Fangfang Zhang , Ya Liu , Shiwen Wu , Jie Liu , Yali Luo , Yuxin Ma , Xianzhang Pan
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Three models, namely, partial least squares regression (PLSR), random forest (RF), and one-dimensional convolutional neural network (1D-CNN), were applied and compared. The results showed that combining legacy and recent data effectively improved SOM prediction accuracy compared to using only recent data. Among the three modeling methods, 1D-CNN exhibited superior performance, with an averaged determination coefficient of the prediction (<em>R</em><sup>2</sup>) of 0.58, a root mean square error (RMSE) of 4.56 g/kg, and a ratio of performance to interquartile distance (RPIQ) of 2.05. The predicted SOM content for both legacy (1980 s) and recent (2010 s) periods showed similar spatial distribution patterns throughout the Huanghuaihai Plain. Generally, there was a noticeable trend of increasing SOM content from northwest to southeast, with higher values observed in Jiangsu and lower values concentrated in Henan, Hebei, and Shandong regions within the study area. Over time, SOM contents in the Huanghuaihai Plain showed an increasing trend, with an average increase of 5.90 g/kg from legacy to recent period. This study provides a promising approach for improving SOM prediction and mapping accuracy at large scales, particularly when recent data availability is limited.</p></div>","PeriodicalId":12511,"journal":{"name":"Geoderma","volume":"450 ","pages":"Article 117031"},"PeriodicalIF":5.6000,"publicationDate":"2024-09-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S001670612400260X/pdfft?md5=e55cdae719ca165d92412e5c85d768a7&pid=1-s2.0-S001670612400260X-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Prediction and spatial–temporal changes of soil organic matter in the Huanghuaihai Plain by combining legacy and recent data\",\"authors\":\"Fangfang Zhang , Ya Liu , Shiwen Wu , Jie Liu , Yali Luo , Yuxin Ma , Xianzhang Pan\",\"doi\":\"10.1016/j.geoderma.2024.117031\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Soil organic matter (SOM) is critical for soil fertility, crop growth, and plays an important role in the global carbon cycle and climate change. Therefore, spatial prediction of SOM is important to rational soil resource utilization, agricultural production, and ecological environment management. However, large-area SOM mapping research heavily relies on legacy soil data, and large-scale recent SOM mapping may not be possible or have lower accuracy due to limited or less recent data availability. In this study, we aimed to improve SOM prediction and mapping accuracy by combining legacy data with limited recent data. Three models, namely, partial least squares regression (PLSR), random forest (RF), and one-dimensional convolutional neural network (1D-CNN), were applied and compared. The results showed that combining legacy and recent data effectively improved SOM prediction accuracy compared to using only recent data. Among the three modeling methods, 1D-CNN exhibited superior performance, with an averaged determination coefficient of the prediction (<em>R</em><sup>2</sup>) of 0.58, a root mean square error (RMSE) of 4.56 g/kg, and a ratio of performance to interquartile distance (RPIQ) of 2.05. The predicted SOM content for both legacy (1980 s) and recent (2010 s) periods showed similar spatial distribution patterns throughout the Huanghuaihai Plain. Generally, there was a noticeable trend of increasing SOM content from northwest to southeast, with higher values observed in Jiangsu and lower values concentrated in Henan, Hebei, and Shandong regions within the study area. Over time, SOM contents in the Huanghuaihai Plain showed an increasing trend, with an average increase of 5.90 g/kg from legacy to recent period. This study provides a promising approach for improving SOM prediction and mapping accuracy at large scales, particularly when recent data availability is limited.