遥感图像得出的作物残留累积指数改进中国中部黑土区土壤有机质监测工作

土壤有机质（SOM）决定着土壤的肥力和功能，在农业、环境和气候变化中发挥着关键作用。在过去的一个世纪中，全球的土壤有机质（如中国东北耕地的黑土（Mollisol））经历了巨大的变化，因此土壤有机质的监测至关重要。近年来，利用时间序列遥感图像绘制数字土壤图（DSM）已成为 SOM 监测的主流方法，但其精度还有待提高。为了实现这一目标，我们建议在该方法中使用从遥感图像中提取的作物残留物指数（CRIs），因为作物残留物是 SOM 的主要来源。本研究基于 2014 年至 2018 年在中国东北黑土中心区耕地采集的一系列表土样本，评估了归一化差异耕作指数（NDTI）等五种常用 CRIs 在 SOM 监测中的表现。比较了若干年内计算的累积CRIs与基本气候和地形属性、光谱波段、经验指数以及常用植被指数（VIs，如归一化差异植被指数（NDVI））的性能和表现。结果表明，与其他指数（0.04-0.69）相比，时间 CRI 与 SOM 含量（0.52-0.73）具有更强的相关性。根据林氏一致性相关系数 (CCC)，将 CRIs 与基本土壤协变量整合后，预测精度提高了 7.27%。此外，分别经过 3 年和 4 年积累的 CRIs 和 VIs 与 SOM 的相关性更强（分别为 0.65-0.73 和 0.67-0.69），与当前采样年的指数相比，CCC 平均提高了 2.62%，从而提高了预测精度。虽然使用和不使用最佳累积中分辨率预测的年度 SOM 图显示出相似的空间模式，但它们在统计上有显著差异。建议利用累积 NDTI 监测 SOM。

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来源期刊

Soil & Tillage Research 农林科学-土壤科学

CiteScore

13.00

自引率

6.20%

发文量

266

审稿时长

5 months

期刊介绍： Soil & Tillage Research examines the physical, chemical and biological changes in the soil caused by tillage and field traffic. Manuscripts will be considered on aspects of soil science, physics, technology, mechanization and applied engineering for a sustainable balance among productivity, environmental quality and profitability. The following are examples of suitable topics within the scope of the journal of Soil and Tillage Research: The agricultural and biosystems engineering associated with tillage (including no-tillage, reduced-tillage and direct drilling), irrigation and drainage, crops and crop rotations, fertilization, rehabilitation of mine spoils and processes used to modify soils. Soil change effects on establishment and yield of crops, growth of plants and roots, structure and erosion of soil, cycling of carbon and nutrients, greenhouse gas emissions, leaching, runoff and other processes that affect environmental quality. Characterization or modeling of tillage and field traffic responses, soil, climate, or topographic effects, soil deformation processes, tillage tools, traction devices, energy requirements, economics, surface and subsurface water quality effects, tillage effects on weed, pest and disease control, and their interactions.