Organo-mineral complexes in soil colloids: Implications for carbon storage in saline-alkaline paddy soils from an eight-year field experiment

IF 5.2 2区 农林科学 Q1 SOIL SCIENCE
Mengmeng CHEN , Shirong ZHANG , Lu LIU , Baojian CHANG , Yuyi LI , Xiaodong DING
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Abstract

The combination of organic carbon (OC) and reactive minerals is a crucial mechanism of soil carbon (C) storage, which is regulated by the formation of organo-mineral complexes on the surface of soil colloids. The effect of organic fertilizer on the storage mechanism of OC in soil colloids was studied through an 8-year field experiment, which included four treatments: i) no fertilization (control, CK), ii) only mineral N, P, and K fertilization (NPK), iii) NPK plus a low level (450 kg C ha-1 year-1) of organic fertilization (NPKC1), and iv) NPK plus a high level (900 kg C ha-1 year-1) of organic fertilization (NPKC2). The main results indicated that organic fertilizer addition significantly increased the content of aromatic-C, which was 158.7% and 140.0% higher in soil colloids than in bulk soil in the NPKC1 and NPKC2 treatments, respectively. X-ray photoelectron spectroscopy further demonstrated that the relative proportion of C=C group on the surface of soil colloids was increased by 20.1% and 19.1% in the NPKC1 and NPKC2 treatments, respectively, compared with the CK. In addition, compared with the NPK treatment, the content of reactive minerals (such as Fe and Al oxides) significantly increased with organic fertilization, which was positively correlated with C=C group in soil colloids. This indicates that aromatic-C may be retained by the formation of aromatic-mineral complexes with reactive minerals in soil colloids. Organic fertilization also significantly increased OC storage efficiency (OCSE), which was significantly higher in the NPKC1 treatment than in the NPKC2 treatment. Therefore, a moderate amount of organic fertilizer application is a better agronomic practice to increase OCSE and OC storage in saline-alkaline paddy soils.

土壤胶体中的有机矿物质复合物:八年田间试验对盐碱水稻土碳储存的影响
有机碳(OC)与活性矿物质的结合是土壤碳(C)储存的重要机制,它受土壤胶体表面有机矿物质复合物形成的调节。通过为期 8 年的田间试验研究了有机肥对土壤胶体中 OC 储存机制的影响,试验包括四个处理:i) 不施肥(对照,CK);ii) 仅施用矿物氮、磷、钾肥(NPK);iii) NPK 加低浓度(450 千克 C ha-1 年-1)有机肥(NPKC1);iv) NPK 加高浓度(900 千克 C ha-1 年-1)有机肥(NPKC2)。主要结果表明,添加有机肥显著提高了芳香族碳的含量,在 NPKC1 和 NPKC2 处理中,土壤胶体中的芳香族碳含量分别比块状土壤中高 158.7% 和 140.0%。X 射线光电子能谱进一步表明,与 CK 相比,NPKC1 和 NPKC2 处理中土壤胶体表面 C=C 基团的相对比例分别增加了 20.1%和 19.1%。此外,与 NPK 处理相比,活性矿物质(如铁和铝的氧化物)的含量随有机肥的施用而显著增加,这与土壤胶体中的 C=C 基团呈正相关。这表明,土壤胶体中的反应性矿物质可能通过形成芳香-矿物质复合物来保留芳香-C。施用有机肥还能明显提高 OC 储存效率(OCSE),NPKC1 处理的 OC 储存效率明显高于 NPKC2 处理。因此,适量施用有机肥是在盐碱水稻土中提高 OCSE 和 OC 储存的较好农艺措施。
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来源期刊
Pedosphere
Pedosphere 环境科学-土壤科学
CiteScore
11.70
自引率
1.80%
发文量
147
审稿时长
5.0 months
期刊介绍: PEDOSPHERE—a peer-reviewed international journal published bimonthly in English—welcomes submissions from scientists around the world under a broad scope of topics relevant to timely, high quality original research findings, especially up-to-date achievements and advances in the entire field of soil science studies dealing with environmental science, ecology, agriculture, bioscience, geoscience, forestry, etc. It publishes mainly original research articles as well as some reviews, mini reviews, short communications and special issues.
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