干旱区研究

干旱区研究 >

2015 , Vol. 32 >Issue 2: 382 - 387

DOI: https://doi.org/10.13866/j.azr.2015.02.25

干旱区造林碳汇项目专题

克拉玛依造林减排项目温室气体(GHG)减排量计算

  • 赵福生 ,
  • 师庆东 ,
  • 衣怀峰 ,
  • 吴友均 ,
  • 张新平 ,
  • 张伟燕
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  • 1.中国石油新疆油田公司,新疆 克拉玛依 834000;
    2.新疆大学绿洲生态教育部重点实验室,干旱生态环境研究所, 新疆 乌鲁木齐 830046;
    3.新疆维吾尔自治区环境保护技术咨询中心,新疆 乌鲁木齐 830011;
    4.新疆林业科学院森林生态研究所, 新疆 乌鲁木齐 830000
赵福生(1971-),男,高级工程师,主要从事节能减排研究.E-mail: yhf@petrochina.com.cn

收稿日期: 2014-10-22

  修回日期: 2015-01-16

  网络出版日期: 2015-04-16

基金资助

国家基础研究重点发展规划项目(2006CB705809-1);中央财政林业科技推广项目(XJLK2013008)

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Emission Reductions of Greenhouse Gas of Afforestation Carbon Sequestration Projects in Karamay

  • ZHAO Fu-sheng ,
  • SHI Qing-dong ,
  • YI Huai-feng ,
  • WU You-jun ,
  • ZHANG Xin-ping ,
  • ZHANG Wei-yan
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  • 1. PetroChina Xinjiang Oilfield Company, Karamay 834000, Xinjiang, China;
    2. Key Laboratory of Oasis Ecology (Ministry of Education), Institute of Arid Ecology and Environment, Xinjiang University, Urumqi 830046, Xinjiang, China;
    3. Xinjiang Environmental Protection Technology Consultation Center, Urumqi 830011, Xinjiang, China;
    4. Institute of Forestry and Ecology, Xinjiang Academy of Forestry Sciences, Urumqi 830000, Xinjiang, China

Received date: 2014-10-22

  Revised date: 2015-01-16

  Online published: 2015-04-16

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摘要

参考清洁发展机制造林再造林项目核证减排量的计算方法,计算克拉玛依造林减排项目温室气体(GHG)减排量。在林内设置2个固定样地,48个随机样地;在林缘外荒漠环境下设置1个固定样方,4个随机样方,分别计算人工林碳储量、荒漠碳储量、人工林内增加的温室气体排放量和泄露,从而计算该项目的GHG净减排量。结果表明:2001—2009年,克拉玛依造林减排项目GHG减排量为432 751.59 t CO2,年均GHG减排量为54 093.95 t CO2。减排效果显著,表明在干旱区实施造林减排项目是可行的,该研究可为干旱区造林减排项目开发和管理提供基础资料。

关键词: 温室气体(GHG)减排量; 造林减排项目; 植树造林; 碳汇; 温室效应; 克拉玛依; 新疆

本文引用格式

赵福生 , 师庆东 , 衣怀峰 , 吴友均 , 张新平 , 张伟燕 . 克拉玛依造林减排项目温室气体(GHG)减排量计算[J]. 干旱区研究, 2015 , 32(2) : 382 -387 . DOI: 10.13866/j.azr.2015.02.25

Abstract

According to the calculation methods of certified emission reductions under the clean development mechanism of Kyoto Protocol, this study investigated the greenhouse gas (GHG) emission reductions under afforestation and reforestation projects in Karamay. We set up 2 fixed-point plots and 48 random plots inside the artificial forest; one fixed-point plot and 4 random plots outside the artificial forestry under a desert environment. Carbon storages of the artificial forest and the desert were calculated as well as the GHG emission and leakage of the artificial forest. The net GHG emission of the projects was calculated accordingly. The results showed that the GHG emission reductions was 432 751.59 t of CO2 from the afforestation and reforestation projects in Karamay since 2001 to 2009 with an average annual emission reduction of 54 093.95 t of CO2 over the period. The effect of the emission reductions was significant from the projects which indicated that it was feasible to adopt the afforestation and reforestation projects to reduce GHG emission in arid areas. The results of the study provided fundamental information for the development and the management of the projects.

Key words: GHG emission reductions; afforestation carbon sequestration projects; tree-planting; carbon sequestration; greenhouse effect; Karamay; Xinjiang

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