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1、stxb201209041249干旱胁迫下AM真菌对矿区土壤改良与玉米生长效应李少朋1,毕银丽1基金项目:教育部博士点基金项目(20090023110009);十二五科技支撑计划—晋陕蒙接壤区煤炭基地生态建设关键技术与示范(2012BAC10B03)*通讯作者Correspondingauthor.,Email:ylbi88@126.com,陈昢圳2,陈树林1,张延旭1,孔维平1,王瑾1(1.中国矿业大学(北京)地球科学与测绘工程学院,北京100083;2.中国农业大学资源与环境学院,北京100193)摘要:本研究以神东矿区塌陷区退化土壤为供试基质,
2、以玉米为宿主植物,研究在干旱胁迫下,丛枝菌根真菌(arbuscularmycorrhizalfungi)对玉米生长和养分吸收的影响,以及对矿区退化土壤的改良作用。结果表明:干旱胁迫下,接种AMF显著提高了玉米根系侵染率和生物量,玉米叶片相对含水量和叶色值明显高于对照组;接种组玉米地上部分磷、氮、钙和根系部分磷、钾、钙含量显著增加;接种AMF后,玉米根际土壤总球囊霉素和易提取球囊霉素含量分别增加了36.2%和33%,且根际土壤中有机质含量显著增加。由此可见,接种AMF促进了玉米对矿质养分的吸收,缓解了干旱造成的玉米生长的不利影响,提高了根际土壤中有机质
3、含量,对矿区退化土壤改良有重要意义。关健词:丛枝菌根;干旱胁迫;煤矿区;玉米;球囊霉素中图分类号:X171.4文献标识码:AEffectsofAMFonsoilimprovementandmaizegrowthinminingareaunderdroughtstressLIShaopeng1,BIYinli1,CHENPeizhen2,CHENShulin1,ZHANGYanxu1,KONGWeiping1,WANGJin1(1.CollegeofGeoscienceandSurveyingEngineering,ChinaUniversityofM
4、ining&Technology,Beijing100083,China;2.CollegeofResourcesandEnvironmentalSciences,ChinaAgriculturalUniversity,Beijing100193,China)Abstract:ShendongminingareaisoneofthelargestcoalfieldandthemostimportantcoalproductionbaseinChina.Waterisanimportantlimitingfactorofecologicalandenv
5、ironmentalprotectioninthisareawhichbelongstothetypicalsemi-arid,semi-desertplateaucontinentalclimate.Undergroundminingisthemainformofcoalmining,whichwouldinevitablyleadtogroundsubsidence.Surfacemoistureandnutrientlossformalargenumberofcrackswerecausedbytheprocess.Watershortageh
6、avebecomeaseriousprobleminminingarea.Howeverwaterisnecessaryforbiologicalsurvival.Lackofwaterwouldhinderthegrowthofcropandexacerbatetheagriculturaldrought.Arbuscularmycorrhizalfungi(AMF)isaubiquitoussymbioticfungi.ThesymbiontsbodycouldbeformedbyAMFwithmorethan80%ofterrestrialpl
7、ant.ItfindthatusingAMFcouldpromotetoabsorbmineralnutrientsandwaterbyplant,enhancethestressresistanceanddiseaseresistanceofcorn,improvethesoilstructure,increasethesoilfertility,raisethesurvivalrateofseedlingstransplantingandamelioratethevegetationrestorationoflandreclamationinco
8、alminingsubsidencearea.Underdroughtstresscondition,wit