南召县土地利用碳源碳汇及其变化分析
摘要
目前,全球气候变暖已经成为不争的事实,而人为温室气体(主要为CO2和CH4)的排放是造成温室效应的主要因素,据IPCC的预测,温室气体的排放将会导致全球平均气温每10年上升0.2℃(IPCC,2001)。长此以往,人类赖以生存的地球将会因为温室气体增加带来的海平面上升、冰川融化、气候极端事件等自然灾害而遭到严重破坏,生存环境也会日益恶化。
近年来的研究发现,土地利用变化对生态系统碳排放有着密切联系。本文以土地利用变化对碳源碳汇的影响为出发点,用定量方法对南召县8年来土地利用的时间和空间变化以及其对碳源碳汇的影响进行分析,并结合新一轮的土地利用总体规划对未来南召县的碳源碳汇量进行预测。主要分析结果有:
(1)8年来南召县的主要用地类型发生了一定的改变,其中耕地面积增加了0.25个百分点,土地利用变化率为1.89%,土地利用动态度为0.04;林地面积增加了0.59个百分点,的土地利用变化率为0.91%,土地利用动态度为0.02;建设用地减少了0.01个百分点,建设用地的土地利用变化率为0.2%,土地利用动态度为0.03。
(2)南召县2003年到2010年的碳源总量从6.97万吨增加到14.74万吨,年平均变化量为0.97万吨,变化幅度较大,主要是由于建设用地碳排放的增加引起的;碳汇总量整体上呈现出逐年递增的趋势,从73.62万吨增加到74.86万吨,年平均变化量为0.15万吨,变化幅度并不明显,其中碳汇贡献量最大的是林地;净碳排放量从从-66.66万吨增加到-60.11万吨。地均碳排放强度从2.33t/(hm2*a)增加到5.03t/(hm2*a),单位GDP碳排放强度从0.18t/(hm2*a)减少到0.16t/(hm2*a)。
(3)依据新一轮的《南召县土地利用总体规划》预测出南召县2020年的碳源达到15.12万吨,比规划基期增加了0.65万吨,比2010年增加0.38万吨;碳汇到达1.65万吨,比规划基期增加了3.75万吨,比2010年增加2.74万吨,净碳排放较规划基期减少了3.10万吨,较2010年减少了2.36万吨。
最后,依据相关分析结果,论文从技术和政策层面提出了未来土地利用的建议和对策,并指出有待进一步研究的相关问题。
At present,global warming has became a fact of life,and man-made greenhouse gases(mainly forthe CO2and CH4) emissions are the main factors of greenhouse, according to the IPCC's prediction,greenhouse gas emissions will lead to the average global temperature increase of0.2℃every10years(IPCC,2001). In the long run, human beings rely on the earth will be born because of increased greenhousegases with rising sea levels, glaciers, climate extreme events such as natural disasters and damaged survivalenvironment also deteriorates.
The study found that in recent years, the land use change of ecological system carbon emissionsare closely linked. Based on the land use change on carbon source carbon sink influence as a starting point,a quantitative method to NanZhao county8years of land use of the time and spatial change and its carbonsource article analyzes the influence of carbon, and combined with a new round of land use planning for thefuture NanZhao county of carbon source carbon amount forecast. The main analysis results are:
(1)8years of the main land use types NanZhao county happened certain change, of which,cultivated area increased by0.25%, the land use change rate is1.89%, the land use dynamic for0.04;Forest area increased by0.59%, the land use change rate is0.91%, the land use dynamic for0.02;Construction land reduced0.01%, use the land for construction land use change rate is0.2%, the land usedynamic for0.03.
