[1]Cai Z-Q(蔡志全),Qin X-Y(秦秀英).2002.Advances in the studies on plant production and emission of volatile organic compounds.Ecol Sci(生态科学),21(1):86~90(in Chinese) [2]Calogirou A,Nicollin B,Duane M,et al.1996.Impact of biogenic hydrocarbons on photochemical ozone formation-Preliminary results.Fresnius Environ Bull,5:523~537 [3]Centritto M,Nascetti P,Petrilli L,et al.2004.Profiles of isoprene emission and photosynthetic parameters in hybrid poplars exposed to free-air CO2 environment.Plant Cell Environ,27(4):403~412 [4]Chen X(陈雄),Wu D-X(吴冬秀),Wang G-X(王根轩),et al.2000.Effect of elevated CO2 concentration on photosynthesis and antioxidative enzyme activities of wheat plant grown under drought condition.Chin J Appl Ecol(应用生态学报),11(6):881~884(in Chinese) [5]Constable JVH,Guenther AB,Schimel DS,et al.1999a.Modeling changes in VOC emission in response to climate change in the continental United States.Global Change Biol,5:791~806 [6]Constable JVH,Litvak ME,Greenberg JP,et al.1999b.Monoterpene emission from coniferous trees in response to elevated CO2 concentration and climate warming.Global Change Biol,5:255~267 [7]Coviella CE,Stipanovic RD,Trumble JT.2002.Plant allocation to defensive compounds:Interactions between elevated CO2 and nitrogen in transgenic cotton plants.J Exp Bot,53:323~331 [8]Cui X-Y(崔骁勇),Zhao G-D(赵广东),Liu S-R(刘世荣).2002.Phytogenic isoprene and its ecological significance.Chin J Appl Ecol(应用生态学报),13(4):505~509(in Chinese) [9]Donnelly A.2000.Elevated CO2 provides protection from O3 induced photosynthetic damage and chlorophyll loss in flag leaves of spring wheat.Agric Ecosyst Environ,80(2):159~168 [10]Finnan JM.2002.The effects of elevated concentrations of carbon dioxide and ozone on potato (Solanum tuberosum L.) yield.Agric Ecosyst Environ,88(1):11~22 [11]Francesco L,Robert JF,Jorg-Peter S,et al.2001.Monoterpene emission and monoterpene synthase activities in the Mediterranean evergreen oak Quercus ilex L.grown at elevated CO2 concentrations.Global Change Biol,7(6):709~717 [12]Heiden AC,Hoffman T,Kley D,et al.1999.Emission of volatile organic compounds from ozone-exposed plants.Ecol Appl,9:1160~1167 [13]Hewitt CN,Kok GL,Fall R.1990.Hydroperoxides in plants exposed to ozone mediate air pollution damage to alkene emitters.Nature,344:56~58 [14]Huang J-H(黄京华),Li H-S(黎华寿),Yang J(杨军),et al.2004.Chemical components of Vetiveria zizanioides volatiles.Chin J Appl Ecol(应用生态学报),15(1):170~172(in Chinese) [15]IPCC.2001.Third Assessment Report-Climate Change 2001:The Scientific Basis.Cambridge UK:Cambridge University Press. [16]Jiang G-M(蒋高明),Huang Y-X(黄银晓),Han X-G(韩兴国).1998.Changes in atmospheric CO2 of urban and mountain forest areas during the summer and autumn seasons.Acta Sci Circ(环境科学学报),18(1):108~111(in Chinese) [17]Johnson RH,Lincoln DE.1991.Sagebrush carbon allocation patterns and grasshopper nutrition:The influence of CO2 enrichment and soil mineral limitation.Oecologia,87:127~134 [18]John VH,Constable JVH,Guenther B,et al.1999.Modelling changes in VOC emission in response to climate change in the continental United States.Global Change Biol,5(7):791~806 [19]John VH,Constable JVH,Marcy EL,et al.1999.Monoterpene emission from coniferous trees in response to elevated CO2 concentration and climate warming.Global Change Biol,5(3):252~267 [20]Kaakinen S,Kostiainen K,Fredrik E,et