|Table of Contents|

AdvancesinIdentificationMethodsandIndexesof LowTemperatureToleranceinCucumber(PDF)

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2013年18期
Page:
179-182
Research Field:
Publishing date:

Info

Title:
AdvancesinIdentificationMethodsandIndexesof LowTemperatureToleranceinCucumber
Author(s):
WANGChang-tong1CAOGang-qiang1WEIFang1TIANBao-ming1HUAn-jie2SHIXuan-jie2
1.BiologicalEngineeringDepartment,ZhengzhouUniversity,Zhengzhou,Henan450001;2.HenanQingfaSeedsCo.Ltd.,Zhengzhou,Henan450001
Keywords:
cucumbercoldresistanceidentificationindexadvances
PACS:
S642.2
DOI:
-
Abstract:
Cold-resistanceofcucumberisanimportantgoalofcucumberbreedinginNorth,NortheastandotherregionsinChina.Sofar,manyscholarshaddonealargeamountofworksonthecoldresistanceofcucumber.Nowtheappraisalmethodsoflowtemperaturetoleranceincucumbersuchasnaturalenvironmentidentification,controlledconditionsidentificationofgreenhouseandlaboratoryindirectidentification,andappraisalindexessuchasseedsvigor,morphology,cytology,physiologyandbiochemicalidentificationthatalwaysusedinbothdomesticandforeignweresummarized.Atthesametime,theconstructionofidentificationindexsystemofcoldcucumber,theunityofidentificationtemperatureofcoldcucumber,thenormsofidentificationprocedureofcoldresistance,thebreedingdevelopmentdirectionofcoldresistancewerediscussedandrecommended,aimedtoprovideareferenceforidentificationofhighqualityresourcesincoldcucumber,breedingandtheformulationofidentificationtechniquespecificationsofcoldcucumber.

References:

