Hyperspectral Inversion of Soil Carbon and Nutrient Contents in the Yellow River Delta Wetland by Leichao Nie, Zhiguo Dou, Lijuan Cui, Xiying Tang, Xiajie Zhai, Xinsheng Zhao, Yinru Lei, Jing Li, Jinzhi Wang, Wei Li

“…The correlation between soil carbon, nitrogen, and phosphorus contents, and soil spectra was also analyzed, sensitive bands were selected, and the partial least-squares (PLS) method, support vector machine (SVM) method, and random forest (RF) model were used to establish the inversion model based on the characteristic bands. …”
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Inversion of soil carbon, nitrogen, and phosphorus in the Yellow River Wetland of Shaanxi Province using field in situ hyperspectroscopy by Leichao Nie, Leichao Nie, Leichao Nie, Leichao Nie, Keying Qu, Keying Qu, Keying Qu, Keying Qu, Lijuan Cui, Lijuan Cui, Lijuan Cui, Lijuan Cui, Xiajie Zhai, Xiajie Zhai, Xiajie Zhai, Xiajie Zhai, Xinsheng Zhao, Xinsheng Zhao, Xinsheng Zhao, Xinsheng Zhao, Yinru Lei, Yinru Lei, Yinru Lei, Yinru Lei, Jing Li, Jing Li, Jing Li, Jing Li, Jinzhi Wang, Jinzhi Wang, Jinzhi Wang, Jinzhi Wang, Rumiao Wang, Rumiao Wang, Rumiao Wang, Rumiao Wang, Wei Li, Wei Li, Wei Li, Wei Li

“…These results provide solid theoretical and technical support for developing the optimal model for the quantitative inversion of wetland surface soil carbon, nitrogen, and phosphorus based on in situ hyperspectral technology.…”
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Increase in Soil Carbon Pool Stability Rather Than Its Stock in Coastal Saline—Alkali Ditches following Reclamation Time by Xiangrong Li, Zhen Liu, Jing Li, Huarui Gong, Yitao Zhang, Zhigang Sun, Zhu Ouyang

Subjects: “…soil carbon pool…”
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Spatial Variation of Soil Organic Carbon from Bamen Bay Mangrove in Southern China by Wanyu Wen, Yaojun Zhu, Jia Guo, Xu Pan, Jing Li, Yanru Guo, Julan Guo, Gaojie Wu, Yuhang Wang, Minghao Gong

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Soil Microbes from Saline–Alkali Farmland Can Form Carbonate Precipitates by Zhen Liu, Jing Li, Yitao Zhang, Huarui Gong, Ruixing Hou, Zhigang Sun, Zhu Ouyang

“…The formation of soil inorganic carbon in saline–alkali lands is of great significance for enhancing soil carbon sequestration. As for the formation mechanisms, in addition to the discovered abiotic mechanisms, the microbial mechanisms remain unclear. …”
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Mitigated Greenhouse Gas Emissions in Cropping Systems by Organic Fertilizer and Tillage Management by Huarui Gong, Jing Li, Zhen Liu, Yitao Zhang, Ruixing Hou, Zhu Ouyang

“…The reported studies confirmed that organic fertilizer application could promote soil carbon sequestration and mitigate greenhouse gas emissions under suitable tillage practices in a short period of time. …”
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Long-Term Benefits of <i>Cenchrus fungigraminus</i> Residual Roots Improved the Quality and Microbial Diversity of Rhizosphere Sandy Soil through Cellulose Degradation in the Ulan... by Jing Li, Lili Zhang, Shikui Yu, Zongzhi Luo, Dewei Su, Dan Zheng, Hengyu Zhou, Jieyi Zhu, Xingsheng Lin, Hailing Luo, Christopher Rensing, Zhanxi Lin, Dongmei Lin

“…The residual roots also significantly enhanced the soil carbon stocks from 2018–2022. Soil dehydrogenase, nitrogenase, and N-acetyl-β-D-glucosidase (S-NAG) were significantly affected from 2019–2022. …”
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