青藏铁路格尔木至安多段沿线高寒植被、土壤特性与人工植被恢复研究

摘要/Abstract

摘要： 对青藏铁路格尔木至安多段沿线不同海拔梯度下高寒植被与土壤特征进行研究。沿线高寒植被的主要分布种有91个,主要建群种为:紫花针茅(Stipa purpurea)、青藏苔草(Carex moorcroftii Falc)、藏异燕麦(Helictotrichon tibeticum)、黄芪(Astragalus)、棘豆(Oxytropis)、粗壮嵩草(Kobresia robusta Maximowicz)、矮嵩草(Kobresia robusta Maximowicz)等。高寒植被物种数、平均盖度、地下生物量和总生物量与海拔呈正相关性,而平均高度和地上生物量与海拔呈负相关性。沿线高寒植物群落主要可划分为海拔小于4 000 m的高寒荒漠植被、海拔4 000~4 500 m的高寒河谷灌丛植被、海拔4 500~4 700 m的高寒草原植被、海拔4 700~4 800 m的高寒垫状植被、海拔4 800~4 900 m的高寒草甸植被和海拔5 000 m左右的高寒沼泽和高寒流石坡植被。土壤全氮和有机质含量都与海拔高度呈正相关性,但全磷、全钾及pH值则在高海拔地区达到最低。沿线土壤颗粒组成主要以中、细沙(d＜0.4 mm)为主,占到了总含量的85%以上,因此,中、细沙是构成沿线土壤的最主要颗粒。沿线植被恢复比较有效的方法是选择紫花针茅、垂穗披碱草、燕麦、棘豆、黄芪、蒿草、梭罗草等当地草种,采取原生植物种子异地繁殖,再经沿线播种或栽培抚育,从而达到植被恢复的目的。该研究对青藏铁路沿线的植被恢复与植物防沙工程具有一定的指导意义。

关键词: 高寒植被, 土壤, 青藏铁路, 海拔, 植被恢复

Abstract: The alpine vegetation and soil characters along the Golmud-Anduo section of the Qinghai-Tibet Railway were researched based on different quadrads in different altitudes. The main species of alpine vegetation along the railway belong to 91 genus, and the constructive species are Stipa purpurea, Carex moorcroftii Falc, Kobresia robusta Maximowicz and Kobresia robusta Maximowicz. The species number, average coverage, underground biomass and total biomass of alpine vegetation are positively correlated with altitude, but average height and aboveground biomass are negatively correlated with altitude. The alpine vegetation community along the railway can be divided into the alpine desert vegetation at altitude less than 4 000 m, alpine valley shrub vegetation at altitude from 4 000 m to 4 500 m, alpine grassland vegetation at altitude from 4 500 m to 4 700 m, alpine cushion vegetation at altitude from 4 700 m to 4 800 m, alpine meadow vegetation at altitude from 4 800 m to 4 900 m, alpine swamp vegetation and flowstone slop vegetation along altitude 5 000 m. The total nitrogen and organic matter contents in soil are positively correlated with altitude, but total phosphorus, total potassium and pH value are negatively correlated with altitude. The grain constitution of soil along the railway mainly includes the medium sand and fine sand (d<0.4 mm), accounting for more than 85% of the total content, therefore, the medium sand and fine sand are the main component of soil particle along the railway.

Key words: alpine vegetation, soil, Qinghai-Tibet Railway, altitude, vegetation recovery

中图分类号:

X171.4

孙永宁;王进昌;韩庆杰;*;屈建军;张克存;拓万全;俎瑞平;廖空太. 青藏铁路格尔木至安多段沿线高寒植被、土壤特性与人工植被恢复研究[J]. 中国沙漠, 2011, 31(4): 894-905.

SUN Yong-ning;WANG Jin-chang;HAN Qing-jie;QU Jian-jun;ZHANG Ke-cun;TA Wan-quan;ZU Rui-ping;LIAO Kong-tai. The Alpine Vegetation and Soil Characters and Vegetation Recovery along the Golmud-Anduo Section of the Qinghai-Tibet Railway[J]. JOURNAL OF DESERT RESEARCH, 2011, 31(4): 894-905.

参考文献

[1]张彩霞,王训明,郭坚.西北地区植被变化对风沙活动的影响分析[J].中国沙漠,2010,30(2):255-259.
[2]张克存,屈建军,牛清河,等.青藏铁路沿线阻沙栅栏防护机理及其效应分析[J].中国沙漠,2011,31(1):17-20.
[3]杨印海,蒋富强,王锡来,等.青藏铁路错那湖段沙害防治措施研究[J].中国沙漠,2010,30(6):1257-1262.
[4]张克存,牛清河,屈建军,等.青藏铁路沱沱河路段风沙危害特征及其动力环境分析[J].中国沙漠,2010,30(5):1005-1011.
[5]牛清河,屈建军,张克存,等.青藏铁路典型路段风沙灾害现状与机械防沙效益估算[J].中国沙漠,2009,29(4):596-603.
[6]韩彬,樊江文,钟华平.内蒙古草地样带植物群落生物量的梯度研究[J].植物生态学报,2006,30(4):553-562.
[7]白永飞,张丽霞,张焱,等.内蒙古锡林河流域草原群落植物功能群组成沿水热梯度变化的样带研究[J].植物生态学报,2002,26(3):308-316.
[8]李英年,赵新全,曹广民,等.海北高寒草甸生态系统定位站气候、植被生产力背景的分析[J].高原气象,2004,23(4):558-567.
[9]沈渭寿,张慧,邹长新,等.青藏铁路建设对沿线高寒生态系统的影响及恢复预测方法研究[J].科学通报,2004,49(9):909-914.
[10]刘兴良,史作民,杨冬生,等.山地植物群落生物多样性与生物生产力海拔梯度变化研究进展[J].世界林业研究,2005,18(4):27-34.
[11]杨元合,饶胜,胡会峰,等.青藏高原高寒草地植物物种丰富度及其与环境因子和生物量的关系[J].生物多样性,2004,12(1): 200-205.
[12]李凯辉,王万林,胡玉昆,等.不同海拔梯度高寒草地地下生物量与环境因子的关系[J].应用生态学报,2008,19(11):2364-2368.
[13]张展,高照良.宋晓强黄延高速公路边坡植被与土壤特性调查研究[J].水土保持通报,2009,29(4):191-195.
[14]陈佐忠.草坪科学研究与草坪业发展几个问题的思考[J].草原与草坪,2000,1:10-11.
[15]牛西午,张强,杨治平,等.柠条人工林对晋西北土壤理化性质变化的影响研究[J].西北植物学报,2003,23(4):628-632.
[16]青海省农业资源区划办公室.青海土壤[M].北京:中国农业出版社,1997:256-261.
[17]朱祖祥.土壤学(上,下册)[M].北京:中国农业出版社,1985:142-147.
[18]冯立孝,黄自立,等.陕西土壤[M].北京:科学出版社,1992:234-251.
[19]李凯辉,胡玉昆,王鑫,等.不同海拔梯度高寒草地地上生物量与环境因子关系[J].应用生态学报,2007,18(9):2019-2024.
[20]王常慧,邢雪荣,韩兴国.草地生态系统中土壤氮素矿化影响因素的研究进展[J].应用生态学报,2004,15(11):2184-2188.