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硫对苗期水稻根表胶膜形成的影响(英文)

Influence of soil-applied sulfur on the formation of iron plaque on the root surface of rice (Oryza Sativa L.) seedlings
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摘要 通过土-砂根际盒培养试验研究了施硫(0,30 mg.kg-1,SO2-4-S)对水稻苗期根表胶膜形成的影响.结果表明,施硫显著提高ACA(乙酸钠-柠檬酸钠-抗坏血酸)浸提的24天和48天苗龄根表胶膜铁锰含量,即施硫促进水稻根表胶膜形成,但其对8天苗龄根表胶膜影响不明显.SEM-EDX观察发现,施硫导致水稻根表有更多颗粒状聚集,尤其在根的基部.可见,硫可以通过调控水稻根表胶膜形成来影响根系对营养元素的吸收. Influence of soil-applied sulfur(S)(0,30 mg.kg-1,SO 2 4-S) on the formation of iron plaque in the root surface of rice seedlings(Oryza sativa L.) was investigated in a controlled soilsand culture experiment.Application of S induced the formation of iron plaque in the root surface because the application of S increased significantly the ACA(ascorbic-citrate-acetic) extractable Fe and Mn contents in iron plaque on the root surface of 24-and 28-days-old rice seedlings,but the differences proved to be not significant on the root surface of 8-days-old rice seedlings.SEM-EDX image and analysis of iron plaque clearly revealed that differences of polymer particulate iron plaque deposition were the biggest between tip and top root segments in relation to the S treatment.The results provide the evidence that S is involved in the regulation of the uptake of other nutrients by the expression of iron plaque formation on the root surface of rice.
作者 吴丛杨慧 胡正义 S.Haneklaus 樊建凌 章钢娅 徐柏森 夏旭 卢佳 E.Schnug
机构地区 中国科学院南京土壤研究所 中国科学院大学资源与环境学院 联邦栽培植物研究中心(JKI)作物与土壤科学研究所 南京林业大学电镜实验室
出处 《中国科学院大学学报(中英文)》 CAS CSCD 北大核心 2013年第4期485-496,576,共13页 Journal of University of Chinese Academy of Sciences
基金 Supported by National Natural Science Foundation of China(20577055,31201689) Chinese Academy of Sciences-DAAD(German Academic Exchange Service)Joint Scholarship Programme Doctoral Research in Germany,and China Postdoctoral Science Foundation(20110490630)
关键词 胶膜 水稻 ACA SEM-EDX 根际 Sulfur iron plaque rice(Oryza sativa L.) ACA SEM-EDX rhizosphere
分类号 S511 [农业科学—作物学]
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参考文献48

  • 1Liu W J,Zhu Y G,Hu Y. Arsenic sequestration in iron plaque,its accumulation and speciation in mature rice plants ,(Oryza sativa L.)[J].{H}Environmental Science and Technology,2006.5730-5736.
  • 2Weiss J V,Emerson D,Backer S M. Enumeration of Fe(Ⅱ)-oxidizing and Fe (Ⅲ)-reducing bacteria in the root zone of wetland plants:Implications for a rhizosphere iron cycle[J].{H}BIOGEOCHEMISTRY,2003.77-96.
  • 3Alberda T H. Growth and root development of lowland rice and its relation to oxygen supply[J].{H}Plant and Soil,1953.1-28.
  • 4Revsbech N P,Pedersen O,Reichardt W. Microsensor analysis of oxygen and pH in the rice rhizosphere under field and laboratory conditions[J].{H}Biology and Fertilization of Soils,1999.379-385.
  • 5Butterbach-Bahl K,Papen H,Rennenberg H. Scanning electron microscopy analysis of the aerenchyma in two rice cultivars[J].Phyton Ann Bot,2000.43-55.
  • 6Armstrong J,Armstrong W. A convective through-flow of gases in Phragmites australis (Cav.) Trin ex Steud[J].{H}AQUATIC BOTANY,1991.75-88.
  • 7St-Cyr L,Crowder A A. Factors affecting iron plaque on the roots of Phragmites australis (Cav.) Trin ex Steudel[J].{H}Plant and Soil,1989.85-93.
  • 8Crowder A A. Formation of manganese oxide plaque on rice roots in solution culture under varying pH and manganese (Mn2 +) concentration conditions[J].{H}Journal of Plant Nutrition,1993.589-599.
  • 9Roger P A,Zimmerman W J,Lumpkin T A. Microbiological management of wetland rice fields[A].{H}New York:Dekker,1993.
  • 10Maclean J L,Dawe D C,Hardy B. Rice almanac[M].Manila:International Rice Research Institute (IRRI),2002.

二级参考文献19

  • 1Achtnich C, Bak F, Conrad R. Competition for electron donors among nitratr reducers, ferric iron reducers, sulfate reducers,and methanogens in anoxic paddy soil. Biol Fertil Soils, 1995, 19 : 65 - 72.
  • 2Jaeckel U, Schnell S. Suppression of methane emission from rice paddies by ferric iron fertilization. Soil Biology & Biochemistry, 2000, 32:1 811 - 1 814.
  • 3Qu D, Schnell S. Effect of iron oxides addition on methanogenesis in paddy soil. Bio-Spektrum. VAAM' 99 Jahrestagung,Germany. 1999. 111 - 112.
  • 4Conrad R. Contribution of hydrogen to methane production and control of hydrogen concentrationa in methanogenic soil and sediments. FEMS Microboil Ecol , 1999, 28:193 - 202.
  • 5Yao H, Conrad R. Thermodynamics of methane production in different rice paddy soils from China, the Philippines and Italy.Soil Biology and Biochemistry, 1999, 31 : 463 - 473.
  • 6Schwertmann U, Cornell R M. Iron oxides in the Laboratory. Prepartion and charctefization. VCH, Weinheim. 1991. 69 -144.
  • 7Schnen S, Ratering S. Simultaneous determination of iron( Ⅲ ), iron( Ⅱ ), and manganese( Ⅱ ) in environmental samples by Ion chromatography. Envirn Sci Technol , 1998, 32:1 530 - 1 537.
  • 8Krumboech M, Conrad R. Metabolism of position-labelled glucose in anoxic methanogenic paddy soil and lake sediment. FEMS Microbiol Ecol , 1991, 85:247 - 256.
  • 9Conrad R, Schuetz H, Babbel M. Temperature limitation of hydrogen turnover and methanogenesis in anoxic paddy soil. FEMS Microbiology Ecology, 1987, 45:281 - 289.
  • 10Lovley D R. Microbial Fe( Ⅲ ) reduction in subsurface environments. FEMS Microbial. Reviews, 1997, 20:305 - 313.

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中国科学院大学学报(中英文)
2013年 第4期

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