Remediation Iron Deficiency of Soybean Grown in Lime Soil(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:

2011年03期

Page:

463-467

Research Field:

Publishing date:

Info

Title:

Remediation Iron Deficiency of Soybean Grown in Lime Soil

Author(s):

ZHANG Wei¹;  ZHAO Li-mei¹;  HAN Xi-guo²;  XU Chang-hong²;  ZHAO Jing ¹;  QIU Qiang¹;  YAN Xiao-yan¹; ZHANG Ming-hao¹

1.Soybean Research Center, Jilin Academy of Agricultural Sciences, Changchun 130033;

2.Taonan experimental station, Jilin Academy of Agricultural Sciences, Taonan 137100, Jilin, China

Keywords:

Lime soil;  Soybean;  Iron deficiency

PACS:

S565.1

DOI:

10.11861/j.issn.1000-9841.2011.03.0463

Abstract:

Lime soil tends to cause shortage of iron supply in varying degrees,Baicheng in Jilin province is a typical area, the symptom that soybean leaves turned yellow resulted from lack of iron is severe. The present research taken Fe-sensitive soybean varieties as materials, by means of soil improvement, replenishing with iron fertilizer, soybean-maize mixed cropping and screening Fe-efficient varieties, respectively, try to seek the best correction measures to iron deficiency in soybean. No significant effects were found in the treatments of Hekang scavenging agent and fermented chicken manure. When fertilizing 1.5×103 kg·ha^－1 gesso powders and homemade fertilizer（confect fertilizer based on fumus）, soybean iron deficiency was relieved partly; not ameliorated by the maize-soybean intercropping; by EDDHA-Fe as starter fertilizer, soybean iron deficiency was significantly improved and chlorophyll content fully recovered.

References:

[1]Guerinot M L,Yi Y. Iron : nutritious， noxious， and not readily available[J]. Plant Physiology, 1994，104:815-820.

[2]曹慧，韩振海，许雪峰, 等.高等植物的铁营养[J].植物生理学通讯,2002,38(2):180-185.(Cao H, Han Z H, Xu X F, et al. Iron nutrition in higher plants[J].Plant Physiology Communications, 2002，38(2）: 180-185.)

[3]Naevea S L, Rehm G W . Soybean genotype×environment interactions within iron deficiency chlorosis-tolerant soybean genotypes [J]. Agronomy Journal, 2006,98:808-814.

[4]许永久，李占斌.大豆黄化死苗的原因及防治对策[J].甘肃农业，2006(4)：152.(Xu Y J, Li Z B. The causes and prevention and control measures of soybean dying seedling turned yellow[J].Gansu Agriculture, 2006(4)：152.)

[5]杨超,吕爱淑.大豆黄叶病发生与防治[J].河南农业,2004(9) :35.(Yang C, Lü A S. The occurrence and prevention and control of yellow leaf disease in soybean[J]. Agriculture of ?Henan,2004(9):35.)

[6]董辉.淮北地区大豆黄化矮缩症的发生与防治[J].现代农业科技，2007(13)：107.(Dong H. The occurrence and prevention and control of yellow leaf and short shrinkage of soybean in the Huaibei area[J]. Modern Agricultural Sciences and Technology,2007(13）:107.)

[7]Marschner H著,曹一平, 陆景陵，译.高等植物的矿质营养[M].北京：北京农业大学出版社,1991. (Marschner H(eds). Cao Y P, Lu J L(trans.).Higher plants of mineral nutrition[M]. Beijing: Beijing Agricultural University Press, 1991.)

[8]Byron D F, Lambert J W. Screening soybeans for iron efficiency in the growth chamber[J]. Crop Science,1983, 23:885-888.

[9]Takagi S C. Production of phytosiderophores[M]// Barton L L,Hemming B C. Iron Chelation in Plants and Soil Microorganisms. Clarendon : Academic Press Inc， Harcourt Brace Jovanovich Publishers，1993:111-130.

[10]左元梅，张福锁.不同禾本科作物与花生混作对花生根系质外体铁的累积和还原力的影响[J].应用生态学报，2004,15(2):221-225.(Zuo Y M, Zhang F S. Effects of peanut mixed cropping with different gramineous plants on apoplast iron accumulation and reducing capacity of peanut[J].Chinese Journal of Applied Ecology,2004,15(2):221-225.)

[11]Froechlich D M， Fehr W R. Agronomic performance of soybeans with differing levels of iron deficiency chlorosis on calcareous soil[J] Crop Science,1981,21:438-441.

[12]Goos R J, Brian E J. Soybean a comparison of three methods for reducing iron-deficiency chlorosis in soybean [J].Agronomy Journal,2000,92:1135-1139.

[13]Wiersma J V. Soybean high rates of Fe-EDDHA and seed iron concentration suggest partial solutions to iron deficiency in soybean[J]. Agronomy Journal,2005, 97:924-934.

[14]陈世勇，陈景奎.大豆缺铁的原因及对策[J]. 安徽农业科学，1998，26（4）：522-523.(Chen S Y,Chen J K. The causes and solutions to iron deficiency in soybean[J]. Journal of Anhui Agricultural Sciences, 1998，26(4):522-523.)

[15]褚天铎.化肥科学使用指南[M].北京：金盾出版社,2008：130-222. (Zhu T D.Fertilizer science guide[M]. Beijing: Jindun Press, 2008：130-222.)

[16]Penas E J, Wiese R A, Elmore R W, et al. Soybean chlorosis studies on high pH bottomland soils[M]. Univ.Nebraska Inst. Agric.Nat.Res.Bull,1990:312.

[17]Randall G W. Correcting iron chlorosis in soybeans[M]. Soils Fact Sheet 27 (revised). Minnesota Agric.Ext.Serv.St.Paul,1981.

[18]Karkosh A E, Walker S K, Simons J J. Seed treatments for control of ion deficiency chlorosis of soybean[J]. Crop Science,1988,28:369-370.

[19]Wiersma J V. High rates of Fe-EDDHA and seed iron concentration suggest partial solutions to iron deficiency in soybean[J]. Agronomy Journal,2005,97:924-934.

[20]Goos R J, Johnson B E. A comparison of three methods for reducing iron deficiency chlorosis in soybean[J].Agronomy Journal,2000,92:1135-1139.

Memo

Memo:

-

Common functions