(2) NanZhao county2003to2010total carbon source from69700tons to147400tons of increase,the average changing quantity is9700tons, the change to a larger extent, is mainly due to construction landcarbon emissions of the increased; Carbon amount on the whole show the trend of increasing year by year, from736200tons to748600tons of increase, the average changing quantity is1500tons, the variation isnot obvious, the largest amount of carbon contribution is forest land; Net carbon emissions from-from666600tons of increased to601100tons. To all carbon emissions intensity from2.33t/(hm2*a) increasedto5.03t/(hm2*a), carbon emissions per unit of GDP strength from0.18t/(hm2*a) reduced to0.16t/(hm2*a).
(3) Based on a new round of the NanZhao county general land use planning "predict NanZhaocounty of carbon source in2020to151200tons, an increase of6500base than planning tons, more than2010years to add3800tons; Carbon to16500tons, an increase of37500base than planning tons, morethan2010years to add27400tons, net carbon emissions is planning to reduce the ams31000tons,compared with2010reduced23600tons.
Finally, according to the relevant analysis results, this paper puts forward the technology andpolicy aspects of land use of the future Suggestions and countermeasures, and points out that needs furtherresearch related issues.
近年来的研究发现,土地利用变化对生态系统碳排放有着密切联系。本文以土地利用变化对碳源碳汇的影响为出发点,用定量方法对南召县8年来土地利用的时间和空间变化以及其对碳源碳汇的影响进行分析,并结合新一轮的土地利用总体规划对未来南召县的碳源碳汇量进行预测。主要分析结果有:
(1)8年来南召县的主要用地类型发生了一定的改变,其中耕地面积增加了0.25个百分点,土地利用变化率为1.89%,土地利用动态度为0.04;林地面积增加了0.59个百分点,的土地利用变化率为0.91%,土地利用动态度为0.02;建设用地减少了0.01个百分点,建设用地的土地利用变化率为0.2%,土地利用动态度为0.03。
(2)南召县2003年到2010年的碳源总量从6.97万吨增加到14.74万吨,年平均变化量为0.97万吨,变化幅度较大,主要是由于建设用地碳排放的增加引起的;碳汇总量整体上呈现出逐年递增的趋势,从73.62万吨增加到74.86万吨,年平均变化量为0.15万吨,变化幅度并不明显,其中碳汇贡献量最大的是林地;净碳排放量从从-66.66万吨增加到-60.11万吨。地均碳排放强度从2.33t/(hm2*a)增加到5.03t/(hm2*a),单位GDP碳排放强度从0.18t/(hm2*a)减少到0.16t/(hm2*a)。
(3)依据新一轮的《南召县土地利用总体规划》预测出南召县2020年的碳源达到15.12万吨,比规划基期增加了0.65万吨,比2010年增加0.38万吨;碳汇到达1.65万吨,比规划基期增加了3.75万吨,比2010年增加2.74万吨,净碳排放较规划基期减少了3.10万吨,较2010年减少了2.36万吨。
最后,依据相关分析结果,论文从技术和政策层面提出了未来土地利用的建议和对策,并指出有待进一步研究的相关问题。
At present,global warming has became a fact of life,and man-made greenhouse gases(mainly forthe CO2and CH4) emissions are the main factors of greenhouse, according to the IPCC's prediction,greenhouse gas emissions will lead to the average global temperature increase of0.2℃every10years(IPCC,2001). In the long run, human beings rely on the earth will be born because of increased greenhousegases with rising sea levels, glaciers, climate extreme events such as natural disasters and damaged survivalenvironment also deteriorates.
The study found that in recent years, the land use change of ecological system carbon emissionsare closely linked. Based on the land use change on carbon source carbon sink influence as a starting point,a quantitative method to NanZhao county8years of land use of the time and spatial change and its carbonsource article analyzes the influence of carbon, and combined with a new round of land use planning for thefuture NanZhao county of carbon source carbon amount forecast. The main analysis results are:
(1)8years of the main land use types NanZhao county happened certain change, of which,cultivated area increased by0.25%, the land use change rate is1.89%, the land use dynamic for0.04;Forest area increased by0.59%, the land use change rate is0.91%, the land use dynamic for0.02;Construction land reduced0.01%, use the land for construction land use change rate is0.2%, the land usedynamic for0.03.