</p></div>\",\"PeriodicalId\":12511,\"journal\":{\"name\":\"Geoderma\",\"volume\":\"450 \",\"pages\":\"Article 117031\"},\"PeriodicalIF\":5.6000,\"publicationDate\":\"2024-09-17\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"https://www.sciencedirect.com/science/article/pii/S001670612400260X/pdfft?md5=e55cdae719ca165d92412e5c85d768a7&pid=1-s2.0-S001670612400260X-main.pdf\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Geoderma\",\"FirstCategoryId\":\"97\",\"ListUrlMain\":\"https://www.sciencedirect.com/science/article/pii/S001670612400260X\",\"RegionNum\":1,\"RegionCategory\":\"农林科学\",\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q1\",\"JCRName\":\"SOIL SCIENCE\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Geoderma","FirstCategoryId":"97","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S001670612400260X","RegionNum":1,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"SOIL SCIENCE","Score":null,"Total":0}
引用次数: 0
摘要
土壤有机质(SOM)对土壤肥力和作物生长至关重要,并在全球碳循环和气候变化中发挥着重要作用。因此,SOM 的空间预测对土壤资源的合理利用、农业生产和生态环境治理具有重要意义。然而,大面积 SOM 测绘研究严重依赖于遗留的土壤数据,而大规模的近期 SOM 测绘可能因数据有限或较少而无法实现或精度较低。在本研究中,我们旨在通过将遗留数据与有限的最新数据相结合来提高 SOM 预测和绘图精度。我们应用了偏最小二乘回归(PLSR)、随机森林(RF)和一维卷积神经网络(1D-CNN)三种模型,并进行了比较。结果表明,与仅使用近期数据相比,将遗留数据和近期数据相结合可有效提高 SOM 预测精度。在三种建模方法中,1D-CNN 表现出更优越的性能,其平均预测确定系数()为 0.58,均方根误差(RMSE)为 4.56 克/千克,性能与四分位距之比(RPIQ)为 2.05。在整个黄淮海平原,1980 年代和近期(2010 年代)的预测 SOM 含量呈现出相似的空间分布模式。总体而言,研究区内的 SOM 含量呈明显的由西北向东南递增趋势,江苏地区的 SOM 含量较高,而河南、河北和山东地区的 SOM 含量较低。随着时间的推移,黄淮海平原的 SOM 含量呈上升趋势,从早期到近期平均增加了 5.90 克/千克。这项研究为提高大尺度 SOM 预测和绘图精度提供了一种可行的方法,尤其是在近期数据有限的情况下。
Prediction and spatial–temporal changes of soil organic matter in the Huanghuaihai Plain by combining legacy and recent data
Soil organic matter (SOM) is critical for soil fertility, crop growth, and plays an important role in the global carbon cycle and climate change. Therefore, spatial prediction of SOM is important to rational soil resource utilization, agricultural production, and ecological environment management. However, large-area SOM mapping research heavily relies on legacy soil data, and large-scale recent SOM mapping may not be possible or have lower accuracy due to limited or less recent data availability. In this study, we aimed to improve SOM prediction and mapping accuracy by combining legacy data with limited recent data. Three models, namely, partial least squares regression (PLSR), random forest (RF), and one-dimensional convolutional neural network (1D-CNN), were applied and compared. The results showed that combining legacy and recent data effectively improved SOM prediction accuracy compared to using only recent data. Among the three modeling methods, 1D-CNN exhibited superior performance, with an averaged determination coefficient of the prediction (R2) of 0.58, a root mean square error (RMSE) of 4.56 g/kg, and a ratio of performance to interquartile distance (RPIQ) of 2.05. The predicted SOM content for both legacy (1980 s) and recent (2010 s) periods showed similar spatial distribution patterns throughout the Huanghuaihai Plain. Generally, there was a noticeable trend of increasing SOM content from northwest to southeast, with higher values observed in Jiangsu and lower values concentrated in Henan, Hebei, and Shandong regions within the study area. Over time, SOM contents in the Huanghuaihai Plain showed an increasing trend, with an average increase of 5.90 g/kg from legacy to recent period. This study provides a promising approach for improving SOM prediction and mapping accuracy at large scales, particularly when recent data availability is limited.
期刊介绍:
Geoderma - the global journal of soil science - welcomes authors, readers and soil research from all parts of the world, encourages worldwide soil studies, and embraces all aspects of soil science and its associated pedagogy. The journal particularly welcomes interdisciplinary work focusing on dynamic soil processes and functions across space and time.