[1]AokiS,OdaM,NagaokaM.Chillingandheatsensitivitiesincucumberseedlingsmeasuredbychlorophyllfluorescence[J].BullNatlResInstVegOrnamPlantandTeaJapanA,1988(2):81-92.
[2]DenNijsAPM,SmeetsL.Analysisofdifferencesingrowthofcucumbergenotypesunderlowlightconditionsinrelationtonighttemperature[J].Euphytica,1987,36(1):19-31.
[3]WehnerTC.Estimatesofheritabilitiesandvariancecomponentsforlow-temperaturegerminationabilityincucumber[J].HorticulturalScience,1984,109(5):664-667.
[4]WehnerTC.Sereeingforlow-temperaturegerminationabilityincucumber[J].HortScience,1981,16(3):379. [5]HuttonMG.GeneticsandPhysiologyofColdToleranceinMuskmelon(CucumismeloL.)[D].NewHampshireUniversityofNewHampshire,1988.
[6]NienhuisJ,LowerRL.Theeffectsoffermentationandstoragetimeongerminationofcucumberseedsatoptimalandsuboptimaltemperatures[J].CucurbitGeneticsCooperativeAnnualReports,1981(4):13-16.
[7]HaskellG,SingletonWR.Useofcontrolledlowtemperatureinevaluatingthecoldhardinessofinbredandhybridmaize[J].AgronomyJournal,1949,41(1):34-40.
[8]许勇,王永健.黄瓜耐低温研究中几个问题的讨论[C]//中国园艺学会.中国科学技术协会第二届青年学术年会园艺学论文集,1995.
[9]于拴仓,崔鸿文,孟焕文.黄瓜发芽期耐低温性鉴定方法与指标的研究[J].西北农业大学学报,2000(3):1-6.
[10]McCreightJD,NersonH,GrumetR.Melon,CucumismeloL[M].NewYork:PergamonPress,1993:267-294. [11]王永健,姜亦巍,曹宛虹,等.低温对不同品种黄瓜种子萌发、过氧化物酶及同功酶的影响[J].华北农业学报,1995(2):72-76.
[12]马德华,庞金安,霍振荣.黄瓜耐低温研究进展[J].天津农业科学,1997(4):3-10.
[13]闫世江,司龙亭,马志国,等.黄瓜苗期耐低温性及相关形态学性状的遗传分析[J].沈阳农业大学学报,2008(1):11-14.
[14]朱其杰,高守云,蔡洙湖,等.黄瓜耐冷性鉴定及遗传规律的研究[M]//李树德.中国主要蔬菜抗病育种进展.北京:科学出版社,1995:462-474.
[15]田斐.黄瓜花粉生活力与耐冷性关系的研究[D].泰安:山东农业大学,2007.
[16]姜亦巍.不同品种黄瓜花粉低温耐受性[J].北京农业科学,1996(4):44-45.
[17]闫世江,司龙亭,马志国,等.不同来源黄瓜亲本苗期耐低温鉴定[J].沈阳农业大学学报,2006,37(5):766-768. [18]高守云.黄瓜抗寒性的生理生化及形态指标的研究[D].北京:中国农业大学,1988.
[19]余纪柱,李建吾,王美平,等.低温弱光对不同生态型黄瓜苗期若干测定指标及光合特性的影响[J].上海农业学报,2003(4):46-50.
[20]GottwaldTR,TimmerLW.TheefficacyofwindbreaksinreducingthespreadofcitruscankercausedbyXanthomonascampestrispv.citri[J].TropicalAgriculture,1995,72(3):194-201.
[21]LichtensteinC.AntisenseRNAasatooltostudyplantgeneexpression[J].Nature,1988,333:801-802.
[22]赵习姮,李进才.H2O2处理对采后黄瓜抗冷性的影响[J].天津农业科学,2011(4):1-4.
[23]XuPL,GuoYK,BaiJG,etal.Effectsoflong-termchillingonultrastructureandantioxidantactivityinleavesoftwocucumbercultivarsunderlowlight[J].PhysiologiaPlantarum,2008,132(4):467-478.
[24]李宝光,卢育华,徐坤,等.育苗温度对黄瓜幼苗抗冷性的影响[J].山东农业大学学报(自然科学版),2002(2):174-178.
[25]刘建辉,崔鸿文.电导法鉴定黄瓜抗寒性的研究[J].西北农林科技大学学报(自然科学版),1995(4):74-77.
[26]菅野绍雄.低温下黄瓜苗期生长和叶绿素荧光强度的品种间差异[J].园艺学杂志,1991,60(1):2-3.
[27]草间丰子.低温与高温处理对黄瓜苗期叶绿素荧光强度的影响[J].园艺学杂志,1993,62(1):33-33.
[28]李智军.叶绿素荧光在温度逆境分析中的应用[J].农业与园艺,1995,70(5):30-38.
[29]SmillieRM,HetheringtonSE.Screeningforstresstolerancebychlorophyllfluorescence[J].MeasurementTechniquesinPlantScience,1990:229-261.
[30]王丽丽,于锡宏.低地温对黄瓜幼苗内源GA3和IAA含量的影响[J].北方园艺,2004(3):44-45.
[31]杨佳明,司龙亭,闫世江,等.黄瓜叶片内源激素含量与耐低温性的关系研究[J].安徽农业科学,2009(11):4940-4953.
[32]杨阿明,沈征言.低温锻炼提高黄瓜幼苗耐寒性效应[J].园艺学报,1992,19(1):61-66.
[33]宋述尧,刘晓明,任锡仑.黄瓜不同品种耐冷力的初步研究[J].吉林农业大学学报,1992,14(1):27-32.
[34]刘鸿先,曾韶西,王以柔,等.低温对不同耐寒力的黄瓜(Cucumicsativus)幼苗子叶各细胞器中超氧物歧化酶(SOD)的影响[J].植物生理学报,1985(1):48-57.
[35]刘剑辉.黄瓜耐低温性鉴定方法[J].北方园艺,2005(5):62-63.
[36]侯锋,沈文云,吕淑珍,等.黄瓜幼苗耐寒性鉴定方法研究[C].中国主要蔬菜抗病育种进展,1995:477.

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Last Update: 2014-09-09