引文
[1]Zhang W,Zhou L J,Pan F M,Liu B,Luo J G,Wang F.The application of CBERS data to rapid assessment of forest resources loss in Wenchuan Earthquake region.Journal of Mountain Science,2008,26(6):748-754.
[2]Cheng S,Song H T.Effects of Wenchuan earthquake on giant panda habitat in Wolong National Nature Reserve.Journal of Mountain Science,2008,26(S1):65-69.
[3]Liu C P,Sheu B H.Effects of the921earthquake on the water quality in the upper stream at the Guandaushi experimental forest.Water,Air and Soil Pollution,2007,179(1/4):19-27.
[4]Schuster R L,Highland L M.Overview of the effects of mass wasting on the natural environment.Environmental and Engineering Geoscience,2007,13(1):25-44.
[5]Allen R B,Bellingham P J,Wiser S K.Immediate damage by an earthquake to a temperate montane forest.Ecology,1999,80(2):708-714.
[6]Vittoz P,Stewart G H,Duncan R P.Earthquake impacts in old-growth Nothofagus forests in New Zealand.Journal of Vegetation Science,2001,12(3):417-426.
[7]Tian J,Tian T,Zhao T N,Gao J R.Application of micro-site factors revegetation technology(MFRT)to revegetation of Wenchuan after earthquake.Science of Soil and Water Conservation,2008,6(5):16-20.
[8]Xu Z H,Liu J,Yu K Y.Discussion on the key techniques for post-disaster forest vegetation's reconstruction based on RS and GIS.Acta Agriculturae Universitatis Jiangxiensis,2009,31(3):437-440.
[9]Zhang Y,Xiong C L,Cai Y,Zhang S R,Li T,Yuan D G.Research of soil microorganism distribution after earthquake.Southwest China Journal of Agricultural Sciences,2009,22(5):1404-1409.
[10]Pan X J,Zhang Y.Selection and application of plants in ecosystems reconstruction after the earthquake.Journal of Institute of Disaster-Prevention Science and Technology,2009,11(3):9-13.
[11]Blackman S A,Obendorf R L,Leopold A C.Maturation proteins and sugars in desiccation tolerance of developing soybean seeds.Plant Physiology,1992,100(1):225-230.
[12]Chen Y G,Burris J S.Role of carbohydrates in desiccation tolerance and membrane behavior in maturing maize seed.Crop Science,1990,30(5):971-975.
[13]Chen L S,Liu X H.Effects of water stress on sucrose metabolism in Litchi leaves and its relation to drought resistance.Chinese Journal of Tropical Crops,1999,20(2):31-36.
[14]Wang X,Hou P,Yin L K,Feng D Q,Pan B R.Effect of Soluble Substance of Tamarix under Soil-water Stress Slowly.Arid Zone Research,1999,16(2):6-11.
[15]Xu S J,An L Z,Feng H Y,Wang X L,Li X R.Comparative study on indexes of two drought-resistance desert plants.Acta Botanica Boreali-Occidentalia Sinica,2000,20(2):224-228.
[16]Ranney T G,Whitlow T H,Bassuk N L.Response of five temperate deciduous tree species to water stress.Tree Physiology,1990,6(4):439-448.
[17]Cui G W.Effect of low temperature stress on soluble sugar and starch of alfalfa at germination period.Journal of Northeast Agricultural University,2009,40(1):72-76.
[18]Liu Y.Study on Adaptability of Morphological and Physiological of White Clover under low Temperature Stress[D].Harbin:Northeast Agricultural University,2008.
[19]Zhang S D.Chinese Chive's Dormancy Characteristic and Change of Soluble Sugar Content and Enzymes'Activity over Winter[D].Tai'an:Shandong Agricultural University,2004.
[20]Zhu J L.Effects of Carbohydrate Reserves upon the Winter Hardiness of Alfalfa[D].Changchun:Northeast Normal University,2008.
[21]Pan Q M,Han X G,Bai Y F,Yang J C.Advances in physiology and ecology studies on stored non-structure carbohydrates in plants.Chinese Bulletin of Botany,2002,19(1):30-38.
[22]Zou Q.Guidance of Plant Physiological and Biochemical Experiments.Beijing:China Agriculture Press,1995.
[23]Gibson S I.Plant sugar response pathways.Part of a complex regulatory web.Plant Physiology,2000,124(4):1532-1539.
