城市扩张与耕地保护耦合对陆地生态系统碳储量的影响——以湖北省为例

详细信息    查看全文 | 推荐本文 |

英文篇名：Impact of cascading processes of urban expansion and cropland reclamation on the ecosystem of a carbon storage service in Hubei Province,China 作者：柯新利 ; 唐兰萍 英文作者：KE Xinli;TANG Lanping;College of Public Administration,Huazhong Agricultural University; 关键词：城市扩张 ; 耕地保护 ; 生态系统碳储量 ; InVEST模型 英文关键词：urban expansion;;cropland reclamation;;carbon storage of ecosystems;;InVEST model 中文刊名：生态学报 英文刊名：Acta Ecologica Sinica 机构：华中农业大学公共管理学院; 出版日期：2018-10-18 14:57 出版单位：生态学报 年：2019 期：02 基金：国家社会科学基金(13CGL092);; 国家自然科学基金(41371113,41101098);; 中央高校基本科研业务费专项基金(2662017PY063) 语种：中文; 页：277-288 页数：12 CN：11-2031/Q ISSN：1000-0933 分类号：X171.1

摘要

城市扩张对生态系统的影响可以分为城市扩张对生态用地的直接挤占以及为补充城市扩张占用的耕地对生态用地二次挤占两个连锁的过程。以往的研究大多只关注城市扩张对生态系统的直接影响,忽略了城市扩张与耕地保护耦合的间接影响。针对这一问题,采用GIS空间分析方法和InVEST模型定量评估了2000年至2015年湖北省城市扩张与耕地保护耦合对陆地生态系统碳储量的影响。结果显示:(1)城市扩张与耕地保护耦合导致湖北省陆地生态系统碳储量减少40.90 Tg;(2)由城市扩张与耕地保护耦合导致的陆地生态系统碳储量的减少量中,耕地保护传导作用间接导致的占比31%。结果表明,城市扩张与耕地保护的耦合是导致生态系统碳储量减少的主要原因之一。忽视城市扩张通过耕地保护的传导作用对生态系统碳储量的间接影响,会导致城市扩张对陆地生态系统碳储量的影响被严重低估。
        Urban expansion has an impact on ecosystems and results in the loss of ecological lands. The occupation of ecological lands includes two processes: directly by urban expansion,and indirectly because of the compensation for croplands that are lost during urbanization. Many researches have discussed the direct impact of urban expansion on ecosystems; however,most of them have ignored the impacts of cascading processes of urban expansion and cropland reclamation. Therefore, we have explored the impacts of the cascading processes of urban expansion and cropland reclamation on the ecosystem of a carbon storage service in Hubei during 2000— 2015 by means of the GIS spatial analysis method and InVEST model. The results show that during 2000 and 2015:(1) the reduction of carbon storage resulting from the impacts of cascading processes of urban expansion and cropland reclamation was 40.90 Tg;(2) the indirect impact from cropland reclamation accounted for 31% of reduction of carbon storage. Our study indicates that the main cause of carbon storage decrease is the impact of the cascading processes of urban expansion and cropland reclamation. Furthermore,ignoring the impact of cropland reclamation can lead to an underestimation of the decrease of carbon storage.

引文

[1]高扬,何念鹏,汪亚峰.生态系统固碳特征及其研究进展.自然资源学报,2013,28(7):1264-1274.
    [2]裴凤松,黎夏,刘小平,夏庚瑞.城市扩张驱动下植被净第一性生产力动态模拟研究---以广东省为例.地球信息科学学报,2015,17(4):469-477.
    [3]刘纪远,王绍强,陈镜明,刘明亮,庄大方.1990-2000年中国土壤碳氮蓄积量与土地利用变化.地理学报,2010,59(4):483-496.
    [4]Cantarello E,Newton A C,Hill R A.Potential effects of future land-use change on regional carbon stocks in the UK.Environmental Science&Policy,2011,14(1):40-52.
