典型区域海岸带综合承载力评估
|
摘要
海岸带综合承载能力是海岸带及海洋主体功能区划的主要依据。它反映了海岸带环境、资源、生态系统对人类活动的综合承受能力,是划分海岸带优先开发、重点开发、限制开发和禁止开发区域的基础。本论文针对以海湾型、淤泥质海岸为特点的大规模港口、临海工业开发建设活动,对天津滨海新区的城市化与工业化区域进行调查,明确目前其生态环境现状及主要问题,掌握城市化与工业化进程对海岸带生态系统的压力,评估该区域综合承载力,为渤海海岸带开发布局、环境管理以及主体功能区划规划提供科学依据和技术支撑。
本论文构建海岸带区域生态环境综合承载力评价指标体系,并利用2005-2009年间天津滨海新区的经济、社会、生态、环境及人文等数据,对海岸带的综合承载力进行评估。
调查诊断分析结果显示,天津滨海新区面临的主要生态环境问题包括:(1)入海污染源的水质超标严重;(2)河流入海口水质污染严重;(3)近岸海域水质较差,污染海域未现好转;(4)入海污染物通量仍然较大。而形成这些问题的主要驱动力为:(1)过高的海岸带开发强度;和(2)滨海新区的大规模工业化、城市化所带来的经济活动。
本文利用P-S-R概念模型,结合目前国内外有关海岸带综合承载力评价的各种方法,构建了海岸带区域生态环境综合承载力评价指标体系。指标体系由目标层、项目层、因素层和指标层构成,共14个具体评价指标用以评估承载力的压力和承压状况。计算结果表明,随着滨海新区的发展,海岸带承载指标出现明显下降趋势,从2005年到2009年承压指数从0.854下降到0.227,而压力指标呈缓慢上升趋势,从2005年到2009年压力指标由0.488上升到0.512。随着滨海新区的开发活动、经济生活活动和人口数量的快速增长,承压比从2005年的1.75逐渐下降到2007年的1.20,再到2009年的0.44。这些结果说明了天津滨海新区海岸带的综合承载压力日益增大,而承载能力却越来越差。
根据天津滨海新区的海岸带综合承载力分析结果,本文提出管理对策如下:(1)树立可持续发展的理念,可持续发展要切实做到在实现经济目标的同时,实现相应的环境目标,使区域发展走上可持续发展的良性循环轨道;(2)优化产业结构,减轻海岸带压力,优先发展知识化、生态化的第三产业,大力推动生态产业转变与改造;(3)坚持陆海统筹,优化海岸带布局,海岸带区域生态系统管理要综合考虑、整体部署,协调岸线滩涂资源的保护与开发关系;(4)重视经济发展与海洋生态环境的改善同步。
Integrated coastal carrying capacity (ICCC) is one of the important bases forcoastal and marine major function oriented zoning. It reflects the supporting capacityof the coastal environment, resources and ecosystem to human activities. It is also thefoundation to formate the priority development area, key development area, restricteddevelopment area, and prohibited development area on the coast. The paper isfocusing on the Tianjin Binhai New Area, which specified with bay-type, muddy coast,heavy developed with nearshore harbor and onshore industry. The ecological andenvironmental issues are analyzed by investigation with coastal urbanization andindustrization, then after the pressures to the coastal ecosystem are identified. TheICCC is evaluated to provide scientific supports to the developing layout plans,environmental management, and major function oriented zoning plans of Bohai area.
The evaluation index for ICCC is built up in the paper, and the ICCC of TianjinBinhai New Area is assessed by using economic, social, ecological, environmental,and humanity data from2005-2009.
The main ecological and environmental issues are identified by surveying anddiagnostic analysis, and the results shows:(1) pollution discharge water exceeds thedischarge allowable standard;(2) water quality of rivers’ outlets are heavily polluted;(3) nearshore seawater still are in bad quality, the polluted seas do not ameliorate;(4)the flux of pollutants into the sea is still huge. The dirver forces of these issues aremanifested in the following aspects:(1) high intensity of coastal developing; and (2)activities from large-scale urbanization and massive industrization in the coast ofTianjin Binhai New Area.