(2) NanZhao county2003to2010total carbon source from69700tons to147400tons of increase,the average changing quantity is9700tons, the change to a larger extent, is mainly due to construction landcarbon emissions of the increased; Carbon amount on the whole show the trend of increasing year by year, from736200tons to748600tons of increase, the average changing quantity is1500tons, the variation isnot obvious, the largest amount of carbon contribution is forest land; Net carbon emissions from-from666600tons of increased to601100tons. To all carbon emissions intensity from2.33t/(hm2*a) increasedto5.03t/(hm2*a), carbon emissions per unit of GDP strength from0.18t/(hm2*a) reduced to0.16t/(hm2*a).
(3) Based on a new round of the NanZhao county general land use planning "predict NanZhaocounty of carbon source in2020to151200tons, an increase of6500base than planning tons, more than2010years to add3800tons; Carbon to16500tons, an increase of37500base than planning tons, morethan2010years to add27400tons, net carbon emissions is planning to reduce the ams31000tons,compared with2010reduced23600tons.
Finally, according to the relevant analysis results, this paper puts forward the technology andpolicy aspects of land use of the future Suggestions and countermeasures, and points out that needs furtherresearch related issues.
引文
[1]方精云,郭兆迪,朴世龙等.1981-2000年中国陆地植被碳汇的计算[J].中国科学D辑:(地球科学),2007,37(06):804-812.
[2]曹吉鑫,田赞,王小平等.森林碳汇的估算方法及其发展趋势[J].生态环境学报,2009,l8(5):2001-2005.
[3]方精云,刘国华,徐嵩龄.中国陆地生态系统的碳循环及其全球意义[M].北京:中国环境科学出版社.2008.
[4]JOHNSON D W.Effects of forest management on soil carbon storage[J].Water,Air and SoilPollution,1992,64:83-120.
[5]HOUGHTON R A.The worldwide extent of land-use change[J].Bio-Science,1994,44:305-312.
[6]VITOUSEK P M,MOONEY H A,LUBCHENCO J,et al.Human dominationof Earth's ecosystems [J].Science,1997,277:494-499.
[7]RAMMANKUTTY N,FOLEY J,OLEJNICZAK N J.People on theland:Changes in global populationand croplands during20th century[J].Ambio,2002,31:251-257.
[8]李克让.土地利用变化和温室气体净排放与陆地生态系统碳循环[M].北京:气象出版社,2000.
[9]刘国华,傅伯杰,方精云.中国森林碳动态及其对全球碳平衡的贡献[J].生态学报,2000,05:733-740.
[10]摆万奇,赵士洞.土地利用和土地覆盖变化研究模型综述[J].自然资源学报,1997,12(2):169-175.
[11]TURNER BL II,SKOLE D L,SANDERSON S,et al. Land use and land-cover change[J].Earth ScienceFrontiers,1997,4:26-33.
[12]LAMBIN E F,TURNER BL II,GEIST H J,et al.The causes of land use and land-cover change:movingbeyond the myths[J].Global Environmental Change,2001,11:261-269.
[13]耿元波,董云社,孟维奇.陆地碳循环研究进展[J].地理科学进展,2000,19(4):297-306.
[14]HOUGHTON R A,HACKLER J L,LAWRENCE K T.The US carbon budget:contributions from land-use change [J].Science,1999,285:574-578.
[15]CASPERSEN J P,PACALA S W,JENKINS J C,et al.Contributions of land-use history to carbonaccumulation in US forests[J].Scinence,2000,290:1148-1151.
[16]TIAN H Q,MELILLO J M,KICKLIGHTER D W,et al.Regional carbon dynamics in monsoon Asia andits implications for the globalcarbon cycle[J].Global and Planetary change,2003,37:201-217.
