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¡¶±±·½Ô°ÒÕ¡·[ISSN:1001-0009/CN:23-1247/S]

Issue:

2017Äê13

Page:

102-107

Research Field:

Publishing date:

Info

Title:

Effect of Urban Environment on Growth and Photosynthesis in Transplanted ª¥ Pinus tabulaeformis With Different Initial Sizes

Author(s):

LAN Xin1; LIU Yang1; ZHANG Yu2; WEI Hongxu3

(1.West Mountains Experimental Tree Farm,Beijing 100093£»2.The Ming Tombs Tree Farm,Beijing 102200£»3.Northeast Institute of Geography and Agroecology,Chinese Academy of Sciences,Changchun,Jilin 130102)ª¤

Keywords:

urban-rural difference; urban forest; photosynthetic production; seedling quality; extended photoperiod

PACS:

-

DOI:

10.11937/bfyy.20165038

Abstract:

Fast development of urbanization results in a large request of tree transplant to meet the demand for urban greening.With the aim to supply theoretical evidence to urban greening,Pinus tabulaeformis seedlings were cultured as materials under contrasting photoperiods to quantify responses of growth and photosynthesis of transplanted seedlings to urban environment.The results showed that compared with the rural environment,seedlings transplanted in urban environment had greater shoot morphological growth but depressed root length.They had negative values of net photosynthesis rate but higher stomotal conductance and transpiration rate than those in rural area.Extended photoperiod during seedling culture did not resulted in any significantly interactive effect with the factor of urban-rural locations;also it failed to affect net photosynthesis rate and intercellular CO2 concentration.In contrast,the longer cultural photoperiod resulted in higher stomotal conductance and transpiration rate.In conclusion,urban environment imposed transplanted seedlings at a high-consumption status,which could not be improved by solely treatment of extended photoperiod during seedling culture.ª¤

References:

 

[1]ANGEL S,SHEPPARD S C,CIVCO D L.The dynamics of global urban expansion[M].Washington,D.C.:The World Bank,2005.ª¤

[2]SETO K C,G¦aNERALP B,HUTYRA L R.Global forecasts of urban expansion to 2030 and direct impacts on biodiversity and carbon pools[J].PNAS,2012,109:16083-16088.ª¤

[3]MARIOTTI B,MAITONI A,CHIARABAGLIO P M,et al.Can the use of large,alternative nursery containers aid in field establishment of Juglans regia and Quercus robur seedlings[J].New Forests,2015,46:773-794.ª¤

[4]YAMASHITA N,OKUDA S,SUWA R,et al.Impact of leaf removal on initial survival and growth of container-grown and bare-root seedlings of Hinoki cypress (Chamaecyparis obtusa)[J].Forest Ecology and Management,2016,370:76-82.ª¤

[5]SHEN W J,WU J G,GRIMM N B,et al.Effects of urbanization-induced environmental changes on ecosystem functioning in the phoenix metropolitan region,USA[J].Ecosystems,2008,11:138-155.ª¤

[6]GREGG J W,JONES C G,DAWSON T E.Urbanization effects on tree growth in the vicinity of New York city[J].Nature,2003,424:183-187.ª¤

[7]SEARLE S Y,TURNBULL M H,BOELMAN N T,et al.Urban environment of New York city promotes growth in northern red oak seedlings[J].Tree Physiology,2012,32:389-400.ª¤

[8]Íõºé·å,ÄÂÁ¢Ç¾,Íõºé³É,µÈ.×Ïé²ÔÚ×ÔÈ»ºÍ³ÇÊл·¾³ÖÐÉú³¤×´¿ö±È½ÏÑо¿[J].Î÷±±ÁÖѧԺѧ±¨,2012(27):101-105.ª¤

[9]ÕŲ¨,ÍõÎĽÜ,ÖÜΰ,µÈ.¹þ¶û±õÊгÇÊÐÉ­ÁÖÊ÷ľÉú³¤×´¿ö¼°¸÷Éú³¤Ö¸±êµÄÏà¹ØÐÔ·ÖÎö[J].°²»ÕÅ©Òµ¿Æѧ,2016,44(26):127-128.ª¤

[10]RAHMAN M A,ARMSON D,ENNOS A R.Effect of urbanization and climate change in the rooting zone on the growth and physiology of Pyrus calleryana[J].Urban Forestry & Urban Greening,2013,13:325-335.ª¤

[11]WEI H X,REN J,ZHOU J H.Effect of exponential fertilization on growth and nutritional status in Buddhist pine (Podocarpus macrophyllus[Thunb.]D.Don) seedlings cultured in natural and prolonged photoperiods[J].Soil Science and Plant Nutrition,2013,59:933-941.ª¤

[12]ZHU K Y,LIU H C,WEI H X.Prediction of nutrient leaching from culture of containerized Buddhist pine and Japanese maple seedlings exposed to extended photoperiod[J].International Journal of Agriculture and Biology,2016,18:425-434.ª¤

[13]Íõçü,ÁõÓÂ,Àî¹úÀ×,µÈ.ÈÝÆ÷ÀàÐͼ°¹æ¸ñ¶ÔÓÍËÉÈÝÆ÷Ãçµ×²¿Éø¹àºÄË®¹æÂɼ°Éú³¤µÄÓ°Ïì[J].ÁÖÒµ¿Æѧ,2016,52(6):10-17.ª¤

[14]LUIS V C,PU¦IRTOLAS J,CLIMENT J,et al.Nursery fertilization enhances survival and physiological status in Canary Island pine (Pinus canariensis) seedlings planted in a semiarid environment[J].European Journal of Forest Research,2009,128:221-229.ª¤

[15]PARKER W C,PITT D G,MORNEAULT A E.Influence of woody and herbaceous vegetation control on leaf gas exchange,water status,and nutrient relations of eastern white pine (Pinus strobus L.) seedlings planted in a central Ontario clearcut[J].Forest Ecology and Management,2010,260:2012-2022.ª¤

[16]KIVIM¦FENP¦F¦F M,GHIMIRE R P,SUTINEN S,et al.Increases in volatile organic compound emissions of Scots pine in response to elevated ozone and warming are modified by herbivory and soil nitrogen availability[J].European Journal of Forest Research,2016,135:343-360.ª¤

[17]YANG Y,LI C.Photosynthesis and growth adaptation of Pterocarya stenoptera and Pinus elliottii seedlings to submergence and drought[J].Photosynthetica,2016,54:120-129.ª¤

[18]XU S,HE X Y,CHEN W,et al.Elevated CO2 ameliorated the adverse effect of elevated O3 in previous-year and current-year needles of Pinus tabulaeformis in urban area[J].Bulletin of Environmental Contamination and Toxicology,2014,92:733-737.ª¤

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