al.2004.Stem wood properties of Populus tremuloides,Betula papyrifera and Acer saccharum saplings after 3 years of treatments to elevated carbon dioxide and ozone.Global Change Biol,10(9):1513~1525 [21]Kainulainen P,Holopainen JK,Holopainen T.1998.The influence of elevated CO2 and O3 concentrations on Scots pine needles:Changes in starch and secondary metabolites over three exposure years.Oecologia,114:455~460 [22]Kainulainen P,Holopainen JK,Holopainen T.2000.Combined effects of ozone and nitrogen on secondary compounds,amino acids and aphid performance in Scots pine.J Environ Qual,29:334~342 [23]Kang J-H(康建宏),Zhou X-L(周续莲),Xu Q(许强).2002.Response of plant to elevating atmospheric carbon dioxide.J Ningxia Agric Coll(宁夏农学院学报),23(4):53~58(in Chinese) [24]Karnosky DF,Mankovska B,Percy K,et al.1999.Effects of tropospheric O3 on trembling aspen and interaction with CO2:Results from and O3-gradient and a FACE experiment.Water Air Soil Pollut,116:311~322 [25]Li F-S(李伏生),Kang S-Z(康绍忠),Zhang F-C(张富仓).2003.Effects of CO2 enrichment,nitrogen and water on photosynthesis,evapotranspiration and water use efficiency of spring wheat.Chin J Appl Ecol(应用生态学报),14(3):387~393(in Chinese) [26]Lincoln DE,Couvet D.1989.The effect of carbon supply on allocation to allelo chemicals and caterpillar consumption of peppermint.Oecologia,78:112~114 [27]Lindroth RL,Kopper BJ,Parsons WF,et al.2001.Consequences of elevated carbon dioxide and ozone for foliar chemical composition and dynamics in trembling aspen (Populus tremuloides) and paper birch (Betula papyrifera).Environ Pollut,115(3):395~404 [28]Llusia J,Penuelas J,Gimeno BS,et al.2002.Seasonal and species-specific response of VOC emissions by Mediterranean woody plant to elevated ozone concentrations.Atmos Environ,36:3931~3938 [29]Loats KV,Rebbeck J.1999.Interactive effects of ozone elevated carbon dioxide on the growth and physiology of black cherry,green ash,and yellow-poplar seedlings.Environ Pollut,106(2):237~248 [30]Loreto F,Sharkey TD.1990.A gas-exchange study of photosynthesis and isoprene emission in Quercus rubra L.Planta,182:523~531 [31]Loreto F,Delfine S.2000.Emission of isoprene from salt-stressed Eucalyptus globules leaves.Plant Physiol,123:1605~1610 [32]Malcolm P,Hewitt CN,David JB,et al.2005.The effects of glacial atmospheric CO2 concentrations and climate on isoprene emissions by vascular plants.Global Change Biol,1(11):60~69 [33]Manninen AM,Holopainen T,Saarenmaa PL,et al.2000.The role of low-level ozone exposure and mycorrhizas in chemical quality and insect herbivore performance on Scots pine seedlings.Global Change Biol,6(1):111~121 [34]Michael S,Celine M,Richard J,et al.2004.Isoprenoid emission of Quercus spp.(Q.suber and Q.ilex) in interspecific genetic introgression.New Phytol,163(3):573~584 [35]Oksanen E,Sober J,Karnosky DF.2001.Impacts of elevated CO2 and/or O3 on leaf ultrastructure of aspen (Populus tremuloides) and birch (Betula papyrifera) in the aspen FACE experiment.Environ Pollut,115(3):437~446 [36]Olszyk DM.1997.Interactive effects of elevated CO2 and O3 on rice and flacca tomato.Agric Ecosys Environ,66(1):1~10 [37]Olszyk DM,Johnson MG,Phillips DL,et al.2001.Interactive effects of CO2 and O3 on a ponderosa pine plant/litter/soil mesocosm.Environ Pollut,115(3):447~462 [38]Papparini F,Baraldi R,Miglietta F,et al.2004.Isoprenoid