Prediction of soil organic carbon fractions in tropical cropland using a regional visible and near-infrared spectral library and machine learning
文献类型: 外文期刊
作者: Dai, Lingju 1 ; Wang, Zheng 1 ; Zhuo, Zhiqing 3 ; Ma, Yuxin 4 ; Shi, Zhou 1 ; Chen, Songchao 1 ;
作者机构: 1.Zhejiang Univ, Coll Environm & Resource Sci, Hangzhou 310058, Peoples R China
2.Zhejiang Univ, ZJU Hangzhou Global Sci & Technol Innovat Ctr, Hangzhou 311215, Peoples R China
3.Zhejiang Acad Agr Sci, Inst Digital Agr, Hangzhou 310021, Peoples R China
4.Manawatu Mail Ctr, Landcare Res, Private Bag 11052, Palmerston North 4442, New Zealand
关键词: Particularly particulate organic carbon; Mineral-associated organic carbon; Memory-based learning; Spatial interpolation
期刊名称:SOIL & TILLAGE RESEARCH ( 影响因子:6.8; 五年影响因子:7.8 )
ISSN: 0167-1987
年卷期: 2025 年 245 卷
页码:
收录情况: SCI
摘要: Soil organic carbon (SOC) is not a single and uniform entity, therefore understanding SOC fractions, particularly particulate organic carbon (POC) and mineral-associated organic carbon (MAOC), offers valuable insights into SOC dynamics. However, traditional laboratory measurements of SOC fractions are labor-intensive and costly. Therefore, leveraging rapid and cost-effective soil spectroscopy holds significant promise for addressing this challenge. While previous studies have concentrated on predicting SOC fractions using mid-infrared (MIR) spectroscopy, the potential of visible and near-infrared (VNIR) spectroscopy remains relatively unexplored, especially for tropical soils. To fill this gap, we evaluated six machine learning approaches, including three global models (Cubist, random forest (RF), partial least squares regression (PLSR)) and three local models (memory-based learning fitted by applying partial least squares regression (MBL-PLSR) and Gaussian process local regressions (MBL-GPR), non-linear memory-based learning (N-MBL)), for predicting POC and MAOC (g C kg(-1) soil) based on a regional soil VNIR spectral library (224 samples) from lateritic red soil in the tropical region of Guangdong Province, China. We also assessed the impact of variable selection on improving model performance by iteratively evaluating and removing insignificant predictor variables to determine the optimal number of predictors. The results showed that: (1) MBL-PLSR and N-MBL demonstrated commendable predictive performance, attaining coefficients of determination (R-2) of 0.73 and 0.72 for POC, and 0.53 and 0.55 for MAOC on the validation set, respectively, outperforming Cubist and PLSR; (2) variable selection simplified predictive models by identifying the best spectral bands, leading to improved predictive accuracy for both POC (R-2 increased from 0.68 to 0.73) and MAOC (R-2 increased from 0.49 to 0.55); (3) the overall predictive performance of VNIR spectroscopy was higher for POC (R-2 of 0.73) compared to MAOC (R-2 of 0.55), while MAOC could be predicted more accurately by subtracting POC predictions from SOC observations (R-2 of 0.73). The favorable predictive accuracy underscores VNIR spectroscopy's viability for POC predictions. Additionally, MAOC can be well predicted by subtracting the predicted POC from the measured SOC. The outcomes of this study offers valuable insights for predicting SOC fractions using VNIR spectroscopy.
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