高效解离难溶磷素根系分泌物研究进展

参考文献/References:

［1］章爱群,贺立源,赵会娥,等.根分泌物对活化土壤中难溶性磷的作用[J].水土保持学报,2008,22(5):102-105.[2]沈善敏.中国土壤肥力[M].北京: 中国农业出版社,1998.[3]Aguilar S A,Van D A.Root-phosphate metabolism induced by the alkaline up take pattern of legume utilizing symbiotically fixed nitrogen[J].Plant Soil,1981,61:27-42.[4]朱兆良.我国氮肥的使用现状、问题和对策[C]//李庆违、朱兆良、于天仁，等.中国农业持续发展中的肥料问题.南京: 江苏科学技术出版社,1998.[5]陆欣春,韩晓增,邹文秀,等.作物高效利用土壤磷素的研究进展[J].土壤与作物,2013,2(24): 164-172.[6]高家合,邓碧儿,曾秀成,等.烟草磷效率的基因型差异及其与根系形态构型的关系[J].西北植物学报,2010,30(8): 1606-1613.[7]韩配配,秦璐,李银水,等.不同营养元素缺乏对甘蓝型油菜苗期生长和根系形态的影响[J].中国油料作物学报,2016,38(1): 88-97.[8]Raghothama K G.Phosphate acquisition[J].Annual Review of Plant Physiology and Plant Molecular Biology,1999,50: 665-693.[9]王树起,韩晓增,李晓慧,等.缺磷胁迫下的大豆根系形态特征研究[J].农业系统科学与综合研究,2010,26(2):192-196.[10]张义凯,陈范骏,李隆,等.不同类型的玉米根系对间作体系磷高效吸收以及生产力的影响[J].中国科学（生命科学）,2012,42(10):841-849.[11]杨利宁,敖特根,白银,等.苜蓿根系分泌物对土壤中难溶性磷的影响[J].草业科学,2015,32(8): 1216-1221.[12]Pomilio A B,Leicach S R,Grass M Y,et al.Constituents of the root exudates of Avena fatua grown under far-infrared-enriched light [J].Phytochemical Analysis,2000,11(5):304-308.[13]Qiao Y F,Han X Z,Miao S J.Genotypic variation in P utilization of soybean(Glycine max L.) grown in various insoluble P sources [J].Soybean Science,2007,26(4):571-577.[14]申建波,张福锁,毛达如,等.磷胁迫下大豆根分泌有机酸的动态变化[J].中国农业大学学报,1998(3):44-48 [15]Song C,Han X Z,Wang E L.Phosohorus budget and organic phosphorus fractions in response to long-term applications of chemical fertilizers and pig manure in a Mollisol[J].Soil Research,2011,49: 253-260.[16]王明霞,周志峰.植物根系分泌物在植物中的作用[J].安徽农业科学,2012,40(11): 63-59.〖HJ1.8mm〗[17]Zhang F S,Ma J,Cao Y P.Phosphorus deficiency enhances root excudation of low-molecular weight oranic acids and utilization of sparingly soluble inorganic phophorus by radish(Raghanus sativus L.) and rape(Brassica napus L.) plants [J].Plant and Soil,1997,196:261-264.[18]Zhao K,Wu Y Y.Rhizosphere calcareous soil P-extraction at the expense of organic carbon from root-exuded organic acids induced by phosphorus deficiency in several plant species [J].Soil Science Plant Nutrition,2014,60(5): 640-650.[19]孙磊,陈兵林,周治国.麦棉套作Bt棉花根系分泌物对土壤速效养分及微生物的影响[J].棉花学报,2007,19(1): 18-22.[20]田中民,李春俭,王晨,等.缺磷白羽扇豆排根与非排根区根尖分泌有机酸的比较[J].植物生理学报,2000,26(4): 317-322.[21]沈宏,菊井森士,严小龙.大豆根分泌物活化难溶性铝磷的研究[J].水土保持学报,2005,19(2): 68-70，83.[22]郭再华,贺立源,徐才国,等.不同耐低磷水稻基因型秧苗对难溶性磷的吸收利用[J].作物学报,2005,31(10):1322-1327.[23]Nadine S,Christoph B,Stephan S,et al.Profiling of secondary metabolites in root exudates of Arabidopsis thaliana[J].Phytochemistry,2014,108: 35-46.[24]Sasaki T,Yamamoto Y,Ezaki B,et al.A wheat gene encoding aluminum activated malate transporter [J].Pant Journal,2004,37: 645-653.[25]Mugai E N,Agong S G,Malated with citrate secretion[J].Soil Science Plant Nutrition,2000,46: 939-950.[26]Zhang F S,Ma J,Cao Y P,et al.Phosphorus deficiency enhances root exudation of low-molecular weight organic acids and utilization of sparingly soluble inorganic phosphorus by radish(Raghanus sativus L.) and rape(Brassica napus L.) plants [J].Plant and Soil,1997,196: 261-264.[27]Jamie A,O’Rourke S,Samuel Y,et al.An RNA-Seq transcriptome analysis of orthophosphate-deficient white lupin reveals novel insights into phosphorus acclimation in plants[J].Plant Physiology,2013,161: 705-724.[28]Secco D,Shou H X,Whelan J,et al.RNA-seq analysis identifies an intricate regulatory network controlling cluster root development in white lupin［J］.BMC Genomics,2014,15: 230.[29]Laura Z,Silvia V,Anita Z,et al.Transcriptional and physiological analyses of Fe deficiency response in maize reveal the presence of strategy I components and Fe/P interactions[J].BMC Genomics,2017,18: 154..[30]Su S Z,Wu L,Liu D,et al.Genome-wide expression profile of maize root response to phosphorus deficiency revealed by deep sequencing[J].Journal of Integrative Agriculture,2014,13(6): 1216-1229.