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保护性耕作对黑土地土壤剖面胶体磷含量的影响OA

Effects of Conservation Tillage on Colloidal Phosphorus in Soil Profile of Black Land

中文摘要英文摘要

为探究保护性耕作对黑土农田土壤胶体磷(TPcoll)含量的影响,选取东北典型黑土区进行田间长期定位试验,研究秸秆覆盖免耕(NT)和传统耕作(CT)下土壤 0~100 cm剖面胶体磷含量变化及分布规律.结果表明:(1)NT显著增加胶体磷含量(P<0.05),平均增加 33.40%,表层的降幅均大于深层;(2)同一土层,NT 显著增加全磷、有效磷以及胶体钼蓝反应磷(MRP)和胶体钼蓝非反应磷(MUP)的含量(P<0.05),但显著降低表层土壤中MRP在胶体磷中的占比(P<0.05);(3)TPcoll及MRP主要由1~220 nm的细颗粒携带,NT处理FPcoll(1~220 nm的胶体磷)在各土层的平均占比为73.47%,CT为 74.34%,FMRP(1~220 nm的MRP)的占比分别为 59.64%(NT)和 63.22%(CT),NT处理表层土壤FMRP的平均占比较CT处理降低 5.66%;(4)TPcoll含量受土壤理化性质的影响,与容重具有显著负相关关系,与田间持水量、土壤孔隙度、全磷含量、有效磷、全碳及全氮呈显著正相关.可见,保护性耕作有利于改善土壤理化性质,提高了土壤全磷和有效磷的含量,但胶体磷含量的增加可能会增加磷素的流失风险.

[Objective]A long-term field experiment was conducted in a typical black soil area in Northeast China to study the changes in soil colloidal phosphorus content in the 0-100 cm profile under no tillage(NT)and traditional tillage(CT).The purpose was to explore the effect of conservation tillage on the content of colloidal phosphorus and analyze the distribution pattern of colloidal phosphorus in soil under different tillage measures.[Method]The research area is located at the National Field Science Observation and Research Station of Hailun Farmland Ecosystem,Chinese Academy of Sciences(47°26′N,126°38′E),where corn soybean rotation is implemented.After the corn harvest,the soil profiles of farmlands were collected and divided into eight layers:0-5,5-10,10-15,15-20,20-40,40-60,60-80 and 80-100 cm.The contents of colloidal phosphorus and soil physical and chemical indicators in each soil layer were determined to study the variations and distribution patterns of colloidal phosphorus content in the 0-100 cm soil profile under straw mulching no-tillage(NT)and conventional tillage(CT).[Result]NT significantly increased the content of colloidal phosphorus(P<0.05),with an average increase of 33.40%.In the same soil layer,NT significantly increased the contents of total phosphorus and available phosphorus,and the average contents of colloidal molybdate reactive phosphorus(MRP)and colloidal molybdate unreactive phosphorus(MUP)(P<0.05).Among them,MRP increased by 18.44%and MUP increased by 49.19%,but NT significantly decreased the proportion of MRP in colloidal phosphorus in the surface soil by 12.21%(P<0.05).Tpcoll(colloidal phosphorus)and colloidal MRP were mainly carried by fine particles of 1-220 nm.The average proportion of Fpcoll(1-220 nm colloidal phosphorus)in each soil layer under NT treatment was 73.47%,and that under CT treatment was 74.34%.The proportion of FMRP(1-220 nm MRP)was 59.64%under NT treatment and 63.22%under CT treatment,and the average proportion of FMRP in the surface soil under NT treatment was 5.66%lower than that under CT treatment.The content of colloidal phosphorus was affected by soil physical and chemical properties,showing a significant negative correlation with bulk density and a significant positive correlation with field capacity,soil porosity,total phosphorus content,available phosphorus,total carbon,and total nitrogen.[Conclusion]In conclusion,conservation tillage generally increases the contents of colloidal phosphorus,total phosphorus,and available phosphorus in each soil layer.This change might be due to the influence of NT on soil physical and chemical properties,and the increase in colloidal phosphorus content might increase the risk of phosphorus loss.

周苏丹;李建业;朱雪骐;刘春龙;梁新强

中国科学院东北地理与农业生态研究所黑土区农业生态重点实验室,哈尔滨 150081||中国科学院大学,北京 100049中国科学院东北地理与农业生态研究所黑土区农业生态重点实验室,哈尔滨 150081中国科学院东北地理与农业生态研究所黑土区农业生态重点实验室,哈尔滨 150081中国科学院东北地理与农业生态研究所黑土区农业生态重点实验室,哈尔滨 150081浙江大学环境与资源学院,杭州 310058

农业科技

保护性耕作胶体磷黑土土壤剖面

Conservation tillageColloidal phosphorusBlack soilsSoil profile

《土壤学报》 2026 (1)

278-288,11

中国科学院国际合作局国际伙伴计划(131323KYSB20210004)、黑龙江省生态环境保护科研项目(HST2023TR001)和浙江省三农九方科技合作项目(2024SNJF013)资助 Supported by the International Partnership Program of Chinese Academy of Sciences(No.131323KYSB20210004),the Research Project on Ecological Environment Protection in Heilongjiang Province(No.HST2023TR001),and the Zhejiang Provincial Science and Technology Cooperation Program for Agriculture,Rural Areas,and Farmers(No.2024SNJF013)

10.11766/trxb202408140327

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