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第四纪研究 2015

利用生态学和树轮年代学手段试析柴达木盆地东缘山地森林年龄结构与气候变化的关系

DOI: 10.11928/j.issn.1001-7410.2015.05.17, PP. 1209-1217

田华,邵雪梅,尹志勇,张慧,汪洋,陈锋

Keywords: 树龄估算,树木更新,树木死亡,气候变化

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Abstract:

选取柴达木盆地东缘山地尔日格为研究剖面,对坡面上的祁连圆柏(SabinaprzewalskiiKom.)沿不同海拔高度进行采样。在利用交叉定年手段对所有样芯定年之后,确定了样芯的起始年和结束年(死亡年龄),然后利用树髓心年龄估算法和研究区域胸高年龄经验值最终确定了树木活体植株开始生长的年龄(长树年龄)。根据研究坡面上树木长树或死树年份随海拔和时间变化的变化规律,探讨了它们与气候变化之间的可能关系,从而用来作为树轮宽度重建的佐证手段之一。结果表明:在森林上部和中部,随海拔的升高,树木的年龄呈递减趋势;在森林下部,随海拔的降低,树木年龄趋于年轻化;整个坡面长树峰值出现在公元1200年左右,长树主要集中在森林中部的3900~4110m之间;树木死亡的峰值出现在公元1600年之后的50年间,死树主要集中在森中上部的4100~4210m之间。同时,还发现在坡面树木死亡较集中的时期,森林树木更新数目较低,尤其是在森林上部;而通过对不同海拔高度上最老树的生长年龄分析,发现在坡面长树比较集中的时期,森林下部有往更低海拔处长树的趋势。将研究坡面长树和死树随时间变化的分布情况与研究区附近利用树轮宽度重建的乌兰过去1000年上年9月到当年4月平均温度和德令哈过去1000年上年7月至当年6月降水量进行对比,发现在40年尺度上,高温对应着树木高生长数目,低温并且降水量由多变寡则对应着树木低生长数目和高死亡数。表明:温度的升高有利于研究坡面祁连圆柏更新的发生,森林密度增大,森林中部幼树更新存活数量最多,森林下部有往更低海拔处长树的趋势,森林上限随海拔的升高密度降低、树木趋于年轻化;反之,气候干冷,树木更新条件变差,受影响的区域主要集中在森林中部-森林林线中上部范围内,死树相对比较集中。

