期刊文献+

贡嘎南山-拉轨岗日山南坡高寒草原生态系统植被碳密度分布特征及其影响因素 被引量:2

Distribution characteristics and influential factors of vegetation carbon density of alpine grassland ecosystem in the south slope of Gongga South Mountain-Lhagoi Kangri mountain
下载PDF
导出
摘要 高寒草原是青藏高原广泛分布的植被类型。本文以贡嘎南山-拉轨岗日山南坡高寒草原生态系统为对象,采用野外调查与室内分析相结合的试验方法,对高寒草原生态系统植被碳密度的分布特征及其影响因素进行了研究。结果表明:贡嘎南山-拉轨岗日山南坡高寒草原生态系统植被碳密度平均为0.8435±0.6048 kg/m^2,变异系数71.69%。在海拔44244-804 m范围内,随着海拔升高,植被碳密度表现出先增加后减少的分布特征。影响植被碳密度的关键环境因子是:植被高度、0—10 cm地下生物量、10—20 cm地下生物量、0—40 cm土壤含水量、0—20 cm土壤容重2、0—40 cm土壤容重、土壤有机质、土壤速效钾含量和土壤速效氮含量。 Alpine grasslands are one of the most widely distributed vegetation types on the Qinghai-Tibet Plateau. In this paper, alpine grassland ecosystem of Gongga South Mountain-Lhagoi Kangri mountain southern slopes as targeted field, alpine grassland ecosystem carbon density distribution of vegetation characteristics and influencing factors were studied with a combinative test methods of field investigation and laboratory analysis. The results showed that the average vegetation carbon density was 0.8435 ± 0.6048 kg/m^2 and coefficient variation was 71.69% in Gongga South Mountain- Lhagoi Kangri mountains southern slopes of alpine grassland ecosystems. With the elevation increasing, vegetation carbon density showed increase to decrease in distribution characters in the altitude scope of 4424-4804 m. The key environmental factors which effected vegetation carbon density were vegetation height, biomass 0-10 cm below-ground, 10-20 cm below-ground biomass, 0-40 cm soil moisture, 0-20 cm soil bulk density, 20-40 cm soil bulk density, soil organic matter, soil available potassium and soil available nitrogen.
出处 《植物营养与肥料学报》 CAS CSCD 北大核心 2009年第6期1253-1259,共7页 Journal of Plant Nutrition and Fertilizers
基金 国家自然科学基金项目(40661007)资助
关键词 高寒草原 植被 碳密度 分布特征 影响因素 alpine grassland vegetation carbon density distribution characteristics influential factors
  • 相关文献

参考文献32

  • 1Mokany K, Raison R J, Prokushkin A S. Critical analysis of root: shoot ratios in terrestrial biomes [J]. Glob. Change Biol., 2005, 11: 1-13.
  • 2马文红,韩梅,林鑫,任艳林,王志恒,方精云.内蒙古温带草地植被的碳储量[J].干旱区资源与环境,2006,20(3):192-195. 被引量:64
  • 3Lieth H F H. Patterns of primary productivity in the biosphere [ M]. Stroudsberg, PA: Hutchinson Ross, 1978.
  • 4Parton W J, Scurlock J M O, Ojima D S et al. Observations and modeling of biomass and soil organic-matter dynamics for the grassland biome worldwide[J]. Glob. Biogeochem. Cycl., 1993, 7: 785-809.
  • 5Fisher M J, Rao I M, Lascano C E et al. Pasture soils as carbon sink [ J]. Nature, 1995,376 : 472-473.
  • 6Ni J. Carbon storage in grasslands of China [J] .J. Arid Environ., 2002, 5: 205-218.
  • 7Scurlock J M O, Hall D O. The global carbon sink: a grassland perspective [J]. Glob. Change Biol., 1998, 4: 229-233.
  • 8Olsen J S, Watts J A, Allison L J. Carbon in live vegetation of major world ecosystems [ M ]. Oak Ridge : Oak Ridge National Laboratory, 1983. 50--51.
  • 9Prentice I C, Sykes M T, Lautenschlager M et al. Modeling global vegetation patterns and terrestrial carbon storage at the Last Glacial Maximum [J]. Glob. Ecol. Biogeigr. , 1993, 3: 67-76.
  • 10朴世龙,方精云,贺金生,肖玉.中国草地植被生物量及其空间分布格局[J].植物生态学报,2004,28(4):491-498. 被引量:391

二级参考文献232

共引文献2306

同被引文献53

引证文献2

二级引证文献43

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部