[17]Fluggea F,Schilizzi S.Greenhouse gas abatement policies and the value of carbon sinks:Do grazing andcropping systems have different destinies[J].Ecological Economics,2005,55(4):584-598.
[18]Fredrik H,Christian A.Bioenergy plantations or long-term carbon sinks-Amodel basedanalysis[J].BIOMASS and BIOENERGY,2009,33(12):1693-1702.
[19]Hannes B T,Werner A K.Annette Freibauer Accounting of forest carbon sinks and sources under afuture climate protocol-factoring out pastdisturbance and management effects onage-classstructure[J].Environmental science&policy II,2008,669—686.
[20]Hickler T,Smith B,Sykes M T,et a1,.Using a generalized vegetationmodel to simulate vegetation dynamics in northeastern USA[J].Ecology,2004,85:519-530.
[21]Houghton R A.Aboveground Forest Biomass and the Global CarbonBalance[J].Global Change Biology,2005,11(6):945-958.
[22]IPCC,2006.{2006年IPCC国家温室气体清单指南》,国家温室气体清单计划编写,编辑:Eggleston H S.,Buendia L.,Miwa K.,Ngara T.and TanabeK.
[23]LEVY P E,FRIEND A D,WHITE A,et al.The influence of land use change on global-scale fluxes ofcarbon from terrestrial ecosystems[J].Climatic Change,2004,67:185-209.
[24]CHEN H,TIAN H Q,et al.Effect of Land-cover change on terrestrialcarbon dynamics in the southern United States [J].J.Environ.Qual,2006,35:1533-1547.
[25]RAIESI F.Carbon and N mineralization as affected by soil cultivationand crop residue in a calcareouswetland ecosystem in Central Iran Agriculture[J].Ecosystems and Environment,2006,112(1):13-20.
[26]GUO L B,GIFFORD R M.Soil carbon stocks and land use change:a meta analysis[J].Global ChangeBiology,2002,8(4):345-360.
[27]EULISS N H,GLEASOM R A,OLNESS A,et al.North American prairie wetlands are importantnonforested land-based storage sites[J].Sci Total Environment,2006,361:179-188.
[28]戴雅婷,那日苏,吴洪新等.我国北方温带草原碳循环研究进展[J].草业科学,2009,26(09):43-48.
[29]邓祥征,韩建智,战金艳等.农田碳汇管理策略及其效果评价[J].安徽农业科学,2009,37(32):15965-15968.
[30]李颖,黄贤金,甄峰.江苏省区域不同土地利用方式的碳排放效应分析[J].农业工程学报,2008,24(2):102-106.
[31]顾凯平,张坤,张丽.森林碳汇计量方法的研究[J].南京林业大学学报(自然科学版),2008,32(05):105-109.
[32]国家统计局能源统计司.国家能源局综合司中国能源统计年鉴2004-中国能源统计年鉴2011[M].北京:中国统计出版社,2004-2011.
[33]河南省统计厅,2004-2011.河南省统计年鉴2004-河南省统计年鉴2011[M].河南:中国统计出版社.
[34]何英.森林固碳估算方法综述[J].世界林业研究,2005,18(1):22-27.
[35]黄金碧,金晓斌.论区域碳循环压力指数模型的构建及其调控机制[J].生态经济,2009,12:43-46.
[36]黄耀,孙文娟.近20年来中国大陆农田表土有机碳含量的变化趋势[J].科学通报,2006,51(7):750-763.
[37]康文星,田徵,何介南等.广州市十种森林生态系统的碳循环[J].应用生态学报,2009,20(12):2917-2924.
[38]李洁静,潘根兴,李恋卿等.红壤丘陵双季稻稻田农田生态系统不同施肥下碳汇效应及收益评估[J].农业环境科学学报,2009,28(2):2520-2525.
[39]刘强,刘嘉麒,贺怀宇.温室气体浓度变化及其源与汇研究进展[J].地球科学进展,2000,15(04):453-460.