An ICCC evaluation index is built up based on the Pressure-State-Response(P-S-R) concept model, which integrates various ICCC assessment methodsworldwidely as well. The ICCC evaluation index composes of objective layer, itemlayer, factor layer, and indicator layer. It contains14specific indicators to assess thecarrying capacity and the pressure conditions of the coast. The result shows thecarrying capacity indicator dramaticly declined with the development of Tianjin Binhai New Area. It is dropping from0.854to0.227from2005to2009, whilepressure indicator is rising from0.488to0.512. Following with the development ofthe Tianjin Binhai New Area, the intensity of development activities and economicactivities, as well as the population are rapidly grown. The ratio of carrying capacityto pressure decreased from1.75in2005to1.20in2007, then0.44in2009. All theseresults manifest that environmental pressure continuously increased in coastal zone,while the carrying capacity was getting worse.
According to consequence of ICCC evaluation in Tianjin Binhai New Area, themanagement countermeasures are suggested as follows:(1) to consolidate the conceptof sustainable development, sustainable development must be able to achieve theeconomic goals and environmental objectives at the same time, so that regionalsustainable development can be a benign cycle track;(2) to optimize the industrialstructure to alleviate the pressure of the coastal zone, and give priority to thedevelopment of technological and ecological tertiary industry, promote eco-industrialtransition and transformation;(3) to adhere to the coordination of land and sea andoptimize the layout of the coastal zone, comprehensively consider and overall arrangeecosystem of coastal zone, harmonize the relationship between development andprotection between marine beach resources;(4) to put a high value on the economicdevelopment and the marine ecological environment improvement simultaneously.
本论文构建海岸带区域生态环境综合承载力评价指标体系,并利用2005-2009年间天津滨海新区的经济、社会、生态、环境及人文等数据,对海岸带的综合承载力进行评估。
调查诊断分析结果显示,天津滨海新区面临的主要生态环境问题包括:(1)入海污染源的水质超标严重;(2)河流入海口水质污染严重;(3)近岸海域水质较差,污染海域未现好转;(4)入海污染物通量仍然较大。而形成这些问题的主要驱动力为:(1)过高的海岸带开发强度;和(2)滨海新区的大规模工业化、城市化所带来的经济活动。
本文利用P-S-R概念模型,结合目前国内外有关海岸带综合承载力评价的各种方法,构建了海岸带区域生态环境综合承载力评价指标体系。指标体系由目标层、项目层、因素层和指标层构成,共14个具体评价指标用以评估承载力的压力和承压状况。计算结果表明,随着滨海新区的发展,海岸带承载指标出现明显下降趋势,从2005年到2009年承压指数从0.854下降到0.227,而压力指标呈缓慢上升趋势,从2005年到2009年压力指标由0.488上升到0.512。随着滨海新区的开发活动、经济生活活动和人口数量的快速增长,承压比从2005年的1.75逐渐下降到2007年的1.20,再到2009年的0.44。这些结果说明了天津滨海新区海岸带的综合承载压力日益增大,而承载能力却越来越差。
根据天津滨海新区的海岸带综合承载力分析结果,本文提出管理对策如下:(1)树立可持续发展的理念,可持续发展要切实做到在实现经济目标的同时,实现相应的环境目标,使区域发展走上可持续发展的良性循环轨道;(2)优化产业结构,减轻海岸带压力,优先发展知识化、生态化的第三产业,大力推动生态产业转变与改造;(3)坚持陆海统筹,优化海岸带布局,海岸带区域生态系统管理要综合考虑、整体部署,协调岸线滩涂资源的保护与开发关系;(4)重视经济发展与海洋生态环境的改善同步。
Integrated coastal carrying capacity (ICCC) is one of the important bases forcoastal and marine major function oriented zoning. It reflects the supporting capacityof the coastal environment, resources and ecosystem to human activities. It is also thefoundation to formate the priority development area, key development area, restricteddevelopment area, and prohibited development area on the coast. The paper isfocusing on the Tianjin Binhai New Area, which specified with bay-type, muddy coast,heavy developed with nearshore harbor and onshore industry. The ecological andenvironmental issues are analyzed by investigation with coastal urbanization andindustrization, then after the pressures to the coastal ecosystem are identified. TheICCC is evaluated to provide scientific supports to the developing layout plans,environmental management, and major function oriented zoning plans of Bohai area.
The evaluation index for ICCC is built up in the paper, and the ICCC of TianjinBinhai New Area is assessed by using economic, social, ecological, environmental,and humanity data from2005-2009.
The main ecological and environmental issues are identified by surveying anddiagnostic analysis, and the results shows:(1) pollution discharge water exceeds thedischarge allowable standard;(2) water quality of rivers’ outlets are heavily polluted;(3) nearshore seawater still are in bad quality, the polluted seas do not ameliorate;(4)the flux of pollutants into the sea is still huge. The dirver forces of these issues aremanifested in the following aspects:(1) high intensity of coastal developing; and (2)activities from large-scale urbanization and massive industrization in the coast ofTianjin Binhai New Area.
