Mapping the soil organic matter content in Northeast China considering the difference between dry lands and paddy fields

IF 6.1 1区 农林科学 Q1 SOIL SCIENCE Soil & Tillage Research Pub Date : 2024-08-23 DOI:10.1016/j.still.2024.106270
Chong Luo , Wenqi Zhang , Xiangtian Meng , Yunfei Yu , Xinle Zhang , Huanjun Liu
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Abstract

Mapping the soil organic matter (SOM) content of cultivated lands at the regional scale is of great significance for evaluating the cultivated land quality and monitoring the soil carbon cycle, especially in the fertile black-soil area of China. The large paddy fields area is one of the characteristics of the black-soil area in Northeast China. The vast differences between paddy fields and dry lands may pose a major challenge in mapping the SOM contents of local cultivated lands. In this study, the SOM of cultivated lands in Northeast China is taken as the research object, and all available Landsat-8 images from 2014 to 2022 and the main environmental covariates (climate and terrain) are obtained. By combining the random forest regression algorithm, SOM prediction models of paddy fields and dry lands are established to evaluate the optimal window period and appropriate environmental covariates for paddy fields and dry lands. Finally, the accuracy difference between the global regression and local regression results for distinguishing paddy fields and dry lands is compared. The results showed that (1) the SOM content in Northeast China increased gradually from south to north, and the average SOM content in paddy fields was approximately 0.4 % higher than that in dry lands; (2) the SOM mapping time windows in paddy fields and dry lands in Northeast China differed, with paddy fields mapped in April and dry lands mapped in May; (3) the addition of environmental covariates improved the SOM prediction accuracy, with a greater importance for mapping SOM in paddy fields than in dry lands; and (4) the local regression results based on the division of paddy fields and dry lands achieved the highest prediction accuracy, with the highest determination coefficient (R2) being 0.653 and lowest root mean square error (RMSE) being 1.144 %. This study proves that different types of arable land have a great impact on the SOM prediction accuracy. Researchers should adopt different strategies to map the SOM contents of paddy fields and dry lands.

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考虑旱地和水田的差异,绘制中国东北地区土壤有机质含量图
绘制区域尺度的耕地土壤有机质(SOM)含量图对于评价耕地质量和监测土壤碳循环具有重要意义,尤其是在中国肥沃的黑土区。水田面积大是东北黑土区的特点之一。水田与旱地之间的巨大差异可能会给绘制当地耕地的 SOM 含量图带来巨大挑战。本研究以中国东北地区耕地的 SOM 为研究对象,获取了 2014 年至 2022 年所有可用的 Landsat-8 图像和主要环境协变量(气候和地形)。结合随机森林回归算法,建立水田和旱地的 SOM 预测模型,评价水田和旱地的最佳窗口期和合适的环境协变量。最后,比较了全局回归和局部回归结果在区分水田和旱地方面的精度差异。结果表明:(1) 中国东北地区的 SOM 含量由南向北逐渐增加,水田的平均 SOM 含量比旱地高约 0.4 %;(2)东北地区水田和旱地的 SOM 测绘时间窗口不同,水田在 4 月份测绘,旱地在 5 月份测绘;(3)增加环境协变量可提高 SOM 预测精度,对水田 SOM 测绘的重要性高于旱地;(4)基于水田和旱地划分的局部回归结果预测精度最高,判定系数(R2)最高,为 0.653 ,均方根误差(RMSE)最小,为 1.144 %。这项研究证明,不同类型的耕地对 SOM 预测精度有很大影响。研究人员应采取不同的策略绘制水田和旱地的 SOM 含量图。
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来源期刊
Soil & Tillage Research
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.
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