程瑞梅, 刘泽彬, 封晓辉, 等. 2015. 气候变化对树木木质部生长影响的研究进展. 林业科学, 51(6):147-154. (Cheng R M, Liu Z B, Feng X H, et al. 2015. Advances in research on the effect of climatic change on xylem growth of trees. Scientia Silvae Sincae, 51(6):147-154.) 董志鹏, 郑怀舟, 方克艳, 等. 2014. 福建三明马尾松树轮宽度对气候变化的响应. 亚热带资源与环境学报, 9(1):1-7. (Dong Z P, Zheng H Z, Fang K Y, et al. 2014.Responses of tree-ring width of Pinus massiniana to climate change in Sanming, Fujian Province. Journal of Subtropical Resources and Environment, 9(1):1-7.[in Chinese]) 侯鑫源, 史江峰, 李玲玲, 等. 2015. 湖北神农架巴山冷杉径向生长对气候的响应. 应用生态学报, 26(3):689-696. (Hou X Y, Shi J F, Li L L, et al. 2015. Growth response of Abies fargesii to climate in Shenongjia Mount of Hubei Province, southeastern China. Chinese Journal of Applied Ecology, 26(3):689-696.[in Chinese]) 李军龙, 徐雯. 2011. 树轮宽度对气候变化响应的研究进展. 西南林业大学学报, 31(3):86-91. (Li J L, Xu W. 2011. Research progress in the study on response of tree ring width to climatic change. Journal of Southwest Forestry University, 31(3):86-91.[in Chinese]) 李玲玲, 史江峰, 侯鑫源, 等. 2014. 中国东南高海拔黄山松生长对气候的响应——以浙江省九龙山和安徽省牯牛降为例. 应用生态学报, 25(7):1849-1856. (Li L L, Shi J F, Hou X Y, et al. 2014. High altitude Pinus taiwanensis hayata growth response to climate in Jiulongshan and Guniujiang, southeastern China. Chinese Journal of Applied Ecology, 25(7):1849-1856.[in Chinese]) 李雁, 梁尔源, 邵雪梅. 2008. 柴达木盆地东缘青海云杉树轮细胞结构变化特征及其对气候的指示. 应用生态学报, 19(3):524-532. (Li Y, Liang E Y, Shao X M. 2008. Variations of Picea crassifolia tree-ring cell structure and their implications to past climate in eastern margin of Qaidam Basin, northwest China. Chinese Journal of Applied Ecology, 19(3):524-532.[in Chinese]) 刘文耀, 谢寿昌, 谢克金, 等. 1995.哀牢山中山湿性常绿阔叶林凋落物和粗死木质部的初步研究. 植物学报, 37(10):807-814. (Liu W Y, Xie S C, Xie K J, et al. 1995. Prelminary studies on the litterfall and coarse woody debris in mid-mountain humd evergreen broad-leaved forest in Ailao Mountains. Acta Botanica Sinica, 37(10):807-814.[in Chinese]) 彭剑锋, 孙小华, 王飞, 等. 2013. 西大别山百战坪黄山松径向生长对气候因子的响应. 生态环境学报, 22(11):1769-1773. (Peng J F, Sun X H, Wang F, et al. 2013. Climatic signals from the radial growth of Huangshan pine (Pinus taiwanese's Hayata) in the western Dabie Mountains. Ecology and Enviromental Sciences, 22(11):1769-1773.[in Chinese]) 邵雪梅, 王树芝, 徐岩, 等. 2007. 柴达木盆地东北部3500年树轮定年年表的建立. 第四纪研究, 4:477-485. (Shao X M, Wang S Z, Xu Y, et al. 2007. A 3500-year master tree-ring dating chronology from the northeastern part of the Qaidam Basin. Quaternary Sciences, 4:477-485.[in Chinese]) 史江峰, 鹿华煜, 万建东. 2009. 采用华山松树轮宽度重建秦岭东缘近半年冬半年温度. 第四季研究, 29:831-836. (Shi J F, Lu H Y, Wan J D.2009. Winter-half year temperature reconstruction of the last century using Pinus armandii Franch tree-ring width chronology in the eastern Qinling Mountains. Quaternary Sciences, 29:831-836.[in Chinese]) 王兵, 高鹏, 郭浩, 等. 2009. 江西大岗山林区樟树年轮对气候变化的响应. 应用生态学报, 20(1):71-76. (Wang B, Gao P, Guo H, et al. 2009. Responses of tree-ring width of Cinnamomum camphora to climate change in Dagangshan forest area of Jiangxi Province. Chinese Journal of Applied Ecology, 20(1):71-76.[in Chinese]) 王瑞丽, 程瑞梅, 肖文发, 等. 2011. 北亚热带马尾松年轮宽度与NDVI 的关系. 生态学报, 31(19):5762-5770. (Wang R L, Cheng R M, Xiao W F, et al. 2011. Relationship between masson pine tree-ring width and NDVI in north subtropical region. Acta Ecologica Sinica, 31(19):5762-5770.[in Chinese]) 吴普, 王丽丽, 邵雪梅. 2005. 采用高山松最大密度重建川西高原近百年夏季气温. 地理学报, 60(6):998-1006. (Wu P, Wang L L, Shao X M. 2005. Reconstruction of summer temperature from maximum latewood density of Pinus densata in west Sichuan. Acta Gengraphica Sinica, 60(6):998-1006.[in Chinese]) 吴祥定. 1990. 树木年轮与气候变化. 北京:气象出版社. (Wu X D.1990. Tree-ring and climate change. Beijing:Chinese Meteorological Press.[in Chinese]) 谢寿昌, 刘文耀, 李寿昌, 等. 1996. 云南哀牢山中山湿性常绿阔叶林生物量的初步研究. 植物生态学报, 20(2):167-176. (Xie S C, Liu W Y, Li S C, et al. 1996. Preliminary studies on the biomass of middle-mountain moist evergreen broadleaved forests in Ailao Mountain, Yunnan. Acta Phytoecologica Sinica, 20(2):167-176.[in Chinese]) 徐宁, 王晓春, 张远东, 等. 2008. 