An ICCC evaluation index is built up based on the Pressure-State-Response(P-S-R) concept model, which integrates various ICCC assessment methodsworldwidely as well. The ICCC evaluation index composes of objective layer, itemlayer, factor layer, and indicator layer. It contains14specific indicators to assess thecarrying capacity and the pressure conditions of the coast. The result shows thecarrying capacity indicator dramaticly declined with the development of Tianjin Binhai New Area. It is dropping from0.854to0.227from2005to2009, whilepressure indicator is rising from0.488to0.512. Following with the development ofthe Tianjin Binhai New Area, the intensity of development activities and economicactivities, as well as the population are rapidly grown. The ratio of carrying capacityto pressure decreased from1.75in2005to1.20in2007, then0.44in2009. All theseresults manifest that environmental pressure continuously increased in coastal zone,while the carrying capacity was getting worse.
According to consequence of ICCC evaluation in Tianjin Binhai New Area, themanagement countermeasures are suggested as follows:(1) to consolidate the conceptof sustainable development, sustainable development must be able to achieve theeconomic goals and environmental objectives at the same time, so that regionalsustainable development can be a benign cycle track;(2) to optimize the industrialstructure to alleviate the pressure of the coastal zone, and give priority to thedevelopment of technological and ecological tertiary industry, promote eco-industrialtransition and transformation;(3) to adhere to the coordination of land and sea andoptimize the layout of the coastal zone, comprehensively consider and overall arrangeecosystem of coastal zone, harmonize the relationship between development andprotection between marine beach resources;(4) to put a high value on the economicdevelopment and the marine ecological environment improvement simultaneously.
引文
车越,张明成,杨凯.基于SD模型的崇明岛水资源承载力评价与预测[J].华东师范大学学报(自然科学版),2006,(06):67-74.
陈传美,郑垂勇,马彩霞.郑州市土地承载力系统动力学研究[J].河海大学学报(自然科学版),1999,20(01):53-56.
崔凤军.环境承载力论初探[J].中国人口·资源与环境,1995,5(1):76-78.
狄乾斌,韩增林,刘锴.海域承载力研究的若干问题[J].地理与地理信息科学,20(05):2004,50-53.
费尊乐,Trees C.C.,李宝华.利用叶绿素资料计算初级生产力[J].黄渤海海洋,1997,15(1):35-47.
冯尚友,刘国全.水资源持续利用的框架[J].水科学进展,1997,8(04):301-307.
冯伍法,潘时祥,张朝阳,等.海岸带分布规律及其海部要素变化检测[J].测绘科学技术学报,2006,23(5):370-374.
高吉喜.可持续发展理论探索:生态承载力理论,方法与应用[M].中国环境科学出版社.
高文,吴达,毛涛.滨海新区研发投入现状分析[J].天津科技,2011,2:78-79.
韩俊丽,段文阁,李百岁.基于SD模型的干旱区城市水资源承载力模拟与预测——以包头市为例[J].干旱区资源与环境,2005,19(04):188-191.
韩增林,狄乾斌,刘锴.海域承载力的理论与评价方法[J].地域研究与开发,2006,25(01):1-5.
郝翠,梁耀元,孟伟庆,等.天津滨海新区自然湿地植物分布与土壤理化性质的关系[J].湿地科学,2009,7(03):266-272.
黄青,任志远.论生态承载力与生态安全[J].干旱区资源与环境,2004,18(02):11-17.
惠泱河,蒋晓辉,黄强,等.二元模式下水资源承载力系统动态仿真模型研究[J].地理研究,2001,5(02):191-198.
李保国,王建卉.天津滨海新区水资源配置研究[J].海河水利,2006,11(03):6-9.
李建国,韩春花,康慧,等.滨海新区海岸线时空变化特征及成因分析[J].地质调查与研究,2010,33(01):63-70.
李三忠,索艳慧,戴黎明,等.渤海湾盆地形成与华北克拉通破坏[J].地学前缘,2010,17(04):64-89.
李月辉,赵羿,胡远满等.科尔沁沙地东部农牧交错地土地承载力研究—以科尔沁左翼后旗为例[J].生态学杂志,2003,22(3);23-28.
李祚泳.投影寻踪的理论及应用进展[J].大自然探索,1998,17(63):47-50.
吝涛,薛雄志,卢昌义.海岸带生态安全响应力评估方法初探[J].海洋环境科学,2007,26(04):325-328.
刘康,霍军.海岸带承载力影响因素与评估指标体系初探[J].中国海洋大学学报(社会科学版),2008,(04):8-11.
