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微信公众号：大豆科学

[1]徐青萍　罗超云　廖红　严小龙　年海.大豆不同品种对磷胁迫反应的研究[J].大豆科学,2003,22(02):108-114.[doi:10.11861/j.issn.1000-9841.2003.02.0108]
　Xu Qinping Luo Chaoyun Liao Hong Yan Xiaolong Nian Hai.STUDY ON THE RESPONSEOF SOYBEAN VARIETIES TO P DEFICIENCY[J].Soybean Science,2003,22(02):108-114.[doi:10.11861/j.issn.1000-9841.2003.02.0108]

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大豆不同品种对磷胁迫反应的研究

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第22卷期数: 2003年02期页码: 108-114 栏目: 出版日期: 2003-05-25

Title:: STUDY ON THE RESPONSEOF SOYBEAN VARIETIES TO P DEFICIENCY

文章编号:: 1000 -9841(2003)02 -0108 -07

作者:: 徐青萍　罗超云　廖红　严小龙　年海; 华南农业大学植物营养遗传研究室, 根系生物学中心, 广州, 510642

Author(s):: Xu Qinping 　Luo Chaoyun 　Liao Hong 　Yan Xiaolong 　Nian Hai; Laboratory of Plant Nutritional Genet ics , Root Biology Center , SouthChina Agricultural Universi ty , Guangzhou , 510642

关键词:: 大豆; 磷效率; 酸性红壤

Keywords:: Soybean ; P efficiency ; Acid red soil

分类号:: S 565.101

DOI:: 10.11861/j.issn.1000-9841.2003.02.0108

文献标志码:: A

摘要:: 通过大田试验, 探讨不同来源的8 个大豆品种对南方酸性低磷红壤的适应性, 并初步分析其磷效率的机理。试验表明:生物学产量、经济学产量、总体磷效率和磷吸收效率具有显著的品种差异。从吸收效率(以吸磷量为标准)来看,BX10 属于磷高效、不敏感品种,BD2 、GD1 和GD3 属于磷低效、敏感品种, 而BX11 、BD1 、GD2 和GD4 则表现不稳定。供试大豆总体磷效率(以生物量为标准)与磷吸收效率表现趋势基本一致, 而磷利用效率并没有显著的品种差异。在本试验中, 总体磷效率主要取决于磷吸收效率。此外, 磷吸收效率较高的品种, 其根长和根表面积并没有优势, 供试大豆对土壤磷的吸收效率可能受其它根系性状, 如根构型和根分泌物等的影响。

Abstract:: Field experiment s were carried out to investigate the adaptability of 8 soybean varieties f rom dif ferento rigins to low -P acid red soils in South China and the mechanism of P efficiency .The results show ed that therew ere significant varietal differences in plant biomass , yield , P eff iciency and P acquisi tio n ef ficiency among the 8tested soy bean variet ies .Based on P acquisit ion efficiency (def ined as P content), variety BX10 w as higy eff icientbut nonresponsive ,BD2 , GD1 and GD3 were ineff icient but responsive , w hile the performances of o therv arieties, BX11 , BD1 , GD2 and GD4 , were unstable .Furthermo re , the overall P ef ficiency (defined asbiomass)of the tested soybean varieties show ed the same pat tern as P acquisition eff iciency .On the o ther hand ,there was no significant varietal difference in P utilization eff iciency .This indicates that the overall P eff iciencyis mainly att ributed to P acquisition efficiency in the present field study .Meanw hile , since the P -efficient v arietiesdid not have longer root leng th and larger root surface area , P acquisition efficiency of the 8 tested soybeanv arieties may be dominated by other roo t t raits , such as root architecture and root exudates under the present experimentalcondit ions .

参考文献/References:

1　严小龙, 黄志武, 卢仁骏, 等.关于作物磷效率的遗传学研究[ J] .土壤, 1992 .24(2):101 -105.

2 　严小龙, 张福锁.植物营养遗传学[ M] .北京:农业出版社, 1997 .1 -21.

3 　Gerloff G C , Gabelman W H .Genetic basis of inorganic plant nut rition .In :Encyclopedia of Plant Physiology (Lauchli A and Bieleski RL, eds)[ M] .Berlin :S pringer-verlag , 1983 .p453 -480.

4　王美丽, 严小龙.大豆根形态和根分泌物特性与磷效率[ J] .华南农业大学学报, 2001 .22(3):1 -3.

5　严小龙, 廖红, 戈振扬, 等.植物根构型特性与磷吸收效率[ J] .植物学通报, 1999 .17(6):511 -519.

6　曹爱琴, 严小龙.不同供磷条件下大豆根构型的适应性变化[ J] .华南农业大学学报, 2000 .22(1):21.

7　彭克明.农业化学(总论)(第二版)[ M] .北京:农业出版社,1996 .115 页.

8 　廖红, 严小龙.菜豆根构型对低磷胁迫的适应性变化及其基因型差异[ J] .植物学报, 2000 .42(2):158 -163.

9　劳家柽主编.土壤农化分析手册[ M] .北京:农业出版社, 1988 ,229 -299.

10 Lynch J.The role of nut rient -ef ficient crops in modern agricultu re[ J] .Journal of C rop Production , 1998 .1(2):241 -264.

11 Barber S A.Soil Nutrient Bioavailability :A Mechanisti c Approach[ M] .New York :Wiley Int erscience, 1995 .p 414 -416.

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备注/Memo

基金项目:本研究由美国麦氏基金会(McKni gh t Foundation)以及广东省科技计划项目(B504)资助。

作者简介:徐青萍(1977 -), 女, 华南农业大学植物营养学专业在读研究生。

更新日期/Last Update: 2016-12-31