|Table of Contents|

Response of Chlorophyll Fluorescence to Drought Stress at Flowering in Different Soybeans(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2008年01期
Page:
56-60
Research Field:
Publishing date:

Info

Title:
Response of Chlorophyll Fluorescence to Drought Stress at Flowering in Different Soybeans
Author(s):
SUN Hai-feng1ZHAN Yong2LIN Hai-rong1WEI Lin-ji1LEI Ming1PAN Xiu-mei1and HE Neng1
1 College of Agriculture,Shihezi University/Key Laboratory of Oasis Ecology Agriculture of Xinjiang Bingtuan,Shihezi 832003,Xinjiang;

2 Xinjiang Agricultural Reclamation Academy of Science,Shihezi 832003,Xinjiang,China
Keywords:
Key words: Chlorophyll fluorescenceDrought stressSoybeanGenotypic differenceDrought-resistant
PACS:
-
DOI:
10.11861/j.issn.1000-9841.2008.01.0056
Abstract:
Agricultural Reclamation Academy of Science,Shihezi 832003,Xinjiang,ChinaAbstract: Known as the rapid non-destructive probe for studying plant photosynthesis,chlorophyll fluorescence analysis has been gradually put into use in studying the effects of stressful environments on plant photosynthesis.To investigate the effect of drought stress at flowering on chlorophyll fluorescence characters of soybean,three soybean genotypes were adopted,and the change of the chlorophyll fluorescence parameters were determined by using OS52FL chlorophyll fluorometer.Under the condition of drought at flowering,the ratio of the variable to maximum fluorescence(Fv/Fm);the ratio to of variable to minimal fluorescencet (Fv/F0) and non-photochemical quenching coefficient (NPQ) decreased,while the electron transport rate(ETR) increased.The analysis indicated that photosystem II damaged,and primary light energy conversion of PSⅡ(Fv/Fm),potential activities of PSⅡ(Fv/F0) and heat disseminate which possess photoprotective effect were decreased and photosynthetic electron transport increased,and the chlorophyll fluorescence parameters were closely correlated with each other.The change of chlorophyll fluorescence parameters under drought stress at flowering varied with genotypes,and the damage of photosynthetic apparatus of Xindadou 1 was lighter,so more light energy absorbed by Xindadou 1 was converted into chemical energy and the ability of drought tolerance was stronger.Therefore,it is possible to determine the drought resistance in soybean using chlorophyll fluorescence characters.

References:

[1]Bader M R,Ruuska S,and Nakano H.2000.Electron flow to oxygen in higher plants and algae:rates and conrol of direct photoreduction (Mehler reaction) and rubisco oxygenase.Biological Sciences,1402:1433-1445

