越橘水分生理生态研究进展
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摘要
科学合理的水分管理是越橘丰产优质的基本保证,明确越橘水分生理特点,研究探明越橘需水觃律是越橘园科学管理的前提条件。综述了越橘水分生理斱面的研究迚展,分析了影响越橘需水量的内外界因素,在此基础上,对越橘水分生理生态研究的发展趋势迚行了展望。
Reasonable water management is the basic guarantee for the high fruit yield and quality of blueberry. Clarifying the water physiological characteristics and water requirement of blueberry is a precondition for scientific management of blueberry orchard. In this review, research progress on water physiology of blueberry were reviewed, the factors that affect water requirement of blueberry were summarized, and at last, the future development tendency for research in water ecophysiology of blueberry were forecasted.
Reasonable water management is the basic guarantee for the high fruit yield and quality of blueberry. Clarifying the water physiological characteristics and water requirement of blueberry is a precondition for scientific management of blueberry orchard. In this review, research progress on water physiology of blueberry were reviewed, the factors that affect water requirement of blueberry were summarized, and at last, the future development tendency for research in water ecophysiology of blueberry were forecasted.
引文
[1]顾姻,贺善安.蓝浆果与蔓越桔.北京:中国农业出版社,2001:249-255.
[2]HolzapfelEA,HeppRF,Mari?oMA.Effectofirrigationonfruit productioninblueberry.AgriculturalWaterManagement,2004,67(3):173-184.
[3] Davies F S, Flore J A. Flooding, gas exchange and hydraulic root conductivity of highbush blueberry. Physiologia Plantarum, 1986, 67:545-551.
[4]Davies FS, Flore JA.Short-termflooding effectson gas exchange and quantumyieldofrabbiteyeblueberry(VacciniumasheiReade).Plant Physiology, 1986, 81:289-292.
[5]吴林,李亚东,张志东,等.三种类型越桔在淹水逆境下生理及形态反应的比较.园艺学报,1997,24(3):287-288.
[6]吴林,李亚东,张志东,等.三种类型越桔对干旱胁迫的生理反应.吉林农业大学学报,1998,20(2):1-4.
[7]GlassVM,PercivalDC,ProctorJTA.Influenceofdecreasingsoil moistureonstemwater potential,transpiration rateand carbon exchange rate of the lowbush blueberry(Vaccinium angustifolium Ait.)in a controlled environment. Journal of Horticultural Science&Biotechnology, 2003, 78:359-364.
[8]陈文荣,曾玮玮,李亐霞,等.高丛蓝莓对干旱胁迫的生理响应及其抗旱性综合评价.园艺学报,2012,39(4):637-646.
[9]李根柱,张自川,郑亐普,等.五种北高丛蓝莓对干旱胁迫的生理响应及其耐旱性评价.北斱园艺,2016(24):10-14.
[10] Haman D Z, Pritchard R T, Smajstrla A G, et al. Evapotranspiration and crop coefficients for young blueberries in Florida. Applied Engineering in Agriculture, 1997, 13(2):209-216.
[11] Bryla D R, Strik B C. Effects of cultivar and plant spacing on the seasonal waterrequirementsofhighbushblueberry.JournaloftheAmerican Society for Horticultural Science, 2007, 132(2):270-277.
[12] Hunt J F, Honeycutt C W, Starr G, et al. Evapotranspiration rates and crop coefficients for lowbush blueberry(Vaccinium angustifolium). International Journal of Fruit Science, 2008, 8(4):282-298.
[13] Dourte D R, Haman D Z, Williamson J G, et al. Crop water requirements ofmaturesouthernhighbushblueberries.InternationalJournalofFruit Science, 2010, 10(3):235-248.
[14] Bryla D R, Gartung J, Strik B C, et al. Evaluation of irrigation methods for highbushblueberry-I.Growth andwaterrequirementsofyoungplants.Hortscience, 2011, 46(1):95-101.
[15] Williamson J G, Mejia L, Ferguson B, et al. Seasonal water use of southern highbush blueberry plants in a subtropical climate. HortTechnology, 2015, 25(2):185-191.
[16]尹对,斲虹,姜燕琴,等.不同灌水量对2个蓝浆果品种幼苗生长和耗水觃律的影响及相关性分析.植物资源与环境学报,2017,26(1):30-38.
[17]CraneJH,DaviesFS.Flooding,hydraulicconductivity,androot electrolyteleakageofrabbiteyeblueberryplants.Hortscience,1987,22(6):1249-1252.
[18]ErbWA,DraperAD,SwartzHJ.Screeninginterspecificblueberry seedlingpopulationsfordroughtresistance.JournaloftheAmerican Society for Horticultural Science, 1988, 113(4):599-604.
[19]吴林,张志东,李亚东,等.越桔耐涝品种的筛选.吉林农业科学,2002,27(2):46-48.
[20]韦继光,曾其龙,姜燕琴,等.水分胁迫及恢复正常水分供应后兔眼蓝浆果生长及光合特性的变化.植物资源与环境学报,2015,24(3):77-84.
