[1]黄磊,姜国斌,王贺新,等.全球变化对北半球高纬度地区主要越桔属物种的影响[J].北方园艺,2014,38(22):190-195.
 HUANG Lei,JIANG Guo-bin,WANG He-xin,et al.Effect of Global Change on the Species of Vaccinium in High Latitudes of the Northern Hemisphere[J].Northern Horticulture,2014,38(22):190-195.
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全球变化对北半球高纬度地区主要越桔属物种的影响

参考文献/References:

[1]IPCC.Climate change 2007:The physical science basis[R].Geneva:Intergovenmental Panel on Climate Change,2007.

[2]Havas P.The water economy of the bilberry (Vaccinium myrtillus) under winter conditions[R].Reports of the Kevo Subarctic Research Station,1971,8:41-52.
[3]Lang G A,Early J D,Martin G C,et al.Endo-,para-,and ecodormancy:physiological terminology and classication for dormancy research[J].Horticultural Science,1987,22:371-377.
[4]Taulavuori K,Laine K,Taulavuori E,et al.Accelerated dehardening in the bilberry (Vaccinium myrtillus L.) induced by a small elevation in air temperature[J].Environmental Pollution,1997,98:91-95
[5]Taulavuori K,Taulavuori E,Laine K.Articial deacclimation response of Vaccinium myrtillus (L.) in mid-winter[J].Annals Botanici Fennici,2002,39:143-147.
[6]Martin M,Gavazov K,Krner C,et al.Reduced early growing season freezing resistance in alpine treeline plants under elevated atmospheric CO2[J].Global Change Biology,2010,16:1057-1070.
[7]Rixen C,Dawes M A,Wipf S,et al.Evidence of enhanced freezing damage in treeline plants during six years of CO2enrichment and soil warming[J].Oikos,2012,121:1532-1543.
[8]Bokhorst S,Bjerke J W,Street L E,et al.Impacts of multiple extreme winter warming events on sub-Arctic heathland:phenology,reproduction,growth,and CO2?ux responses[J].Global Change Biology,2011,17:2817-2830.
[9]Suzuki S,Kudo G.Short-term effects of simulated environmental change on phenology,leaf traits,and shoot growth of alpine plants on a temperate mountain,northern Japan[J].Global Change Biology,1997(3):108-115.
[10]Milbau A,Graae B J,Shevtsova A,et al.Effects of a warmer climate on seed germination in the subarctic[J].Annals of Botany,2009,104:287-296.
[11]王颖.长白山林线交错带指示性植物群落对模拟增温的响应[D].长春:东北师范大学,2012.
[12]李亚东,张治安,吴林,等.红豆越桔光合作用特性的研究[J].园艺学报,1995(23):86-88.
[13]Shevtsova A,Haukioja E,Ojala A.Growth response of subarctic dwarf shrubs,Empetrum nigrum and Vaccinium vitis-idaea,to manipulated environmental conditions and species removal[J].Oikos,1997,78:440-458.
[14]Rinnan R,Stark S,Tolvanen A.Responses of vegetation and soil microbial communities to warming and simulated herbivore in a subarctic heath[J].Journal of Ecology,2009,97:788-899.
[15]Suzuki S,Kudo G.Responses of alpine shrubs to simulated environmental change during three years in the mid-latitude mountain[J].Northern Japan Ecography,2000,23:553-564.
[16]Suzuki S,Kudo G.Short-term effects of simulated environmental change on phenology,leaf traits,and shoot growth of alpine plants on a temperate mountain,northern Japan[J].Global Change Biology,1997(3):108-115.
[17]Dawes M A,Hagedorn F,Zumbrunn T,et al.Growth and community responses of alpine dwarf shrubs to in situ CO2 enrichment and soil warming[J].New Phytologist,2011,191:806-818.
[18]Hartley A E,Neill C,Melillo J M,et al.Plant performance and soil nitrogen mineralization in response to simulated climate change in subarctic dwarf shrub heath[J].Oikos,1999,86:331-343.
[19]Taulavuori E,Taulavuori K,Laine K,et al.Winter hardening and glutathione status in the bilberry (Vaccinium myrtillus L.) in response to trace gases (CO2 and O3) and nitrogen fertilization[J].Physiologia Plantarum,1997,101:192-198.
[20]Rinnan R,Holopainen T.Ozone effects on the ultrastructure of peatland plants:Sphagnum mosses,Vaccinium oxycoccus,Andromeda polifolia and Eriophorum vaginatum[J].Annals of Botany,2004,94:623-634.
[21]Taulavuori K,Taulavuori E,Niinimaa A,et al.Acceleration of frost hardening in Vaccinium vitis-idaea (L.) by nitrogen fertilization[J].Oecologia,2001,127:321-323.
[22]Handa I T,Hagedorn F,Httenschwiler S.No stimulation in root production in response to 4 years of in situ CO2 enrichment at the Swiss treeline[J].Functional Ecology,2008,22:348-358.
[23]Martin M,Gavazov K,Krner C,et al.Reduced early growing season freezing resistance in alpine treeline plants under elevated atmospheric CO2[J].Global Change Biology,2010,16:1057-1070.