川西米亚罗林区不同海拔岷江冷杉生长对气候变化响应. 生态学报, 33(12):3742-3751. (Xu N, Wang X C, Zhang Y D, et al. 2008. Climate-growth relationships of Abies faxoniana from different elevations at Miyaluo, wesern Sichuan, China. Acta ecologica Sinica, 33(12):3742-3751.[in Chinese]) 张萍. 1999. 水青树的地理分布及生态生物学特性研究. 烟台师范学院学报, 15(2):148-150. (Zhang P. 1999. Study of geogra phical distribution and biological properties of ecology on Tetracentron sinesis. Journal of Yantai Normal College, 15(2):148-150.[in Chinese]) 郑永宏, 张永, 邵雪梅, 等. 2012. 大别山地区黄山松和油松年轮宽度的气候意义. 地理科学进展, 31(1):72-77. (Zheng Y H, Zhang Y, Shao X M, et al. 2012. Climate significance of tree ring width of Huangshan pine and Chinese pine in the Dabie Mountains. Progeress in Geography, 31(1):72-77.[in Chinese]) Chen F, Yuan Y J, Wei W S et al. 2015. Tree-ring response of subtropical tree species in southeast China on regional climate and sea-surface temperature variations. Trees, 29(1):17-24. Cleveland W S. 1979. Robust locally weighted regression and smoothing scatterplots. Journal of the American Statistical Association, 74(368):829-836. Cook E R, Peters K. 1981. The smoothing spline:a new approach to standardizing forest interior tree-ring width series for dendroclimatic studies. Tree-Ring Bulletin, 41:45-53. Duan J P, Zhang Q B, Lü L X. 2013. Increased variability in cold-season temperature since the 1930s in subtropical China. Journal of Climate, 26(13):4749-4757. Duan J P, Zhang Q B, Lü L X, et al. 2012. Regional-scale winter-spring temperature variability and chilling damage dynamics over the past two centuries in southeastern China. Climate Dynamics, 39(3/4):919-928. Gou X H, Chen F H, Jacoby G et al. 2007. Rapid tree growth with respect to the last 400 years in response to climate warming, north Eastern Tibetan Plateau. International Journal of Climatology, 27(11):1497-1503. Kris C, Jonathan B M, Henri D G, et al. 2010. Assessment of tree rings as a hydrologic record in a humid subtropical environment. Journal of the American Water Resources Association, 46(5):919-931. Liu Y, Linderholm H W, Song H et al. 2009. Temperature variations recorded in Pinus tabulaeformis tree rings from the southern and northern slopes of the central Qinling Mountains. Boreas, 38(2):285-291. Oliveira J M, Roig F A, Pillar V D. 2010.Climatic signals in tree-rings of Araucaria angustifolia in the southern Brazilian highland. Austral Ecology, 35(2):134-147. Scott S G. 2014. An overview of tree-ring width records across the Northern Hemisphere. Quaternary Science Reviews, 95:132-150. Shi J F, Cook E R, Lu H Y, et al. 2010. Tree-ring based winter temperature reconstruction for the lower reaches of the Yangtze River in southeast China. Climate Research, 41(2):169-175. Takahashi K, Tokumitsu Y, Yasue K. 2005. Climatic factors affecting the tree-ring width of Betula ermanii at the timberline on Mount Norikura, central Japan. Ecological Rearch, 20(4):445-451. Trumbore S, Brando P, Hartmann H. 2015. Forest health and global change. Science,349(6250):814-818. Worbes M. 1999. Annual growth rings, rainfall-dependent growth and long-term growth problems of tropical trees from Caparo Forest Reserve in Venezuela. Journal of Ecology, 87(3):391-403. Yang B, Qin C, Wang J, et al. 2015. A 3500-year tree-ring record of annual precipitation on the northeastern Tibetan Plateau. Preceedings of the National Academy of Sciences of the United States of America, 111(8):2903-2908. Zhang Q, Evans M N, Lü L. 2015. Moisture dipole over the Tibetan Plateau during the past five and a half centuries. Nature Communications, 6:8062. Zheng Y H, Zhang Y, Shao X M, et al. 2012. Temperature variability inferred from tree-ring widths in the Dabie Mountains of subtropical central China. Trees, 26(6):1887-1894. Zhu H F, Fang X Q, Shao X M,et al. 2009. Tree ring-based February-April temperature reconstruction for Changbai Mountain in northeast China and its implication for East Asian winter monsoon. Climate of the Past, 5(4):661-666. |