[40]米红,张文璋.实用现代统计学分析方法和SPSS.2007,北京:当代中国出版社.
[41]潘根兴,赵其国,中国农田土壤碳库演变研究:全球变化和国家粮食安全[J].地球科学进展,2005,20:84-93.
[42]韩冰,王效科,逯非等.中国农田土壤生态系统固碳现状与潜力[J].生态学报,2008,28(2):612-619.
[43]潘根兴,赵其国,蔡祖聪.《京都议定书》生效后中国耕地土壤碳循环研究若干问题[J].中国基础科学,2005,2:12-18.
[44]朴世龙,方精云,贺金生等.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(04):491-498.
[45]宋长春.湿地生态系统的碳循环研究进展[J].地理科学,2003,23(5):622-628.
[46]宋金明.海洋碳的源与汇[J].海洋环境科学,2003,22(02):75-80.
[47]王萍.森林碳循环模型概述[J].应用生态学报,2009,20(06):1505-1510.
[48]杨书运,张庆国,蒋跃林,杨春雷.中国森林系统对全球碳平衡的作用与地位[J].江苏林业科技,2006,33(1):0045-0049.
[49]叶红,黎慧娟.城市土壤碳循环特征研究进展[J].生态环境学报,2009,18(03):1134-1138.
[50]于洪贤,黄璞祚.湿地碳汇功能探讨:以泥炭地和芦苇湿地为例[J].生态环境,2008,17(05):2103-2106.
[51]张萍.促进碳平衡的生态学思考[J].环境保护,2008,210:35-37.
[52]赵林,殷鸣放,陈晓非等.森林碳汇研究的计量方法及研究现状综述[J].西北林学院学报,2008,23(01):59-63.
[53]钟晓青,张万明,李萌萌.基于生态容量的广东省资源环境基尼系数计算与分析——与张音波等商榷[J].生态学报,2008,28(9):4486-4493.
[54]李颖,黄贤金,甄峰.江苏省区域不同土地利用方式的碳排放效应分析[J].农业工程学报,2008,24:102-107.
[55]赵荣钦,秦明周.中国沿海地区农田生态系统部分碳源/汇时空差[J].生态与农业环境学报,2007,23(2):1-7.
[56]刘英,赵荣钦,焦士兴.河南省土地利用碳源/汇及其变化分析[J].水土保持研究,2010,18(5):154-157.
[57]江勇,付梅臣,王增,张中亚,宋宝华,温洪艳.土地利用变化对生态系统碳汇/碳源的影响研究——以河北武安市为例[J].安徽农业科学,2010,38(24):13067-13069.
[58]赖力.中国土地利用碳排放效应研究[D].南京:南京大学,2010.
[59]谢婷婷.郑东新区生态系统碳循环研究[D].河南:河南农业大学,2008.
[60]陈广生,田汉勤.土地利用/覆盖变化对陆地生态系统碳循环的影[J].植物生态学报,2007,31(2):189-204.
[61]葛全胜,戴君虎,何凡能等.过去300年中国土地利用/土地覆被变化与碳循环研究[J].中国科学D辑:地球科学,2008,38(2):197-210.
[62]高志强,刘纪远,曹明奎等.土地利用和气候变化对农牧过渡区生态系统生产力和碳循环的影响[J].中国科学D辑:地球科学,2004,34(10):946-957.
[63]吴建固,张小全,徐德应.土地利用变化对生态系统碳汇功能影响的综合评价[J].中国工程科学,2003,5(9):65-77.
[64]张秀梅,李升峰,黄贤金等.江苏省1996年至2007年碳排放效应及时空格局分析[J].资源科学,2010,32(4):768-775.
[65]谭丹,黄贤金,胡初枝.我国工业行业的产业升级与碳排放关系分析[J].阴川环境,2008,27(2):75-79.
[66]吴建国.土地利用变化对土壤有机碳的影响[D].北京:中国林业科学研究院,2002.