24]Gwynn-Jones D,Lee J A,Callaghan T V.Effects of enhanced UV-B radiation and elevated carbon dioxide concentrations on a sub-arctic forest heath ecosystem[J].Plant Ecology,1997,128:243-249
[25]Beerling D J.Long-term responses of boreal vegetation to global change:an experimental and modeling investigation[J].Global Change Biology,1999(5):55-74.
[26]ACIA.Arctic Climate Impact Assessment[M].Cambridge University Press,2005:1042.
[27]Llorens L,Penuelas J,Emmett B.Developmental instability and gas exchange responses of a heathland shrub to experimental drought and warming[J].International Journal of Plant Sciences,2002(6):959-967.
[28]Taulavuori E,Tahkokorpi M,Laine K,et al.Drought tolerance of juvenile and mature leaves of deciduous dwarf shrub Vaccinium myrtillus L.in boreal environment[J].Protoplasma,2010,241:19-27
[29]Mooney H A,Ehleringer J R.Photosynthesis[M].In:Crawley,M.J.(Ed.),Plant Ecology Blackwell Science,1997:1-27.
[30]Beerling D J.Long-term responses of boreal vegetation to global change:an experimental and modeling investigation[J].Global Change Biology,1999(5):55-74.
[31]Mingeau M,Perrier C,Améglio T.Evidence of drought-sensitive periods from owering to maturity on highbush blueberry[J].Scientia Horticulturae,2001,89:23-40.
[32]GlassV M,Percival D C,Proctor J T A.Tolerance of lowbush blueberries (Vaccinium angustifolium Ait.) to drought stress.I.Soil water and yield component analysis[J].Canadian Journal of Plant Science,2005,85:911-917.
[33]AMAP Assessment.Acidifying Pollutants,Arctic Haze,and Acidication in the Arctic[C].Arctic Monitoring and Assessment Programme (AMAP),Oslo,Norway,2006:112.
[34]魏海蓉,孟艳玲,孙阳,等.高温胁迫下外源NO对高灌蓝莓PSⅡ光化学活性和抗氧化系统的影响[J].应用生态学报,2010(21):2529-2535.
[35]Pakonen T,Laine K,Havas P,et al.Effects of berry production and blossoming on growth,carbohydrates and nitrogen compounds in Vaccinium myrtillus[J].Acta Botanica Fennica,1988,136:37-42.
[36]Mnni R.Declining lingonberry productivity as a result fertilizing pine wood heaths[J].Aquilo,Serie Botanica,1991,31:27-29.
[37]Pietil M,Lhdesmki P,Pakonen T,et al.Effect of nitrogenous air pollutants on changes in protein spectra with the onset of winter in the leaves and shoots of the bilberry (Vaccinium myrtillus L.)[J].Environmental Pollution,1990,66:113-116
[38]Lhdesmki P.How do general metabolism and proteins respond to environmental factors[J].Aquilo,Serie Botanica,1990,29:39-43.
[39]Lhdesmki P,Pakonen T,Saari E,et al.Environmental factors affecting basic nitrogen metabolism and seasonal levels of various nitrogen fractions in tissues of bilberry,Vaccinium myrtillus[J].Holarctic Ecology,1990,13:19-30.
[40]Lhdesmki P,Pakonen T,Saari E,et al.Changes in total nitrogen,protein aminoacids and NH+4 in tissues of bilberry,Vaccinium myrtillus,during growing season[J].Holarctic Ecology,1990,13(1):31-38
[41]Lhdesmki P,Pakonen T,Saari E,et al.Biochemical follow-up of carbon and nitrogen allocation in tissues of the bilberry (Vaccinium myrtillus)[J].Aquilo,Serie Botanica,1993,31:1-4.
[42]Christersson L.Frost hardiness development in Pinus silvestris L.seedlings at different levels of potassium and calcium fertilization[J].Canadian Journal of Forest Research,1975,5:738-740
[43]Puempel U B,Gaebl F,Tranquillini W.Growth,mycorrhizae and frost resistance of Picea abies following fertilization with different levels of nitrogen[J].European Journal of Plant Pathology,1975,5:83-97.
[44]Aronsson A.Frost hardiness in Scots pine (Pinus sylvestris L.).II.Hardiness during winter and spring in young trees of different mineral status[M].Studia Forestalia Suecica,1980,155:1-27.
[45]Hellergren J.Frost hardiness development in Pinus silvestris seedlings in response to fertilization[J].Physiologia Plantarum,1981,52:297-301.
[46]Friedland A J,Gregory R A,Krenlampi L,et al.Winter damage to foliage as a factor in red spruce decline[J].Canadian Journal of Forest Research,1984,14:963-965
[47]Nihlgrd B.The ammonium hypothesis-an additional explanation to the forest dieback in Europe[J].AMBIO,1985,14:2-8.
[48]Clement J M A M,De Boer M,Venema J H,et al.There is no direct relationship between N-status and frost hardiness in needles of NH3-exposed Scots pine seedlings[J].Phyton,2001,40:21-33.