[24]Li T H,Li S H.Effects of water deficiency stresses on components and contents of the non-structured carbohydrates in the tissue-cultured apple seedlings.Chinese Agricultural Science Bulletin,2002,18(4):35-40.
[25]Sun G R,Zhang R,Jiang L F,Yan X F.Water metabolism and changes of several osmotica in leaves of Betula platyphylla seedlings under drought stress.Bulletin of Botanical Research,2001,21(3):25-31.
[26]Mi H L,Xu X,Li S H,He J,Zhang Y P,Zhao T C,Ma Y M.Effects of soil water stress on contents of chlorophyll,soluble sugar starch,C/N of two desert plants(Qnanchum komarovii and Glycyrrhiza uralensis).Acta Botanica Boreali-Occidentalia Sinica,2004,24(10):1816-1821.
[27]Ericsson A.Some Aspects of Carbohydrate Dynamics in Scots Pine Trees(Pinus sylvestris L.)[D].Sweden:UmeUniversity,1980.
[28]McCully M E.Selected aspects of the structure and development of field-crown roots with special reference to maize∥Gregory P J,Lake J V,Rose D A,eds.Root Development and Function.Cambridge:Cambridge University Press,1990:53-70.
[29]Dang Q L,Cheng S.Effects of soil temperature on ecophysiological traits in seedlings of four boreal tree species.Forest Ecology and Management,2004,194(1/3):379-387.
[1]张文,周立江,潘发明,刘波,骆建国,王峰.利用CBERS进行汶川地震区森林资源损失快速评估.山地学报,2008,26(6):748-754.
[2]程颂,宋洪涛.汶川大地震对四川卧龙国家自然保护区大熊猫栖息地的影响.山地学报,2008,26(S1):65-69.
[7]田佳,田涛,赵廷宁,高甲荣.微立地因子植被恢复法在汶川地震植被重建中的应用.中国水土保持科学,2008,6(5):16-20.
[8]许章华,刘健,余坤勇.基于RS与GIS地震灾害后森林植被重建的关键技术探讨.江西农业大学学报,2009,31(3):437-440.
[9]张毅,熊春莲,蔡艳,张世熔,李婷,袁大刚.震后土壤微生物分布状况研究.西南农业学报,2009,22(5):1404-1409.
[10]潘静娴,张莹.地震灾后生态系统重建中的植被恢复初探.防灾科技学院学报,2009,11(3):9-13.
[13]陈立松,刘星辉.水分胁迫对荔枝叶片糖代谢的影响及其与抗旱性的关系.热带作物学报,1999,20(2):31-36.
[14]王霞,侯平,尹林克,冯大千,潘伯荣.水分胁迫对柽柳植物可溶性物质的影响.干旱区研究,1999,16(2):6-11.
[15]徐世健,安黎哲,冯虎元,王勋陵,李新荣.两种沙生植物抗旱生理指标的比较研究.西北植物学报,2000,20(2):224-228.
[17]崔国文.低温胁迫对紫花苜蓿种子萌发期可溶性糖和淀粉的影响.东北农业大学学报,2009,40(1):72-76.
[18]刘颖.低温胁迫下白三叶不同品种形态和生理适应性研究[D].哈尔滨:东北农业大学,2008.
[19]张曙东.韭菜越冬期间的休眠特性及可溶性糖含量与酶活性的变化[D].泰安:山东农业大学,2004.
[20]朱建玲.贮藏性碳水化合物对苜蓿抗寒性的影响研究[D].长春:东北师范大学,2008.
[21]潘庆民,韩兴国,白永飞等.植物非结构性贮藏碳水化合物的生理生态学研究进展.植物学通报,2002,19(1):30-38.
[22]邹琦.植物生理生化实验指导.北京:中国农业出版社,1995.
[24]李天红,李绍华.水分胁迫对苹果苗非结构性碳水化合物组分及含量的影响.中国农学通报,2002,18(4):35-40.
[25]孙国荣,张睿,姜丽芬等.干旱胁迫下白桦实生苗叶片的水分代谢与部分渗透调节物质的变化.植物研究,2001,21(3):25-31.
[26]米海莉,许兴,李树华等.水分胁迫对牛心朴子、甘草叶片色素、可溶性糖、淀粉含量及碳氮比的影响.西北植物学报,2004,24(10):1816-1821.