emission in trees of Quercus pubescens and Quercus ilex with lifetime exposure to naturally high CO2 environment.Plant Cell Environ,27(4):381~391 [39]Penuelas J,Llusia J,Gimeno BS.1999.Effects of ozone concentrations on biogenic volatile organic compounds emission in the Mediterranean region.Environ Pollut,105:17~23 [40]Piero DC,William HB,Monica M,et al.2004.Missing OH reactivity in a forest:Evidence for unknown reactive biogenic VOCs.Science,304:722~725 [41]Richard J,Chad K,Cary G,et al.2004.Altered leaf and root emissions from onion (Allium cepa L.) grown under elevated CO2 conditions.Environ Exp Bot,51:273~280 [42]Richer CM,Wild A.1992.Phenolic compounds in needles of Norway spruce trees in relation to novel forest decline I.Studies on trees from a site in the Northern black forest.Biochem Physiol Pflanzen,188:305~320 [43]Rudolph J,Wedel A,Schuh G,et al.1997.Emissions of volatile organic compounds from agriculturally used vegetation:Ambient measurements,field studies of emissions and laboratory investigations.American Meteorological Society,University of Virginia,Charlottesville,VA,USA.22~25 [44]Sallas L,Kainulainen P,Utriainen J,et al.2001.The influence of elevated O3 and CO2 concentrations on secondary metabolites of Scots pine seedlings.Global Change Biol,7:303~311 [45]Sallas L,Luomala EM,Utriainen J,et al.2003.Contrasting effects of carbon dioxide (CO2) enrichment and elevated temperature on Rubisco activity,chlorophyll fluorescence,needle ultra-structure and secondary metabolites in conifer seedlings.Tree Physiol,23:97~108 [46]Shen X-Y(沈学优),Luo X-L(罗晓璐),Zhu L-Z(朱利中).2001.Progress of research on volatile organic compounds in ambient air.J Zhejiang Univ(Nat Sci) (浙江大学学报·自然科学版),28(5):547~556(in Chinese) [47]Simpson D,Winiwarter W,Borjesson G,et al.1999.Inventorying emissions from nature in Europe.J Geoph Res,104:8113~8125 [48]Staudt M,Joffre R,Rambal S,et al.2001.Effect of elevated CO2 on monoterpene emission of young Quercus ilex trees and its relation to structural and ecophysiological parameters.Tree Physiol,21:437~445 [49]Terhi V,Reddy GVP,Anne-Marja N,et al.2004.Monoterpene and herbivore-induced emissions from cabbage plants grown at elevated atmospheric CO2 concentration.Atmos Environ,38:675~682 [50]Todd NR,Mark JP,Kevin LG,et al.2003.Increased CO2 uncouples growth from isoprene emission in an agriforest ecosystem.Nature,421:256~259 [51]Wang K-Z(汪开治).1993.Effects of environmental ozone pollution on plant.Bull Biol(生物学通报),28(4):1~2(in Chinese) [52]Wang M-X(王明星),Yang X(杨昕).2001.Some new advances of atmospheric chemistry.Prog Nat Sci(自然科学进展),11(6):561~567(in Chinese) [53]Wilson IM,Borden JH,Gries G,et al.1996.Green leaf volatiles as antiaggregants for the mountain pine beetle,Dendroctonus ponderosae Hopkins (Coleoptera:Scolytidae).J Chem Ecol,22:1861~1875 [54]Yang D-Q(杨丹箐),Pan N-M(潘南明),Bai Y-H(白郁华),et al.2001.A study on hydrocarbon compounds emitted from natural forest sources in Pearl river delta.Guangzhou Environ Sci(广州环境科学),16(3):34~38(in Chinese) [55]Zhang L-S(张兰生),Fang X-Q(方修琦).2000.Global Changes.Beijing:Higher Education Press.225~257(in Chinese) [56]Zhao T-H(赵天宏),Shi Y(史奕),Huang G-H(黄国宏).2003.Effect of doubled CO2,and O3 concentration and their interactions on ultrastructure of soybean chloroplast.Chin J Appl Ecol(应用生态学报),14(12):2229~2232(in Chinese) |