长期保护性耕作土壤有机碳矿化特征及其影响因子OA
Characteristics of Soil Organic Carbon Mineralization and Its Influencing Factors Under Long-Term Conservation Tillage
[目的]研究不同耕作措施下土壤有机碳(SOC)矿化特征及其影响因子,明确保护性耕作下 SOC 的稳定性,揭示土壤碳转化规律,为干旱区农田管理提供科学依据.[方法]选取河南省洛阳市始于 1999 年的长期保护性耕作田间定位试验中的 3 个处理:传统耕作秸秆移除(CT)、深松秸秆覆盖还田(SS)和免耕秸秆覆盖还田(NT),采集 0-10、10-20和 20-30 cm 土层土壤样品,测定土壤理化性质和碳矿化量,分析有机碳矿化特征及其影响因子.[结果]经过长达 25年连续不同耕作,(1)与 CT 处理相比,NT 处理显著提高了 0-10 cm 土层的养分、土壤含水量(SWC)、氧化还原电位(Eh)和微生物量碳(MBC)含量;SS 处理显著提高 10-20 和 20-30 cm 土层养分、SWC 和土壤容重(BD),显著降低 0-10 和10-20 cm 土层无机碳(SIC)含量.(2)与 CT 处理相比,SS 处理显著提高 0-30 cm 土层 SOC、颗粒态有机碳(POC)及其组分和矿物结合态有机碳(MAOC)含量;NT 处理 0-20 cm 土层的 SOC、POC、f-POC(细颗粒有机碳)和 MAOC 含量较CT 处理显著提高 10.8%—20.6%.(3)与 CT 相比,SS 和 NT 处理均显著提高 0-30 cm 土层 SOC 储量,增幅为 10.2%—56.2%;1999-2015、1999-2019 和 1999-2024 年 SS 较 CT 处理土壤 SOC 固存速率分别显著提高 245.7%、20.3%和 35.8%.(4)与 CT 相比,SS 处理显著降低了 0-10 和 20-30 cm 土层的起始阶段和最终累积 SOC 矿化量;NT 处理显著降低了 10-20 cm土层的起始阶段和最终累积 SOC 矿化量.(5)通过 PLS-PM 模型分析表明,土壤物理特性(pH、SWC 和 BD)对 MBC 有直接负效应(0.82);对 MAOC(0.11)和 POC(0.33)有间接正效应.MBC 对有机碳阶段(0.27)和累积矿化(0.28)有间接正效应.[结论]连续 25 年的 SS 处理降低 MBC 含量,减少土壤碳矿化,有利于 SOC 积累和土壤肥力提升.MBC 和 MAOC 是驱动土壤有机碳矿化的关键影响因子.
[Objective]This study aimed to investigate the characteristics of soil organic carbon(SOC)mineralization and its influencing factors under different tillage practices,clarify the stability of OC under conservation tillage,and reveal the transformation patterns of C,so as to provide a scientific basis for farmland management in arid areas.[Method]This study utilized a long-term conservation tillage field experiment established in 1999 in Luoyang,Henan Province.Three treatments were selected:conventional tillage with straw removal(CT),subsoiling with straw mulching and incorporation(SS),and no-till with straw mulching(NT).Soil samples were collected from the 0-10 cm,10-20 cm,and 20-30 cm soil layers.Soil physicochemical properties and carbon mineralization were measured,and the characteristics of SOC mineralization and its influencing factors were analyzed.[Result]After 26 years of continuous contrasting tillage practices:(1)Compared with CT,NT significantly increased soil nutrients,soil water content(SWC),redox potential(Eh),and microbial biomass carbon(MBC)content in the 0-10 cm layer.SS significantly increased soil nutrients,SWC,and bulk density(BD)in the 10-20 cm and 20-30 cm soil layers,while significantly decreasing soil inorganic carbon(SIC)content in the 0-10 cm and 10-20 cm soil layers.(2)Compared with CT,SS significantly increased the content of SOC,particulate organic carbon(POC)and its fractions,and mineral-associated organic carbon(MAOC)across 0-30 cm soil layers.NT significantly increased the content of SOC,POC,fine particulate organic carbon(f-POC),and MAOC in the 0-20 cm layers by 10.8%-20.6%compared with CT.(3)Compared with CT,both SS and NT significantly increased SOC stocks across 0-30 cm soil layers by 10.2%-56.2%.The SOC sequestration rates under SS were significantly higher than under CT by 245.7%(1999-2015),20.3%(1999-2019),and 35.8%(1999-2024).(4)Compared with CT,SS significantly reduced the initial and final cumulative SOC mineralization in the 0-10 cm and 20-30 cm layers.NT significantly reduced the initial and final cumulative SOC mineralization in the 10-20 cm soil layer.(5)Partial Least Squares Path Modeling(PLS-PM)analysis revealed that soil physical properties(pH,SWC and BD)had a direct negative effect on MBC(path coefficient=-0.82),and indirect positive effects on MAOC(0.11)and POC(0.33).MBC had an indirect positive effect on the SOC mineralization rate(0.27)and cumulative mineralization(0.28).[Conclusion]Continuous SS practice for 25 years reduced MBC content,decreased SOC mineralization,and promoted SOC accumulation and soil fertility enhancement.MBC and MAOC were key driving factors influencing SOC mineralization.
叶梦雪;苗玉红;郑凤君;王宜伦;张倩;曾冲;武雪萍;吴会军;田文仲;吕军杰;李俊红
河南农业大学资源与环境学院,郑州 450002河南农业大学资源与环境学院,郑州 450002河南农业大学资源与环境学院,郑州 450002河南农业大学资源与环境学院,郑州 450002河南农业大学资源与环境学院,郑州 450002河南农业大学资源与环境学院,郑州 450002中国农业科学院农业资源与农业区划研究所/北方干旱半干旱耕地高效利用全国重点实验室,北京 100081||中国农业科学院洛阳旱农试验基地,河南 洛阳 471023中国农业科学院农业资源与农业区划研究所/北方干旱半干旱耕地高效利用全国重点实验室,北京 100081||中国农业科学院洛阳旱农试验基地,河南 洛阳 471023洛阳市农林科学研究院,河南 洛阳 471022||中国农业科学院洛阳旱农试验基地,河南 洛阳 471023洛阳市农林科学研究院,河南 洛阳 471022||中国农业科学院洛阳旱农试验基地,河南 洛阳 471023洛阳市农林科学研究院,河南 洛阳 471022||中国农业科学院洛阳旱农试验基地,河南 洛阳 471023
保护性耕作碳矿化碳组分矿物结合态有机碳微生物量碳土壤理化特性
conservation tillagecarbon mineralizationcarbon fractionsmineral-associated organic carbonmicrobial biomass carbonsoil physico-chemical properties
《中国农业科学》 2026 (10)
2181-2193,13
河南省重点研发与推广专项(科技攻关)(252102110197)、河南省自然科学基金(262300422481)、2023年高层次人才专项支持基金(30501580)
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