丁贵杰,周志春,王章荣,等. 2006.马尾松纸浆用材树种培育与利用.北京:中国林业出版社,1-34. (Ding G J, Zhou Z C, Wang Z R,et al. 2006. Cultivation and utilization of pulpwood stand for Pinus massoniana. Beijing: China Forestry Publishing House,1-34. [in Chinese]) 杜明凤,丁贵杰. 2016.不同种源马尾松ISSR遗传结构及影响因素分析.广西植物,36(9):1068-1075. (Du M F, Ding G J. 2016. Analysis of genetic structure and its related factors of Pinus massoniana from different populations by ISSR marker. Guihaia, 36(9):1068-1075. [in Chinese]) 胡晓健,欧阳献,喻方圆. 2010.干旱胁迫对不同种源马尾松苗木生长及生物量的影响.江西农业大学学报,32(3): 510-516. (Hu X J, Ouyang X, Yu F Y. 2010. Effects of drought stress on the growth and biomass of Pinus massoniana seedlings in different provenances. Acta Agriculturae Universitatis Jiangxiensis, 32(3): 510-516. [in Chinese]) 黄承玲,陈 训,高贵龙. 2011.3种高山杜鹃对持续干旱的生理响应及抗旱性评价.林业科学, 47(6):48-55. (Huang C L, Chen X, Gao G L.2011. Physiological response of seedlings of three Azalea species of drought stress and evaluation of drought resistance. Scientia Silvae Sinicae, 47(6):48-55.[in Chinese]) 康宗利,杨玉红,张立军. 2006.植物响应干旱胁迫的分子机制.玉米科学, 14(2): 96-100. (Kang Z L, Yang Y H, Zhang L J. 2006. Molecular mechanism of responding to drought stress in plants. Journal of Maize Sciences, 14(2): 96-100. [in Chinese]) 秦国峰,周志春.2012.中国马尾松优良种质资源.北京:中国林业出版社,1-41. (Qin G F, Zhou Z C. 2012. Germplasm Resources of Chinese Masson Pine. Beijing: Chinese Forestry Publishing House, 1-41. [in Chinese]) 任 磊,赵夏陆,许 靖, 等. 2015.4种茶菊对干旱胁迫的形态和生理响应.生态学报,35(15):5131-5139. (Ren L, Zhao X L, Xu J,et al.2015.Varied morphological and physiological responses to drought stress among four tea Chrysanthemum cultivars. Acta Ecologica Sinica, 35(15):5131-5139. [in Chinese]) 王林龙,李清河,徐 军,等. 2015. 不同种源油蒿形态与生理特征对干旱胁迫的响应.林业科学, 51(2): 37-43. (Wang L L, Li Q H, Xu J,et al. 2015. Morphology and physiology characteristic responses of different provenances of Artemisia ordosica to drought stress. Scientia Silvae Sinicae, 51(2): 37-43. [in Chinese]) 王 艺,丁贵杰. 2013.马尾松菌根化苗木对干旱的生理响应及抗旱性评价.应用生态学报, 24(3):639-645. (Wang Y, Ding G J. 2013. Physiological responses of mycorrhizal Pinus massoniana seedlings to drought stress and drought resistance evaluation. Chinese Journal of Applied Ecology, 24(3):639-645. [in Chinese]) 卫 星,王政权,张国珍,等. 2009.水曲柳苗木不同根序对干旱胁迫的生理生化反应. 林业科学,45(6):16-21. (Wei X, Wang Z Q, Zhang G Z,et al. 2009. Physiological and biochemical responses of different order roots in Fraxinus mandshurica seedlings to drought stress. Scientia Silvae Sinicae, 45(6): 16-21.[in Chinese]) 吴丽君,李志辉,杨模华,等. 2015.赤皮青冈幼苗叶片解剖结构对干旱胁迫的响应.应用生态学报, 26(12):3619-3626. (Wu L J, Li Z H, Yang M H, et al.2015. Response of leaf anatomical characteristics of Cyclobalanopsis gilva seedlings to drought stress. Chinese Journal of Applied Ecology, 26(12):3619-3626. [in Chinese]) 续九如. 2006.林木数量遗传学.北京:高等教育出版社, 1-117. (Xu R J. 2006. Trees quantitative genetics. Beijing: Higher Education Press, 1-117. [in Chinese]) 杨敏生,裴保华,朱之悌. 1997.水分胁迫下白杨无性系生理和生长的数量遗传分析.北京林业大学学报,19(2):50-56. (Yang M S, Pei B H, Zhu Z T. 1997. Quantity genetic analysis of the physiological and growth properties for white poplar hybrid clones. Journal of Beijing Forestry University, 19(2):50-56 [in Chinese]) 杨敏生,裴保华,朱之悌. 2002. 白杨双交杂种无性系抗旱性鉴定指标分析.林业科学,38(6):36-42. (Yang M S, Pei B H, Zhu Z T. 2002. Index analysis on comprehensive judgement of drought resistance ability of white poplar bybrid clones. Scientia Silvae Sinicae, 38(6):36-42. [in Chinese]) 应叶青,刘 鹏,王兴华,等. 2012.干旱对不同种源喜树苗木生长及叶片喜树碱产量的影响. 林业科学, 48(11):30-35. (Ye Y Q, Liu P, Wang X H,et al. 2012. Effect of drought stress on the seedling growth from different provenances and camptothecin yield in leaves of Camptotheca acuminata. Scientia Silvae Sinicae, 48(11):30-35. [in Chinese]) 周志春,谢钰容,金国庆,等. 2004.马尾松磷效率及相关性状的家系遗传和变异.北京林业大学学报,26(6):1-5. (Zhou Z C, Xie Y R, Jin G Q,et al.2004.Inheritance and variation of phosphorus efficiency and its related traits in families of Pinus massoniana. Journal of Beijing Forestry University, 26(6):1-5. [in Chinese]) Amrita G D, Keith T K, Walter G W. 2004. Plant water relations and photosynthesis during and after drought in a Chihuahuan desert arroyo. Journal of Arid Environments, 59(1):27-39. Antonino D I, Antonio M, Gabriella S S,et al. 2011.Fine root growth of Quercus pubescens seedlings after drought stress and fire disturbance. Environmental and Experimental Botany, 74(2):272-279. Dounavi A, Netzer F, Celepirovic N,et al. 2016. Genetic and physiological differences of European beech provenances (F. sylvatica L.) exposed to drought stress. Forest Ecology and Management, 361(2):226-236. Fang Y J, Xiong L Z.2015. General mechanisms of drought response and their application in drought resistance improvement in plants. Cellular & Molecular Life Sciences, 72(4):673-689. Finér L, Ohashi M, Noguchi K, et al. 2011. Factors causing variation in fine root biomass in forest ecosystems. Forest Ecology and Management, 261(2):265-277. Liu C C, Liu Y G, Guo K,et al. 2011. Effect of drought on pigments, osmotic adjustment and antioxidant enzymes in six woody plant species in Karst habitats of southwestern China. Environmental and Experimental Botany, 71(6):174-183. Majdi H, Andersson P. 2005. Fine root production and turnover in a Norway spruce stand in northern Sweden: effects of nitrogen and water manipulation. Ecosystems, 8(2): 191-199. Shulaev V, Cortes D, Miller G, et al. 2008. Metabolomics for plant stress response. Physiologia Plantarum, 132(2):199-208. Silva E N,Ferreira-Silva S L, Viégas R A, et al. 2010. The role of organic and inorganic solutes in the osmotic adjustment of drought-stressed Jatropha curcas plants. Environmental and Experimental Botany, 69(3): 279-285. |