    [5]Chuai X W,Huang X J,Lai L,Wang W J,Peng J W,Zhao R Q.Land use structure optimization based on carbon storage in several regional terrestrial ecosystems across China.Environmental Science&Policy,2013,25:50-61.
    [6]薛志婧,马露莎,安韶山,王万忠.黄土丘陵区小流域尺度土壤有机碳密度及储量.生态学报,2015,35(9):2917-2925.
    [7]Schr9ter D,Cramer W,Leemans R,Prentice I C,Araújo M B,Arnell N W,Bondeau A,Bugmann H,Carter T R,Gracia C A,De La Vega-Leinert AC,Erhard M,Ewert F,Glendining M,House J I,KankaanpS,Klein R J T,Lavorel S,Lindner M,Metzger M J,Meyer J,Mitchell T D,Reginster I,Rounsevell M,SabatéS,Sitch S,Smith B,Smith J,Smith P,Sykes M T,Thonicke K,Thuiller W,Tuck G,Zaehle S,Zierl B.Ecosystem service supply and vulnerability to global change in Europe.Science,2005,310(5752):1333-1337.
    [8]Zhang M,Huang X J,Chuai X W,Yang H,Li L,Tan J Z.Impact of land use type conversion on carbon storage in terrestrial ecosystems of China:a spatial-temporal perspective.Scientific Reports,2015,5:10233-10233.
    [9]Ni J.Carbon storage in Chinese terrestrial ecosystems:approaching a more accurate estimate.Climatic Change,2013,119(3/4):905-917.
    [10]文雯,周宝同,汪亚峰,梁地.黄土高原羊圈沟小流域土地利用时空变化的土壤有机碳效应.生态学报,2015,35(18):6060-6069.
    [11]常亚鹏,李路,许仲林.天山北坡雪岭云杉林地开垦的土壤有机碳损失估算.生态学报,2017,37(4):1168-1173.
    [12]Zhao R Q,Huang X J,Zhong T Y,Peng J W.Carbon footprint of different industrial spaces based on energy consumption in China.Journal of Geographical Sciences,2011,21:285-285.
    [13]胡欢,章锦河,熊杰,周珺,孙晋坤.河北省碳源碳汇测算及碳减排压力分析.地理与地理信息科学,2016,32(3):61-67.
    [14]赖力,黄贤金.中国土地利用的碳排放效应研究.南京:南京大学出版社,2011.
    [15]Vasenev V I,Stoorvogel J J,Leemans R,Valentini R,Hajiaghayeva R A.Projection of urban expansion and related changes in soil carbon stocks in the Moscow Region.Journal of Cleaner Production,2018,170:902-914.
    [16]陆君,刘亚风,齐珂,樊正球.福州市森林碳储量定量估算及其对土地利用变化的响应.生态学报,2016,36(17):5411-5420.
    [17]郭旭东,常青,刘筱,包慧敏,孙艺,吕春艳,张衍毓.基于碳储量视角的城镇土地利用模式与生态效益分异特征.中国土地科学,2017,31(4):61-70.
    [18]Zhang C,Tian H Q,Chen G S,Chappelka A,Xu X F,Ren W,Hui D F,Liu M L,Lu C Q,Pan S F,Lockaby G.Impacts of urbanization on carbon balance in terrestrial ecosystems of the Southern United States.Environmental Pollution,2012,164:89-101.
    [19]Jiang W G,Deng Y,Tang Z H,Lei X,Chen Z.Modelling the potential impacts of urban ecosystem changes on carbon storage under different scenarios by linking the CLUE-S and the InVEST models.Ecological Modelling,2017,345:30-40.
    [20]Golubiewski N E.Urbanization increases grassland carbon pools:effects of landscaping in Colorado's front range.Ecological Applications,2006,16(2):555-571.
    [21]闫涓涛,王钧,鲁顺子,曾辉.深圳市快速城市化对城市生态系统碳动态的影响研究.生态环境学报,2017,26(4):553-560.