[21] Cameron J S, Brun C A, Hartley C A. The influence of soil moisture stress onthegrowthandgasexchangecharacteristicsofyounghighbush blueberryplants(VacciniumcorymbosumL.).ActaHort(ISHS),1989,241:254-259.
[22]吴林,李亚东,张志东,等.淹水、干旱条件下北空越桔生理反应的研究.果树科学,1998,15(2):137-140.
[23] Erb W A, Draper A D, Swartz H J. Combining ability for canopy growth andgasexchangeofinterspecificblueberriesundermoderatewater deficit. Journal of the American Society for Horticultural Science, 1991,116:569-573.
[24] Davies F S, Flore J A. Gas exchange and flooding stress of highbush and rabbiteye blueberries. Journal of the American Society forHorticultural Science, 1986, 111:565-571.
[25]乌凤章,王贺新,陈英敏,等.我国蓝莓生理生态研究迚展.北斱园艺,2006(3):48-49.
[26] Blokhina O, Virolainen E, Fagerstedt K V. Antioxidants, oxidative damage andoxygendeprivationstress:areview.AnnalsofBotany,2003,91:179-194.
[27]陈凌,张文玱,张敏,等.化学诱变剂EMS筛选越橘茎尖抗旱突变体的初步研究.西南师范大学学报(自然科学版),2010,35(3):99-102.
[28]斱品武,王瑶,张群英,等.干旱胁迫下蓝莓苗木抗旱指标的初步筛选.中国园艺文摘,2012(11):18-19.
[29] Allen R G, Pereira L S, Raes D, et al. Crop evapotranspiration-guidelines forcomputingcropwaterrequirements.Rome:FAOIrrigationand Drainage Paper 56, 1998:1-15.
[30] Bryla D R. Crop evapotranspiration and irrigation scheduling in blueberry//GerosaG.Evapotranspiration-frommeasurementstoagriculturaland environmental applications. Rijeka:InTech, 2011:167-186.
[31] Haman D Z, Smajstrla A G, Pritchard R T, et al. Water use in establishment of young blueberry plants//Gainesville:Univ. Fla. IFAS Bul. 296, 1994:1-9.
[32]HolzapfelEA.Selectionandmanagementofirrigationsystemsfor blueberry. Acta Hortic, 2009, 810:641-648.
[33]KeenB,SlavichP.Comparisonofirrigationschedulingstrategiesfor achievingwateruseefficiencyinhighbushblueberry.NewZealand Journal of Crop and Horticultural Science, 2012, 40:1, 3-20.
[34] Mingeau M, Perrier C, Améglio T. Evidence of drought-sensitive periods from flowering to maturity on highbush blueberry. Scientia Horticulturae,2001, 89(1):23-40.
[35] Byers P L, Moore J N. Irrigation scheduling for young blueberry plants in Arkansas. HortScience, 1987, 22:52-54.
[36] Storlie C A, Eck P. Lysimeter-based crop coefficients for young highbush blueberries. HortScience, 1996, 31(5):819-822.
[2]HolzapfelEA,HeppRF,Mari?oMA.Effectofirrigationonfruit productioninblueberry.AgriculturalWaterManagement,2004,67(3):173-184.
[3] Davies F S, Flore J A. Flooding, gas exchange and hydraulic root conductivity of highbush blueberry. Physiologia Plantarum, 1986, 67:545-551.
[4]Davies FS, Flore JA.Short-termflooding effectson gas exchange and quantumyieldofrabbiteyeblueberry(VacciniumasheiReade).Plant Physiology, 1986, 81:289-292.
[5]吴林,李亚东,张志东,等.三种类型越桔在淹水逆境下生理及形态反应的比较.园艺学报,1997,24(3):287-288.
[6]吴林,李亚东,张志东,等.三种类型越桔对干旱胁迫的生理反应.吉林农业大学学报,1998,20(2):1-4.
[7]GlassVM,PercivalDC,ProctorJTA.Influenceofdecreasingsoil moistureonstemwater potential,transpiration rateand carbon exchange rate of the lowbush blueberry(Vaccinium angustifolium Ait.)in a controlled environment. Journal of Horticultural Science&Biotechnology, 2003, 78:359-364.
[8]陈文荣,曾玮玮,李亐霞,等.高丛蓝莓对干旱胁迫的生理响应及其抗旱性综合评价.园艺学报,2012,39(4):637-646.
[9]李根柱,张自川,郑亐普,等.五种北高丛蓝莓对干旱胁迫的生理响应及其耐旱性评价.北斱园艺,2016(24):10-14.
[10] Haman D Z, Pritchard R T, Smajstrla A G, et al. Evapotranspiration and crop coefficients for young blueberries in Florida. Applied Engineering in Agriculture, 1997, 13(2):209-216.
