Yin Xingjie, Zhao Haile, Luo Yuchao, Jin Yuling, Pan Zhihua, Liu Wenting, An Pingli
College of Land Science and Technology, China Agricultural University, Beijing, China.
College of Resources and Environmental Science, China Agricultural University, Beijing, China.
PLoS One. 2025 May 30;20(5):e0325076. doi: 10.1371/journal.pone.0325076. eCollection 2025.
The calcium accumulation problem (CAP) in cinnamon soil regions of northern China significantly impacts crop yields. Identifying and mitigating CAP is crucial for improving soil quality and agricultural productivity. This study, based on field research in Aohan Banner, Chifeng City, utilizes legacy soil maps to construct a CAP dataset and evaluates the predictive performance of several machine learning models. The influence of topography on CAP is also analyzed. Key findings include: (1) In the study area, CAP predominantly manifests as block formations in dry land. Of the surveyed farmers, 58% report CAP in their cropland, with 84% noting reduced yields, though 76% have not implemented any specific mitigation measures. (2) Evaluation of machine learning models shows that tree-based models (BRT and XGBoost) outperform others in predicting CAP, with BRT demonstrating superior mapping capabilities. (3) Spatial analysis reveals that CAP is more common in the eastern and central regions of Aohan Banner, particularly in terrains such as slopes, ridges, and peaks. Additionally, the cold-to-hot zone ratio increases significantly as terrain transitions from dry to humid. (4) Regression analysis shows a strong negative correlation between terrain variables (e.g., MRVBF and GEO) and the likelihood of CAP. A further analysis indicates that CAP is more likely to occur in areas with higher soil erosion risk. These findings provide valuable insights for identifying CAP in regional soil mapping and for guiding future research in this area.
中国北方肉桂土地区的钙积累问题(CAP)对作物产量有显著影响。识别和缓解钙积累问题对于改善土壤质量和农业生产力至关重要。本研究基于赤峰市敖汉旗的实地调查,利用旧有土壤图构建钙积累问题数据集,并评估了几种机器学习模型的预测性能。同时还分析了地形对钙积累问题的影响。主要研究结果包括:(1)在研究区域,钙积累问题在旱地主要表现为块状形态。在接受调查的农民中,58%报告其农田存在钙积累问题,84%指出产量下降,不过76%尚未采取任何具体的缓解措施。(2)机器学习模型评估表明,基于树的模型(BRT和XGBoost)在预测钙积累问题方面优于其他模型,其中BRT展现出卓越的制图能力。(3)空间分析显示,钙积累问题在敖汉旗东部和中部地区更为常见,特别是在斜坡、山脊和山峰等地形中。此外,随着地形从干旱向湿润转变,冷温区与热温区的比例显著增加。(4)回归分析表明,地形变量(如MRVBF和GEO)与钙积累问题发生的可能性之间存在很强的负相关。进一步分析表明,钙积累问题更有可能发生在土壤侵蚀风险较高的地区。这些研究结果为在区域土壤制图中识别钙积累问题以及指导该领域未来研究提供了有价值的见解。