    [22]He C Y,Zhang D,Huang Q X,Zhao Y Y.Assessing the potential impacts of urban expansion on regional carbon storage by linking the LUSD-urban and InVEST models.Environmental Modelling&Software,2016,75:44-58.
    [23]安佑志,张庆军.快速城市化对上海地区植被和土壤碳储量时空变化的影响研究.环境科学与管理,2016,41(8):152-155,170-170.
    [24]吴佩君,刘小平,黎夏,陈逸敏.基于InVEST模型和元胞自动机的城市扩张对陆地生态系统碳储量影响评估---以广东省为例.地理与地理信息科学,2016,32(5):22-28,36-36.
    [25]马爱慧,蔡银莺,张安录.耕地生态补偿实践与研究进展.生态学报,2011,31(8):2321-2330.
    [26]刘守英.土地制度与农民权利.中国土地科学,2000,14(3):1-9.
    [27]张凤荣.保护耕地须从提高农民种田积极性着手.中国土地,2006,(10):23-24.
    [28]任平,吴芬娜,周介铭.我国“两个最严格”土地管理制度:理论矛盾与现实困境.经济管理,2012,(8):173-182.
    [29]樊琦,祁华清.转变城镇化发展方式与保障国家粮食安全研究.宏观经济研究,2014,(8):54-60.
    [30]何蒲明,王雅鹏,黎东升.湖北省耕地减少对国家粮食安全影响的实证研究.中国土地科学,2008,22(10):52-57,63-63.
    [31]田光进,庄大方,刘明亮.近10年中国耕地资源时空变化特征.地球科学进展,2003,18(1):30-36.
    [32]柯新利,郑伟伟,杨柏寒.权衡城市扩张、耕地保护与生态保育的土地利用布局优化---以武汉市为例.地理与地理信息科学,2016,32(5):9-13,51-51.
    [33]王晓荣,张家来,庞宏东,郑兰英,崔鸿侠.湖北省森林生态系统碳储量及碳密度特征.中南林业科技大学学报,2015,5(10):93-100.
    [34]胡青,汪思龙,陈龙池,张伟东,宫超.湖北省主要森林类型生态系统生物量与碳密度比较.生态学杂志,2012,31(7):1626-1632.
    [35]王映明.湖北植被区划(上).武汉植物学研究,1985,3(1):61-73.
    [36]王映明.湖北植被区划(下).武汉植物学研究,1985,3(2):165-176.
    [37]谭景燊,班继德,王增学.湖北植被区划.华中师院学报,1982,(3):102-127.
    [38]湖北省人民政府.湖北省情概况.(2017-10-10)[2017-11-11].http://www.hubei.gov.cn
    [39]杨园园,戴尔阜,付华.基于InVEST模型的生态系统服务功能价值评估研究框架.首都师范大学学报:自然科学版,2012,33(3):41-47.
    [40]白杨,郑华,庄长伟,欧阳志云,徐卫华.白洋淀流域生态系统服务评估及其调控.生态学报,2013,33(3):711-717.
    [41]王绍强,周成虎,李克让,朱松丽,黄方红.中国土壤有机碳库及空间分布特征分析.地理学报,2000,55(5):533-544.
    [42]刘纪远,匡文慧,张增祥,徐新良,秦元伟,宁佳,周万村,张树文,李仁东,颜长珍,吴世新,史学正,江南,于东升,潘贤章,迟文峰.20世纪80年代末以来中国土地利用变化的基本特征与空间格局.地理学报,2014,69(1):3-14.
    [43]Goldstein J H,Caldarone G,Duarte T K,Ennaanay D,Hannahs N,Mendoza G,Polasky S,Wolny S,Daily G C.Integrating ecosystem-service tradeoffs into land-use decisions.Proceedings of the National Academy of Sciences of the United States of America,2012,109(19):7565-7570.
    [44]刘刚,陈利.洪湖湿地碳储量的研究.中南林业科技大学学报,2013,33(8):103-107.
    [45]田应兵.湿地土壤碳循环研究进展.长江大学学报:自科版,2005,2(8):1-4.