[67]方精云,刘田华,徐篙龄.中国陆地生态系统碳汇[M].北京:中国科学技术出版社.
[68]王如松,方精云,高林,等.现代生态学热点问题研究[M].北京:中国科学技术出版社.1996:251—276.
[69]哈斯础鲁.长江上游地区碳增汇与预警[D].呼和浩特:内蒙古师范大学,2008.
[70]陈擎,王耀兵.低碳化视角下的城市土地利用研究[J].宏观经济,2010,20:88-90.
[71]张万明.江西及鄱阳湖生态经济区碳源与碳汇区域均衡分析[D].广州:中山大学,2010.
[72]王丽丽,宋长春.陆地生态系统碳循环对土地利用变化的响应[J].土壤通报,2010,41(1):216-211.
[2]曹吉鑫,田赞,王小平等.森林碳汇的估算方法及其发展趋势[J].生态环境学报,2009,l8(5):2001-2005.
[3]方精云,刘国华,徐嵩龄.中国陆地生态系统的碳循环及其全球意义[M].北京:中国环境科学出版社.2008.
[4]JOHNSON D W.Effects of forest management on soil carbon storage[J].Water,Air and SoilPollution,1992,64:83-120.
[5]HOUGHTON R A.The worldwide extent of land-use change[J].Bio-Science,1994,44:305-312.
[6]VITOUSEK P M,MOONEY H A,LUBCHENCO J,et al.Human dominationof Earth's ecosystems [J].Science,1997,277:494-499.
[7]RAMMANKUTTY N,FOLEY J,OLEJNICZAK N J.People on theland:Changes in global populationand croplands during20th century[J].Ambio,2002,31:251-257.
[8]李克让.土地利用变化和温室气体净排放与陆地生态系统碳循环[M].北京:气象出版社,2000.
[9]刘国华,傅伯杰,方精云.中国森林碳动态及其对全球碳平衡的贡献[J].生态学报,2000,05:733-740.
[10]摆万奇,赵士洞.土地利用和土地覆盖变化研究模型综述[J].自然资源学报,1997,12(2):169-175.
[11]TURNER BL II,SKOLE D L,SANDERSON S,et al. Land use and land-cover change[J].Earth ScienceFrontiers,1997,4:26-33.
[12]LAMBIN E F,TURNER BL II,GEIST H J,et al.The causes of land use and land-cover change:movingbeyond the myths[J].Global Environmental Change,2001,11:261-269.
[13]耿元波,董云社,孟维奇.陆地碳循环研究进展[J].地理科学进展,2000,19(4):297-306.
[14]HOUGHTON R A,HACKLER J L,LAWRENCE K T.The US carbon budget:contributions from land-use change [J].Science,1999,285:574-578.
[15]CASPERSEN J P,PACALA S W,JENKINS J C,et al.Contributions of land-use history to carbonaccumulation in US forests[J].Scinence,2000,290:1148-1151.
[16]TIAN H Q,MELILLO J M,KICKLIGHTER D W,et al.Regional carbon dynamics in monsoon Asia andits implications for the globalcarbon cycle[J].Global and Planetary change,2003,37:201-217.
[17]Fluggea F,Schilizzi S.Greenhouse gas abatement policies and the value of carbon sinks:Do grazing andcropping systems have different destinies[J].Ecological Economics,2005,55(4):584-598.
[18]Fredrik H,Christian A.Bioenergy plantations or long-term carbon sinks-Amodel basedanalysis[J].BIOMASS and BIOENERGY,2009,33(12):1693-1702.
[19]Hannes B T,Werner A K.Annette Freibauer Accounting of forest carbon sinks and sources under afuture climate protocol-factoring out pastdisturbance and management effects onage-classstructure[J].Environmental science&policy II,2008,669—686.
[20]Hickler T,Smith B,Sykes M T,et a1,.Using a generalized vegetationmodel to simulate vegetation dynamics in northeastern USA[J].Ecology,2004,85:519-530.
