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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2024年12

Page:

73-79

Research Field:

Publishing date:

Info

Title:

Analysis of Organic Acid Components in Root Exudates and Their Effects on Soil Nutrients and Enzyme Activities

Author(s):

LI Yanlin; HE Huaipeng; LIU Jing; DENG Xiaojuan

(College of Chemistry and Environmental Engineering，Chongqing University of Arts and Sciences/Chongqing Key Laboratory for Resource Utilization of Heavy Metal Wastewater，Chongqing 402160)

Keywords:

root exudates; organic acids; soil nutrients; soil enzyme activity

PACS:

S 812.99

DOI:

10.11937/bfyy.20234429

Abstract:

K.pygmaea,Gueldenstaedtia diversifolia，and A.rivularis of the three typical plants in alpine meadow were selected as the research objects.The distribution characteristics of organic acids in the root exudates were analyzed by high performance liquid chromatography，and the detected organic acid components were added to the soil and cultivated for 21 days，and their effects on the main nutrients and enzyme activities in the soil were studied，in order to explore the organic acid of root exudates regulation mechanism of soil productivity.The results showed that lactic acid，acetic acid，citric acid and fumaric acid were detected in root exudates of three plants.Lactic acid was detected in the roots of three plants，with concentrations of 7.02，13.25,4.84 mg·L-1，respectively.Acetic acid was detected in K.pygmaea and A.rivularis，and the concentrations were 19.32,7.61 mg·L-1，respectively.Fumaric acid was detected in K.pygmaea and Gueldenstaedtia diversifolia，with concentrations of 0.32,0.39 mg·L-1 respectively.Only citric acid was detected in root exudates of K.pygmaea with concentrations of 5.24 mg·L-1.Different organic acids significantly increased the contents of available nitrogen and available phosphorus in soil，and showed different concentration effects (P＜0.05).The activities of soil urease，sucrase and catalase increased with the increase of lactic acid and fumaric acid concentration，and decreased with the increase of acetic acid concentration.Organic acids promoted the activities of soil urease，sucrase and catalase，except that high concentration (20 mg·L-1) of acetic acid inhibited the activity of soil catalase.The results showed that the organic acids in root exudates were beneficial to increase the content of main nutrients in soil，promote soil enzyme activity and improve soil productivity.

References:

［1］吴林坤，林向民，林文雄．根系分泌物介导下植物-土壤-微生物互作关系研究进展与展望［J］．植物生态学报，2014，38(3)：298-310.［2］张文博，王岳俊．荒漠草原针茅群落根系分泌物对土壤微生物群落结构的影响［J］．北方园艺，2021(22)：104-111.［3］SALEH D，JARRY J，RANI M，et al．Diversity，distribution and multi-functional attributes of bacterial communities associated with the rhizosphere and endosphere of timothy (Phleum pratense L．)［J］．Journal of Applied Microbiology，2019，127(3)：794-811.［4］ZHALNINA K，LOUIE K B，HAO Z，et al．Dynamic root exudate chemistry and microbial substrate preferences drive patterns in rhizosphere microbial community assembly［J］．Nature Microbiology，2018(3)：470-480.［5］杨青，刘晓微．根系分泌物研究进展综述［J］．区域治理，2022(20)：141-143，155.［6］HU L，ROBERT C A M，CADOT S，et al．Root exudate metabolites drive plant-soil feedbacks on growth and defense by shaping the rhizosphere microbiota［J］．Nature Communications，2018(9)：2738.［7］WU H，WANG X，HE X，et al．Effects of root exudates on denitrifier gene abundance，community structure and activity in a micro-polluted constructed wetland［J］．The Science of the Total Environment，2017，598：697-703.［8］CHEN Z J，TIAN Y H，ZHANG Y，et al．Effects of root organic exudates on rhizosphere microbes and nutrient removal in the constructed wetlands［J］．Ecological Engineering，2016，92：243-250.［9］GU Y，WANG X，YANG T，et al．Chemical structure predicts the effect of plant-derived low-molecular weight compounds on soil microbiome structure and pathogen suppression［J］．Functional Ecology，2020，34(10)：2158-2169.［10］WEN T，YUAN J，HE X，et al．Enrichment of beneficial cucumber rhizosphere microbes mediated by organic acid secretion［J］．Horticulture Research，2020(1)：662-674.［11］钟正燕，陈炳发，宋雁辉，等．根分泌物有机酸的研究方法［J］．环境科学导刊，2019，38(S1)：12-18.［12］YUAN Y，ZHAO W，ZHANG Z，et al．Impacts of oxalic acid and glucose additions on N transformation in microcosms via artificial roots［J］．Soil Biology and Biochemistry，2018，121：16-23.［13］YIN X，LU J，WANG Y，et al．The abundance of nirS-type denitrifiers and anammox bacteria in rhizospheres was affected by the organic acids secreted from roots of submerged macrophytes［J］．Chemosphere，2020，240：124903.［14］DU L，ZHU Z，QI Y，et al．Effects of different stoichiometric ratios on mineralisation of root exudates and its priming effect in paddy soil［J］．The Science of the Total Environment，2020，743：140808.［15］陆红飞，乔冬梅，齐学斌，等．外源有机酸对土壤pH值、酶活性和Cd迁移转化的影响［J］．农业环境科学学报，2020，39(3)：542-553.［16］向雪梅，德科加，冯廷旭，等．外源氮素添加对高寒草甸植物-土壤养分月际变化的影响［J］．草地学报，2022，30(7)：1836-1845.［17］高雪峰，贾渊．荒漠草原植物根分泌物中有机酸组分分析及其生态效应研究［J］．生态环境学报，2020，29(10)：1927-1934.［18］鲁如坤．土壤农业化学分析方法［M］．北京：中国农业科技出版社，2000.［19］关松荫．土壤酶及其研究法［M］．北京：农业出版社，1986.［20］CHEN S，WAGHMODE T R，SUN R，et al．Root-associated microbiomes of wheat under the combined effect of plant development and nitrogen fertilization［J］．Microbiome，2019，7(1)：136.［21］严文辉，李志丹，邓逐流，等．番茄根系分泌物苹果酸和丁香酸对土壤细菌群落结构和潜在功能的影响［J］．江苏农业学报，2022，38(5)：1340-1347.［22］杜思垚，方娅婷，鲁剑巍．根系分泌物对作物养分吸收利用的影响研究进展［J］．华中农业大学学报，2023，42(2)：147-157.［23］DONG Z，WEI T，ZHU Q．Root exudates in Hippophae rhamnoides of different growth states detected by GC-MS［J］．Asian Journal of Chemistry，2013，25(18)：10076-10078.［24］于会泳，宋晓丽，王树声，等．低分子量有机酸对植烟土壤酶活性和细菌群落结构的影响［J］．中国农业科学，2015，48(24)：4936-4947.［25］张根柱，张社奇，邵丽，等．外源柠檬酸对黄土高原塿土土壤养分的影响［J］．西北林学院学报，2011，26(2)：47-51.

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Last Update: 2024-07-11