    [46]邰继承,靳振江,崔立强,潘根兴.不同土地利用下湖北江汉平原湿地起源土壤有机碳组分的变化.水土保持学报,2011,25(6):124-128.
    [47]奚小环,李敏,张秀芝,张燕平,张德存,张建新,窦磊,杨奕.中国中东部平原及周边地区土壤有机碳分布与变化趋势研究.地学前缘,2013,20(1):154-165.
    [48]王亮,牛克昌,杨元合,周鹏.中国草地生物量地上-地下分配格局:基于个体水平的研究.中国科学:生命科学,2010,40(7):642-649.
    [49]刘兆丹,李斌,方晰,项文化,田大伦,闫文德,雷丕锋.湖南省森林植被碳储量、碳密度动态特征.生态学报,2016,36(21):6897-6908.
    [50]梁萌杰,陈龙池,汪思龙.湖南省杉木人工林生态系统碳储量分配格局及固碳潜力.生态学杂志,2016,35(4):896-902.
    [51]Zhang F,Zhan J Y,Zhang Q,Yao L N,Liu W.Impacts of land use/cover change on terrestrial carbon stocks in Uganda.Physics and Chemistry of the Earth,Parts A/B/C,2017,101:195-203.
    [52]李斌,方晰,李岩,项文化,田大伦,谌小勇,闫文德,邓东华.湖南省森林土壤有机碳密度及碳库储量动态.生态学报,2015,35(13):4265-4278.
    [53]丁访军,潘忠松,吴鹏,崔迎春,周凤娇.贵州东部常绿落叶阔叶混交林碳素积累及其分配特征.生态学报,2015,35(6):1761-1768.
    [54]黄麟,刘纪远,邵全琴,邓祥征.1990-2030年中国主要陆地生态系统碳固定服务时空变化.生态学报,2016,36(13):3891-3902.
    [55]荣月静,张慧,赵显富.基于InVEST模型近10年太湖流域土地利用变化下碳储量功能.江苏农业科学,2016,44(6):447-450,451-451.
    [56]朱耀军,赵峰,郭菊兰,武高洁,林广旋.湛江高桥红树林湿地有机碳分布及埋藏特征.生态学报,2016,36(23):7841-7849.
    [57]王绍强,周成虎.中国陆地土壤有机碳库的估算.地理研究,1999,18(4):349-356.
    [58]周成虎,周启鸣,王绍强.中国土壤有机碳库空间分布的分析与估算.AMBIO-人类环境杂志,2003,32(1):6-12.
    [59]Houghton R A.Land-use change and the carbon cycle.Global Change Biology,1995,1(4):275-287.
    [60]Kroeze C,Mosier A,Nevison C,Oenema O,Seitzinger S,Cleemput O V.The Revised 1996 IPCC Guidelines for National Greenhouse Gas Inventories,Chapter 5:Land Use Change and Forestry.1997.Workbook.
    [61]Grimm N,BFaeth S H,Golubiewski N E,Redman C L,Wu J G,Bai X M.Briggs J M.Global change and the ecology of cities.Science,2008,319(5864):756-760.
    [62]Hutyra L R,Yoon B,Hepinstall-Cymerman J,Alberti M.Carbon consequences of land cover change and expansion of urban lands:A case study in the Seattle metropolitan region.Landscape and Urban Planning,2011,103(1):83-93.
    [63]揣小伟,黄贤金,郑泽庆,张梅,廖启林,赖力,卢俊宇.江苏省土地利用变化对陆地生态系统碳储量的影响.资源科学,2011,33(10):1932-1939.
    [64]Guo L B,Gifford R M.Soil carbon stocks and land use change:a meta analysis.Global Change Biology,2002,8(4):345-360.
    [65]张新厚,范志平,孙学凯,胡亚林,曾德慧,王琼.半干旱区土地利用方式变化对生态系统碳储量的影响.生态学杂志,2009,28(12):2424-2430.