刘季芸,周世怀,郝晓权.广东省2000年土地承载力研究[J].热带地理,1990,8(5);36-41.
刘润有,代茂华,曾伟,等.滨海新区地质概况及路基处理设计[J].城市道桥与防洪,2010,13(01):5-8.
毛汉英,余丹林.区域承载力定量研究方法探讨[J].地球科学进展,2001,16(04):549-555.
毛建华,沈伟然.天津滨海新区土壤盐碱与污染状况及土地利用的思考[J].天津农业科学,2005,11(04):15-17.
孟伟庆,李洪远,王秀明,等.天津滨海新区湿地退化现状及其恢复模式研究[J].水土保持研究,2010,17(03):144-147.
孟昭彬.环渤海地区海洋资源环境对经济发展的承载能力研究[J].辽宁师范大学硕士论文,2008.
聂红涛,陶建华.渤海湾海岸带开发对近海水环境影响分析[J].海洋工程,2008,26(03):44-50.
牛文元.持续发展导论[M].北京:科学出版杜,1994.
彭再德,杨凯,王云.区域环境承载力研究方法初探[J].中国环境科学,1996,16(01):6-10.
齐亚彬.国土资源承载力定量综合评价研究[J].中国国土资源经济,2004,17(6):4-7.
阮本青,沈晋.1998.区域水资源适度承载能力计算模型研究[J].土壤侵蚀与水土保持学报,1998,4(03):57-61.
沈瑞生,冯砚青,牛佳.中国海岸带环境问题及其可持续发展对策[J].地域研究与开发,2005,24(03):124-128.
施雅风,曲耀光.乌鲁木齐河流域水资源承载力及其合理利用[M].北京:科学出版社,1992.
孙鸿烈.中国资源科学百科全书[M].北京:中国大百科全书出版社,2000.
唐剑武,叶文虎.环境承载力的本质及其定量化初步研究[J].中国环境科学,1998,18(03):227-230.
王浩,陈敏建,何希吾,等.西北地区水资源合理配置与承载能力研究[J].中国水利,2004,(22):43-45.
王建华,江东,顾定法,等.基于SD模型的干旱区城市水资源承载力预测研究[J].地理学与国土研究,1999,15(02):18-22.
王江涛,张潇娴,徐伟.围填用海总量控制指标确定方法——以天津市为例[J].海洋技术,2010,29(2):97-100.
王顺久,杨志峰,丁晶.关中平原地下水资源承载力综合评价的投影寻踪方法[J].资源科学,2004,26(06):104-110.
王中根,夏军.区域生态环境承载力的量化方法研究[J].长江职工大学学报,1999,16(04):9-12.
吴承祯,洪伟,洪滔.基于改进的投影寻踪的森林生态系统生态价位分级模型[J].应用生态学报,2006,17(03):3357-3361.
吴静.天津市滨海新区生态承载力综合评价.硕士论文:天津师范大学,2003.
夏军,朱一中.水资源安全的度量:水资源承载力的研究与挑战[J].自然资源学报,2002,17(03):262-269.
徐强.区域矿产资源承载力分析几个问题的探讨[J].自然资源学报,1996,11(2):135-141.
许有鹏.干旱区水资源承载能力综合评价研究——以新疆和田河流域为例[J].自然资源学报,1993,8(03):229-237.
杨晓华,杨志峰,郦建强.区域水资源潜力综合评价的遗传投影寻踪方法[J].自然科学进展,2003,13(05):554-557.
杨晓鹏,张志良.青海省土地承载力的系统动力学研究[J].地理学与国土研究,1992,8(4):16-22.
赵国杰,张炜熙.海岸带社会经济脆弱性研究[J].统计与决策,2006,(05):12-14.周永青.21世纪的中国海岸带研究与可持续发展——从地学角度探讨海岸带综合研究的新问题.海洋地质动态,2002,18(01):6-10.
朱琳,聂红涛,陶建华.渤海湾天津近岸海域水环境空间变异分析[J].海洋学报(中文版),2007,29(06):134-140.
周广胜,张新时.全球气候变化中的中国自然植被的净初级生产力研究[J].植物生态学报,1996,20(1):12-19.
Arrow K, Bolin B, Costanza R, et al. Economic growth, carrying capacity, and theenvironment[J]. Science,1995,268:520-520.
Forrester JW, Senge PM. Tests for building confidence in system dynamicsmodels[J]. TIMS studies in the management sciences,1980,14:209-228.