[21]Houghton R A.Aboveground Forest Biomass and the Global CarbonBalance[J].Global Change Biology,2005,11(6):945-958.
[22]IPCC,2006.{2006年IPCC国家温室气体清单指南》,国家温室气体清单计划编写,编辑:Eggleston H S.,Buendia L.,Miwa K.,Ngara T.and TanabeK.
[23]LEVY P E,FRIEND A D,WHITE A,et al.The influence of land use change on global-scale fluxes ofcarbon from terrestrial ecosystems[J].Climatic Change,2004,67:185-209.
[24]CHEN H,TIAN H Q,et al.Effect of Land-cover change on terrestrialcarbon dynamics in the southern United States [J].J.Environ.Qual,2006,35:1533-1547.
[25]RAIESI F.Carbon and N mineralization as affected by soil cultivationand crop residue in a calcareouswetland ecosystem in Central Iran Agriculture[J].Ecosystems and Environment,2006,112(1):13-20.
[26]GUO L B,GIFFORD R M.Soil carbon stocks and land use change:a meta analysis[J].Global ChangeBiology,2002,8(4):345-360.
[27]EULISS N H,GLEASOM R A,OLNESS A,et al.North American prairie wetlands are importantnonforested land-based storage sites[J].Sci Total Environment,2006,361:179-188.
[28]戴雅婷,那日苏,吴洪新等.我国北方温带草原碳循环研究进展[J].草业科学,2009,26(09):43-48.
[29]邓祥征,韩建智,战金艳等.农田碳汇管理策略及其效果评价[J].安徽农业科学,2009,37(32):15965-15968.
[30]李颖,黄贤金,甄峰.江苏省区域不同土地利用方式的碳排放效应分析[J].农业工程学报,2008,24(2):102-106.
[31]顾凯平,张坤,张丽.森林碳汇计量方法的研究[J].南京林业大学学报(自然科学版),2008,32(05):105-109.
[32]国家统计局能源统计司.国家能源局综合司中国能源统计年鉴2004-中国能源统计年鉴2011[M].北京:中国统计出版社,2004-2011.
[33]河南省统计厅,2004-2011.河南省统计年鉴2004-河南省统计年鉴2011[M].河南:中国统计出版社.
[34]何英.森林固碳估算方法综述[J].世界林业研究,2005,18(1):22-27.
[35]黄金碧,金晓斌.论区域碳循环压力指数模型的构建及其调控机制[J].生态经济,2009,12:43-46.
[36]黄耀,孙文娟.近20年来中国大陆农田表土有机碳含量的变化趋势[J].科学通报,2006,51(7):750-763.
[37]康文星,田徵,何介南等.广州市十种森林生态系统的碳循环[J].应用生态学报,2009,20(12):2917-2924.
[38]李洁静,潘根兴,李恋卿等.红壤丘陵双季稻稻田农田生态系统不同施肥下碳汇效应及收益评估[J].农业环境科学学报,2009,28(2):2520-2525.
[39]刘强,刘嘉麒,贺怀宇.温室气体浓度变化及其源与汇研究进展[J].地球科学进展,2000,15(04):453-460.
[40]米红,张文璋.实用现代统计学分析方法和SPSS.2007,北京:当代中国出版社.
[41]潘根兴,赵其国,中国农田土壤碳库演变研究:全球变化和国家粮食安全[J].地球科学进展,2005,20:84-93.
[42]韩冰,王效科,逯非等.中国农田土壤生态系统固碳现状与潜力[J].生态学报,2008,28(2):612-619.
[43]潘根兴,赵其国,蔡祖聪.《京都议定书》生效后中国耕地土壤碳循环研究若干问题[J].中国基础科学,2005,2:12-18.
[44]朴世龙,方精云,贺金生等.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(04):491-498.
[45]宋长春.湿地生态系统的碳循环研究进展[J].地理科学,2003,23(5):622-628.