[49]Sheppard L J,Rosengren U,Emmett B A.Do nitrogen additions change the sensitivity of detached shoots from Sitka and Norway spruce to freezing temperaturesEvidence from three eld manipulation studies[J].Scandinavian Journal of Forest Research,2003,18:487-498.
[50]Andivia E,Marquez-Garca B,Vazquez-Pique J,et al.Autumn fertilization with nitrogen improves nutritional status,cold hardiness and the oxidative stress response of Holm oak (Quercus ilex ssp.ballota[Desf.]Samp) nursery seedlings[J].Trees,2012,26:393-404.
[51]Taulavuori K,Taulavuori E,Laine K.A review:frost survival of woody plants at high latitudes with special reference to global change[J].Recent Research Developments in Biochemistry,2003(4):1017-1028.
[52]Taulavuori K,Bauer E,Taulavuori E.Overwintering stress of Vaccinium vitis-idaea in the absence of absence of snow cover[J].Environmental and Experimental Botany,2011,72:397-403.
[53]Tahkokorpi M,Taulavuori E,Taulavuori K,et al.After-effects of drought-related winter stress in previous and current year stems of Vaccinium myrtillus L.[J].Environmental and Experimental Botany,2007,61:85-93.
[54]Kreyling J,Haei M,Laudon H.Absence of snow cover reduces understory plant cover and alters plant community composition in boreal forests[J].Oecologia,2012,168:577-587.
[55]Rixen C,Schwoerer C,Wipf S.Winter climate change at different temporal scales in Vaccinium myrtillus,an Arctic and alpine dwarf shrub[J].Polar Research,2010,29:85-94.
[56]Saarinen T,Lundell R.Overwintering of Vaccinium vitis-idaea in two sub-Arctic microhabitats:a reciprocal transplantation experiment[J].Polar Research,2010,29:38-45.
[57]Lundell R,Saarinen T,strm H,et al.The boreal dwarf shrub Vaccinium vitis-idaea retains its capacity for photosynthesis through the winter[J].Botany,2008,86:491-500.
[58]Lundell R,Saarinen T,Hnninen H.Effects of snowmelt on the springtime photosynthesis of the evergreen dwarf shrub Vaccinium vitis-idaea[J].Plant Ecology and Diversity,2010(3):121-130.
[59]Wipf S,Rixen C,Mulder C P H.Advanced snowmelt causes shift towards positive neighbor interactions in a subarctic tundra community[J].Global Change Biology,2006(12):1496-1506.
[60]Phoenix G K,Gwynn-Jones D,Callaghan T V,et al.Effects of global change on a sub-arctic heath:Effects of enhanced UV-B radiation and increased summer precipitation[J].Journal of Ecology,2001,89:256-267.
[61]Semerdjieva S I,Phoenix G K,Hares D,et al.Surface morphology,leaf and cuticle thickness of four dwarf shrubs from a sub-Arctic heath following long-term exposure to enhanced levels of UV-B[J].Physiologia Plantarum,2003,117:289-294.
[62]Gwynn-Jones D,Lee J A,Callaghan T V.Effects of enhanced UV-B radiation and elevated carbon dioxide concentrations on a sub-arctic forest heath ecosystem[J].Plant Ecology,1997,128:243-249
[63]Robakowski P.Impact of ultraviolet-B radiation on two species of forest dwarf shrubs:bilberry (Vaccinium myrtillus L.) and cowberry (Vaccinium vitis-idaea L.)[J].Polish Journal of Ecology,1999,47:3-13.
[64]Semerdjieva S I,Shefeld E,Phoenix G K,et al.Contrasting strategies for UV-B screening in sub-Arctic dwarf shrubs[J].Plant,Cell and Environment,2003,26:957-964.
[65]Taulavuori E,Bckman M,Taulavuori K,et al.Long-term exposure to enhanced UV-B radiation in the sub-arctic does not cause oxidative stress in Vaccinium myrtillus[J].New Phytologist,1998,140:691-697.[66]Taulavuori K,Taulavuori E,Laine K.UV-B and plant frost hardiness in the sub-arctic[J].Arctic Antarctic and Alpine Research,2005,37:102-106.
[67]Beerling D J,Terry A C,Mitchell P L,et al.Time to chill:effects of simulated global change on leaf ice nucleation temperatures of subarctic vegetation[J].American Journal of Botany,2001,88:628-633
[68]Taulavuori K,Taulavuori E,Suokanerva H,et al.Decreased frost hardiness of Vaccinium vitis-idaea in response to UV-A radiation[J].Physiologia Plantarum,2012,145:516-526.

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备注/Memo

第一作者简介:黄磊(1988-),男,硕士研究生,研究方向为植物生理生态学。

责任作者:郑云普(1981-),男,博士,讲师,现主要从事全球变化生态学领域等研究工作。E-mail:zhengyunpu_000@sina.com.
基金项目:国家自然科学基金资助项目(31400418,30972348);中国博士后科学基金面上资助项目(2014M1044);大连大学博士科研启动基金资助项目;大连民族学院研究生创新基金资助项目(YCX20141035)。
收稿日期:2014-09-02

更新日期/Last Update: 2014-12-13