References

[1]	16 Stokes M A, Smiley T L. An Introduction to Tree-ring Dating. Arizona:University of Arizona Press, 1996. 1~73
[2]	17 Holmes R L. Computer-assisted quality control in tree-ring dating and measurement. Tree-Ring Bulletin, 1983, 43 :69~78
[3]	18 Duncan R P. An evaluation of errors in tree age estimates based on increment cores in Kahikatea (Dacrycarpus dacrydioides). New Zealand Natural Sciences, 1989, 16 (3):31~37
[4]	23 李宗善, 刘国华, 傅伯杰等. 利用树木年轮宽度资料重建川西米亚罗地区过去200年夏季温度的变化. 第四纪研究, 2011, 31 (3):522~534 Li Zongshan, Liu Guohua, Fu Bojie et al. Tree ring-based summer temperature reconstruction over the past 200 years in Miyaluo of western Sichuan, China. Quaternary Sciences, 2011, 31 (3):522~534
[5]	24 蔡秋芳, 刘禹. 山西五鹿山油松树轮宽度年表的建立及过去百余年5~6月平均气温变化. 第四纪研究, 2013, 33 (3):511~517 Cai Qiufang, Liu Yu. The development of a tree-ring width chronology and the May~June mean temperature variability in Wulu Mountain, north-Central China. Quaternary Sciences, 2013, 33 (3):511~517
[6]	1 邵雪梅, 方修琦, 刘洪滨等. 柴达木东缘山地千年祁连圆柏年轮定年分析. 地理学报, 2003, 58 (1):90~100 Shao Xuemei, Fang Xiuqi, Liu Hongbin et al. Dating the 1000-year-old Qilian Juniper in Mountains along the eastern margin of the Qaidam Basin. Acta Geographica Sinica, 2003, 58 (1):90~100
[7]	2 Xu Yan, Shao Xuemei. Standardization of Qilian Juniper ring-width series in the eastern margin of the Qaidam Basin. Journal of Geographical Sciences, 2007, 17 (2):175~186
[8]	3 邵雪梅, 王树芝, 徐岩等. 柴达木盆地东北部3500年树轮定年年表的初步建立. 第四纪研究, 2007, 27 (4):477~485 Shao Xuemei, Wang Shuzhi, Xu Yan et al. A 3500-year master tree-ring dating chronology from the northeastern part of the Qaidam Basin. Quaternary Sciences, 2007, 27 (4):477~485
[9]	4 Zhu Haifeng, Zheng Yonghong, Shao Xuemei et al. Millennial temperature reconstruction based on tree-ring widths of Qilian Juniper from Wulan, Qinghai Province, China. Chinese Science Bulletin, 2008, 53 (24):3914~3920
[10]	5 Shao Xuemei, Huang Lei, Liu Hongbin et al. Reconstruction of precipitation variation from tree rings in recent 1000 years in Delingha, Qinghai. Science in China(Series D), 2005, 48 (7):939~949
[11]	6 申红艳, 李林, 董安详等. 树轮指示的柴达木盆地近539a旱涝变化特征. 中国沙漠, 2011, 31 (4):1059~1064 Shen Hongyan, Li Lin, Dong Anxiang et al. Drought and flood characteristics in the past 539 years in Qaidam Basin according to instruction of tree-ring. Journal of Desert Research, 2011, 31 (4):1059~1064
[12]	7 Wang Wenzhi, Liu Xiaohong, Shao Xuemei et al. A 200 year temperature record from tree-ring δ 13 C at the Qaidam Basin of the Tibetan Plateau after identifying the optimum method to correct for changing atmospheric CO2 and δ 13 C. Journal of Geophysical Research, 2011, 116 (G4):2005~2012
[13]	8 Wang Wenzhi, Liu Xiaohong, Xu Guobao et al. Moisture variations over the past millennium characterized by Qaidam Basin tree-ring δ18O. Chinese Science Bulletin, 2013, 58 (32):3956~3961
[14]	9 Brubaker L B. Responses of tree populations to climate change. Vegetatio, 1986, 67 :119~130
[15]	10 《青海森林》编辑委员会. 青海森林. 北京: 中国林业出版社, 1993. 1~497 The Editing Committee of "Forest in Qinghai". Forests in Qinghai. Beijing:China Forestry Publishing House, 1993. 1~497
[16]	11 《中国森林》编辑委员会. 中国森林第2卷: 针叶林. 北京: 中国林业出版社, 1999. 1~1161 The Editing Committee of "Forest in China". Forests in China Volume 2:Coniferous Forests. Beijing:China Forestry Publishing House, 1999. 1~1161
[17]	12 张鹏. 柴达木盆地林区祁连圆柏天然更新与立地因子关系的探讨. 青海农林科技, 1990,(2):40~44 Zhang Peng. Relationship analysis of natural regeneration of Qilian Juniper and site factor in Qaidam Basin forest region. Science and Technology of Qinghai Agriculture and Forestry, 1990, (2):40~44
[18]	13 刘贤德, 王清忠, 孟好军. 祁连圆柏. 北京: 中国科学技术出版社, 2006. 1~149 Liu Xiande, Wang Qingzhong, Meng Haojun. Qilian Juniper(Sabina przewalskii Kom.). Beijing:China Science and Technology Press, 2006. 1~149
[19]	14 卢成德. 柴达木祁连圆柏研究. 青海农林科技, 2004,(2):30~41 Lu Chengde. Research on Qilian Juniper. Science and Technology of Qinghai Agriculture and Forestry, 2004,(2):30~41
[20]	15 魏明寿. 柴达木祁连圆柏的再研究. 青海农林科技, 2008,(4):48~49 Wei Mingshou. Restudy on Qilian Juniper. Science and Technology of Qinghai Agriculture and Forestry, 2008,(4):48~49
[21]	19 Rozas Vicente. Tree age estimates in Fagus sylvatica and Quercus robur: Testing previous and improved methods. Plant Ecology, 2003, 167 (2):193~212
[22]	20 Norton D A, Palmer J G, Ogden J. Dendroecological studies in New Zealand 1:An evaluation of tree age estimates based on increment cores. New Zealand Journal of Botany, 1987, 25 (3):373~383
[23]	21 袁玉江, 魏文寿, 陈峰等. 天山北坡乌鲁木齐河年径流总量的树轮重建. 第四纪研究, 2013, 33 (3):501~510 Yuan Yujiang, Wei Wenshou, Chen Feng et al. Tree-ring reconstruction of annual total runoff for the ürümqi River on the northern slope of Tien Shan Mountains. Quaternary Sciences, 2013, 33 (3):501~510
[24]	22 勾晓华, 杨梅学, 彭剑峰等. 树轮记录的阿尼玛卿山区过去830年夏半年最高温变化. 第四纪研究, 2006, 26 (6):991~998 Gou Xiaohua, Yang Meixue, Peng Jianfeng et al. Maximum temperature reconstruction for Animaqin Mountains over past 830a based on tree-ring records. Quaternary Sciences, 2006, 26 (6):991~998
[25]	25 任军莉, 刘禹, 宋慧明等. 甘肃临夏地区过去195年最高温度历史重建——基于紫果云杉树轮宽度资料. 第四纪研究, 2014, 34 (6):1270~1279 Ren Junli, Liu Yu, Song Huiming et al. The historical reconstruction of the maximum temperature over the past 195 years, Linxia region, Gansu Province——Based on the data from Picea purpureaMast. Quaternary Sciences, 2014, 34 (6):1270~1279
[26]	26 刘晶晶, 杨保. 西藏浪卡子地区树轮宽度特征值年表的建立. 第四纪研究, 2014, 34 (6):1280~1287 Liu Jingjing, Yang Bao. Development of a tree-ring-width chronology using the Eigen analysis method in Langkazi regions of Tibet. Quaternary Sciences, 2014, 34 (6):1280~1287
[27]	27 王晓春, 周晓峰, 李淑娟等. 气候变暖对老秃顶子林线结构特征的影响. 生态学报, 2004, 24 (11):2412~2421 Wang Xiaochun, Zhou Xiaofeng, Li Shujuan et al. The effect of climate warming on the structure characteristic of the timberline in Laotudingzi Mountain. Acta Ecologica Sinica, 2004, 24 (11):2412~2421
[28]	28 Miller G R, Cummins R P. Regeneration of Scots pine Pinus sylvestris at a natural tree-line in the Cairngorm Mountains, Scotland. Holarctic Ecology, 1982, 5 (1):27~34
[29]	29 Morgan Christopher, Losey Ashley, Trout Lukas. Late-Holocene paleoclimate and treeline fluctuation in Wyoming''s Wind River Range, USA. The Holocene, 2014, 24 (2):209~219

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