[46]宋金明.海洋碳的源与汇[J].海洋环境科学,2003,22(02):75-80.
[47]王萍.森林碳循环模型概述[J].应用生态学报,2009,20(06):1505-1510.
[48]杨书运,张庆国,蒋跃林,杨春雷.中国森林系统对全球碳平衡的作用与地位[J].江苏林业科技,2006,33(1):0045-0049.
[49]叶红,黎慧娟.城市土壤碳循环特征研究进展[J].生态环境学报,2009,18(03):1134-1138.
[50]于洪贤,黄璞祚.湿地碳汇功能探讨:以泥炭地和芦苇湿地为例[J].生态环境,2008,17(05):2103-2106.
[51]张萍.促进碳平衡的生态学思考[J].环境保护,2008,210:35-37.
[52]赵林,殷鸣放,陈晓非等.森林碳汇研究的计量方法及研究现状综述[J].西北林学院学报,2008,23(01):59-63.
[53]钟晓青,张万明,李萌萌.基于生态容量的广东省资源环境基尼系数计算与分析——与张音波等商榷[J].生态学报,2008,28(9):4486-4493.
[54]李颖,黄贤金,甄峰.江苏省区域不同土地利用方式的碳排放效应分析[J].农业工程学报,2008,24:102-107.
[55]赵荣钦,秦明周.中国沿海地区农田生态系统部分碳源/汇时空差[J].生态与农业环境学报,2007,23(2):1-7.
[56]刘英,赵荣钦,焦士兴.河南省土地利用碳源/汇及其变化分析[J].水土保持研究,2010,18(5):154-157.
[57]江勇,付梅臣,王增,张中亚,宋宝华,温洪艳.土地利用变化对生态系统碳汇/碳源的影响研究——以河北武安市为例[J].安徽农业科学,2010,38(24):13067-13069.
[58]赖力.中国土地利用碳排放效应研究[D].南京:南京大学,2010.
[59]谢婷婷.郑东新区生态系统碳循环研究[D].河南:河南农业大学,2008.
[60]陈广生,田汉勤.土地利用/覆盖变化对陆地生态系统碳循环的影[J].植物生态学报,2007,31(2):189-204.
[61]葛全胜,戴君虎,何凡能等.过去300年中国土地利用/土地覆被变化与碳循环研究[J].中国科学D辑:地球科学,2008,38(2):197-210.
[62]高志强,刘纪远,曹明奎等.土地利用和气候变化对农牧过渡区生态系统生产力和碳循环的影响[J].中国科学D辑:地球科学,2004,34(10):946-957.
[63]吴建固,张小全,徐德应.土地利用变化对生态系统碳汇功能影响的综合评价[J].中国工程科学,2003,5(9):65-77.
[64]张秀梅,李升峰,黄贤金等.江苏省1996年至2007年碳排放效应及时空格局分析[J].资源科学,2010,32(4):768-775.
[65]谭丹,黄贤金,胡初枝.我国工业行业的产业升级与碳排放关系分析[J].阴川环境,2008,27(2):75-79.
[66]吴建国.土地利用变化对土壤有机碳的影响[D].北京:中国林业科学研究院,2002.
[67]方精云,刘田华,徐篙龄.中国陆地生态系统碳汇[M].北京:中国科学技术出版社.
[68]王如松,方精云,高林,等.现代生态学热点问题研究[M].北京:中国科学技术出版社.1996:251—276.
[69]哈斯础鲁.长江上游地区碳增汇与预警[D].呼和浩特:内蒙古师范大学,2008.
[70]陈擎,王耀兵.低碳化视角下的城市土地利用研究[J].宏观经济,2010,20:88-90.
[71]张万明.江西及鄱阳湖生态经济区碳源与碳汇区域均衡分析[D].广州:中山大学,2010.
[72]王丽丽,宋长春.陆地生态系统碳循环对土地利用变化的响应[J].土壤通报,2010,41(1):216-211.