[2]Bilger W,Schreiber U,and Bock M.1995.Determination of the quantum efficiency of PS Ⅱ and non-photochemical quenching of chlorophyll fluorescence in the field.Oecologia,102:425-432
[3]Catalayud A,Deltoro V I,Barreno E,and del Valle-Tascon S.1997.Changes in vivo chlorophyll fluorescence quenching in Lichen thalli as a functionof water content and suggestion of zeaxanthin-associated photoprotection.Physiology Plant,101:93-102
[4]Chen J M,Yu X P,and Cheng J A.2006.The application of chlorophyll fluorescence kinetics in the study of physiological responses of plants to environmental stresses.Acta Agriculturae Zhejiangensis,18(1):51-55(陈建明,俞晓平,程家安.2006.叶绿素荧光动力学及其在植物抗逆生理研究中的应用.浙江农业学报.18(1):51-55)
[5]Feng J C,Hu X L,and Mao X J.2002.Application of chlorophyll fluorescence dynamics to plant physiology in adverse circumstance.Economic forest researches,12(4):14-20.(冯建灿,胡秀丽,毛训甲.2002.叶绿素荧光动力学在研究植物逆境生理中的应用.经济林研究,12(4):14-20
[6]Gong Q Z,Lv J Y,Xu B C,Li F M,and Zhang H B.2006.Effect of water stress on chlorophyll fluorescence parameters and WUE of wheat under different planting models.Journal of Northwest Sci-tech University of Agriculture and Forestry(Natural Science Edition),5:83-87(巩擎柱,吕金印,徐炳成,李凤民,张海波.2006.水分胁迫和种植方式对小麦叶绿素荧光参数及水分利用效率的影响.西北农林科技大学学报(自然科学版),5:83-87)
[7]Liang C D.1990.Identification method for drought resistance of soybean.Chinese Journal of Oil Crop Sciences,(1):34 -37(梁成第.1990.大豆抗旱性的鉴定方法.中国油料作物学报,(1):34 -37
[8] Li G Q,Du W J,Kong Z S, Cheng S H,and Guo X R.2000.Studies on physiological drought resistance of different soybean varieties.Journal of Shanxi Agricultural University,20(3):197-200.(李贵全,杜维俊,孔照胜,程舜华,郭显荣.2000.不同大豆品种抗旱性生理生态的研究.山西农业大学学报,20(3):197-200)?
[9]Li X,Jiao D M,Liu Y L,and Huang X Q.2002.Chlorophyll fluorescence and membrane lipid peroxidation in the flag leaves of different high yield rice variety at late stage of development under national condition.Acta Botanica Sinica,44(4):413-421(李霞,焦德茂,刘友良,黄雪清.2002.自然条件下不同高产稻生育后期剑叶叶绿素荧光和膜脂过氧化的表现.植物学报,44(4):413-421)
[10]Liu J Y,Yi Y J,Zhang C D, and Yan Z P.1997.The in vivo chlorophyll fluorescence induction kinetics and its application in study of salt resistance physiology.Journal of Qufu Normal University.1997,23(4):80-83(刘家尧,衣艳君,张承德,闫志佩.1997.活体叶绿素荧光诱导动力学及其在植物抗盐生理研究中的应用.曲阜师范大学学报,1997,23(4):80-83)
[11]Liu G Z,Gai J Y,and Ma Y H. 1989.Evaluation of drought-tolerance of soybean germplasm from lower Yangtze and huai valley.Journal of Nanjing Agricultural University,12 (1):15-21(刘艮舟,盖钧镒,马育华.1989.江淮下游大豆地方品种抗旱性鉴定的初步研究.南京农业大学学报,12 (1):15-21)
[12]Sloane R J, Ptterson R P,and Carter T E Jr.1990.Field drought tolerance of a soybean plant introduction.Crop Science.30(1):118 -123
[13]Vander Mescht A, and de Ronde J A.1999.Chlorophyll fluorescence and chlorophyll content as a measure of drought tolerance in potato.South African Journal of Science,95:407-413
[14]Wang J C,Yan C R,and Bu Y S.2005.Effects of vary soil moisture and fertility levels on chlorophyll fluorescence characteristics in maize.Agricultural Meteorology,26(2):95-98(王建程,严昌荣,卜玉山.2005.不同水分与养分水平对玉米叶绿素荧光特性的影响.中国农业气象,26(2):95-98)
[15]Wang K F,Xu C H,Zhao F H,Tang C Q,and Dai Y L.1997.The effects of water stress on some in vivo chlorophyll a fluorescence parameters of wheat flag leaves.Acta Biophysica Sinica, 13(2):273-278(王可玢,许春辉,赵福洪,唐崇钦,戴云玲.1997.水分胁迫对小麦旗叶某些体内叶绿素a荧光参数的影响. 生物物理学报, 13(2):273-278)
[16]Yang X Q,Zhang S Q, Liang Z S,and Shan Y.2004.Effects of water stress on chlorophyll fluorescence parameters of different drought resistance winter wheat cultivars seedlings.Acta Botanica Boreali-occidentalia Sinica,24(5):812-816(杨晓青,张岁岐,梁宗锁,山颖.2004.水分胁迫对不同抗旱类型冬小麦幼苗叶绿素荧光参数的影响.西北植物学报,24(5):812-816)
[17]Zhao H J,Zou Q,and Yu Z W.2000.Chlorophyll fluorescence analysis technique and its application to photosynthesis of plant.Journal of Henan Agricultural University,34(3):248-251 (赵会杰,邹琦,于振文.2000.叶绿素荧光分析技术及其在植物光合机理研究中的应用.河南农业大学学报,34(3):248-251)
[18]Zhang H Y,Jiao B C,and Li G Q.2005.Study on selecting targets in drought-resistant breeding of soybean.Soybean Science,24(3):183-188 (张海燕,焦碧婵,李贵全.2005.大豆抗旱性鉴定指标评价的研究.大豆科学,24(3):183-188)
[19]Zhang Q Y,Li F D,Gao K C,Liu M Y,and Ou G Q.2005.Effect of water stress on the photosynthetic capabilities and yield of winter wheat.Acta Botanica Boreali-occidentalia Sinica,25(6):1184-1190(张秋英,李发东,高克昌,刘孟雨,欧国强.2005.水分胁迫对冬小麦光合特性及产量的影响.西北植物学报,25(6):1184-1190)
[20]Zhang S R.1999. A discussion on chlorophyll fluorescence kinetics parameters and their significance.Chinese Bulletin of Botany,16(4):444-448( 张守仁.1999.叶绿素荧光动力学参数的意义及讨论.植物学通报,16(4):444-448)

Memo

Memo:
-
Last Update: 2014-10-09