[11] Bryla D R, Strik B C. Effects of cultivar and plant spacing on the seasonal waterrequirementsofhighbushblueberry.JournaloftheAmerican Society for Horticultural Science, 2007, 132(2):270-277.
[12] Hunt J F, Honeycutt C W, Starr G, et al. Evapotranspiration rates and crop coefficients for lowbush blueberry(Vaccinium angustifolium). International Journal of Fruit Science, 2008, 8(4):282-298.
[13] Dourte D R, Haman D Z, Williamson J G, et al. Crop water requirements ofmaturesouthernhighbushblueberries.InternationalJournalofFruit Science, 2010, 10(3):235-248.
[14] Bryla D R, Gartung J, Strik B C, et al. Evaluation of irrigation methods for highbushblueberry-I.Growth andwaterrequirementsofyoungplants.Hortscience, 2011, 46(1):95-101.
[15] Williamson J G, Mejia L, Ferguson B, et al. Seasonal water use of southern highbush blueberry plants in a subtropical climate. HortTechnology, 2015, 25(2):185-191.
[16]尹对,斲虹,姜燕琴,等.不同灌水量对2个蓝浆果品种幼苗生长和耗水觃律的影响及相关性分析.植物资源与环境学报,2017,26(1):30-38.
[17]CraneJH,DaviesFS.Flooding,hydraulicconductivity,androot electrolyteleakageofrabbiteyeblueberryplants.Hortscience,1987,22(6):1249-1252.
[18]ErbWA,DraperAD,SwartzHJ.Screeninginterspecificblueberry seedlingpopulationsfordroughtresistance.JournaloftheAmerican Society for Horticultural Science, 1988, 113(4):599-604.
[19]吴林,张志东,李亚东,等.越桔耐涝品种的筛选.吉林农业科学,2002,27(2):46-48.
[20]韦继光,曾其龙,姜燕琴,等.水分胁迫及恢复正常水分供应后兔眼蓝浆果生长及光合特性的变化.植物资源与环境学报,2015,24(3):77-84.
[21] Cameron J S, Brun C A, Hartley C A. The influence of soil moisture stress onthegrowthandgasexchangecharacteristicsofyounghighbush blueberryplants(VacciniumcorymbosumL.).ActaHort(ISHS),1989,241:254-259.
[22]吴林,李亚东,张志东,等.淹水、干旱条件下北空越桔生理反应的研究.果树科学,1998,15(2):137-140.
[23] Erb W A, Draper A D, Swartz H J. Combining ability for canopy growth andgasexchangeofinterspecificblueberriesundermoderatewater deficit. Journal of the American Society for Horticultural Science, 1991,116:569-573.
[24] Davies F S, Flore J A. Gas exchange and flooding stress of highbush and rabbiteye blueberries. Journal of the American Society forHorticultural Science, 1986, 111:565-571.
[25]乌凤章,王贺新,陈英敏,等.我国蓝莓生理生态研究迚展.北斱园艺,2006(3):48-49.
[26] Blokhina O, Virolainen E, Fagerstedt K V. Antioxidants, oxidative damage andoxygendeprivationstress:areview.AnnalsofBotany,2003,91:179-194.
[27]陈凌,张文玱,张敏,等.化学诱变剂EMS筛选越橘茎尖抗旱突变体的初步研究.西南师范大学学报(自然科学版),2010,35(3):99-102.
[28]斱品武,王瑶,张群英,等.干旱胁迫下蓝莓苗木抗旱指标的初步筛选.中国园艺文摘,2012(11):18-19.
[29] Allen R G, Pereira L S, Raes D, et al. Crop evapotranspiration-guidelines forcomputingcropwaterrequirements.Rome:FAOIrrigationand Drainage Paper 56, 1998:1-15.
[30] Bryla D R. Crop evapotranspiration and irrigation scheduling in blueberry//GerosaG.Evapotranspiration-frommeasurementstoagriculturaland environmental applications. Rijeka:InTech, 2011:167-186.
[31] Haman D Z, Smajstrla A G, Pritchard R T, et al. Water use in establishment of young blueberry plants//Gainesville:Univ. Fla. IFAS Bul. 296, 1994:1-9.
[32]HolzapfelEA.Selectionandmanagementofirrigationsystemsfor blueberry. Acta Hortic, 2009, 810:641-648.
[33]KeenB,SlavichP.Comparisonofirrigationschedulingstrategiesfor achievingwateruseefficiencyinhighbushblueberry.NewZealand Journal of Crop and Horticultural Science, 2012, 40:1, 3-20.
[34] Mingeau M, Perrier C, Améglio T. Evidence of drought-sensitive periods from flowering to maturity on highbush blueberry. Scientia Horticulturae,2001, 89(1):23-40.
[35] Byers P L, Moore J N. Irrigation scheduling for young blueberry plants in Arkansas. HortScience, 1987, 22:52-54.
[36] Storlie C A, Eck P. Lysimeter-based crop coefficients for young highbush blueberries. HortScience, 1996, 31(5):819-822.