Uchijima Z, Seino H.Agroclimatic evaluation of net primary productivity of naturalvegetations, Chikugo model for evaluating net primary productivity[J]. Journal ofAgricultural Meteorology.1985,40:343-352.
Wachernagel M, Rees WE. Our ecological footprint:reducing human impact on theearth [M]. Gabriola Island: New Society Pub-lishers,1996..
Wackernagel M, Yount JD. Footprints for sustainability: the next steps[J].Environment, Development and Sustainability,2000,2:23-44.
Conklin H. Population land balance under system of tropical forest agriculture [M].Proceedings of the ninth pacific science congress of the pacific science association,Bangkok,Thai,1957,7:63.
Brush S. The conception of carrying capacity for system of shifting cultivation [J].American anthropologist,1975,77(4):799-811.
William ER. Ecological footprint and appropriated carrying capacity: what urbaneconomics leaves out [J]. Environment and Urbanization,1992,4(2):121-130.
陈传美,郑垂勇,马彩霞.郑州市土地承载力系统动力学研究[J].河海大学学报(自然科学版),1999,20(01):53-56.
崔凤军.环境承载力论初探[J].中国人口·资源与环境,1995,5(1):76-78.
狄乾斌,韩增林,刘锴.海域承载力研究的若干问题[J].地理与地理信息科学,20(05):2004,50-53.
费尊乐,Trees C.C.,李宝华.利用叶绿素资料计算初级生产力[J].黄渤海海洋,1997,15(1):35-47.
冯尚友,刘国全.水资源持续利用的框架[J].水科学进展,1997,8(04):301-307.
冯伍法,潘时祥,张朝阳,等.海岸带分布规律及其海部要素变化检测[J].测绘科学技术学报,2006,23(5):370-374.
高吉喜.可持续发展理论探索:生态承载力理论,方法与应用[M].中国环境科学出版社.
高文,吴达,毛涛.滨海新区研发投入现状分析[J].天津科技,2011,2:78-79.
韩俊丽,段文阁,李百岁.基于SD模型的干旱区城市水资源承载力模拟与预测——以包头市为例[J].干旱区资源与环境,2005,19(04):188-191.
韩增林,狄乾斌,刘锴.海域承载力的理论与评价方法[J].地域研究与开发,2006,25(01):1-5.
郝翠,梁耀元,孟伟庆,等.天津滨海新区自然湿地植物分布与土壤理化性质的关系[J].湿地科学,2009,7(03):266-272.
黄青,任志远.论生态承载力与生态安全[J].干旱区资源与环境,2004,18(02):11-17.
惠泱河,蒋晓辉,黄强,等.二元模式下水资源承载力系统动态仿真模型研究[J].地理研究,2001,5(02):191-198.
李保国,王建卉.天津滨海新区水资源配置研究[J].海河水利,2006,11(03):6-9.
李建国,韩春花,康慧,等.滨海新区海岸线时空变化特征及成因分析[J].地质调查与研究,2010,33(01):63-70.
李三忠,索艳慧,戴黎明,等.渤海湾盆地形成与华北克拉通破坏[J].地学前缘,2010,17(04):64-89.
李月辉,赵羿,胡远满等.科尔沁沙地东部农牧交错地土地承载力研究—以科尔沁左翼后旗为例[J].生态学杂志,2003,22(3);23-28.
李祚泳.投影寻踪的理论及应用进展[J].大自然探索,1998,17(63):47-50.
吝涛,薛雄志,卢昌义.海岸带生态安全响应力评估方法初探[J].海洋环境科学,2007,26(04):325-328.
刘康,霍军.海岸带承载力影响因素与评估指标体系初探[J].中国海洋大学学报(社会科学版),2008,(04):8-11.
刘季芸,周世怀,郝晓权.广东省2000年土地承载力研究[J].热带地理,1990,8(5);36-41.
刘润有,代茂华,曾伟,等.滨海新区地质概况及路基处理设计[J].城市道桥与防洪,2010,13(01):5-8.
毛汉英,余丹林.区域承载力定量研究方法探讨[J].地球科学进展,2001,16(04):549-555.
毛建华,沈伟然.天津滨海新区土壤盐碱与污染状况及土地利用的思考[J].天津农业科学,2005,11(04):15-17.
孟伟庆,李洪远,王秀明,等.天津滨海新区湿地退化现状及其恢复模式研究[J].水土保持研究,2010,17(03):144-147.
孟昭彬.环渤海地区海洋资源环境对经济发展的承载能力研究[J].辽宁师范大学硕士论文,2008.
聂红涛,陶建华.渤海湾海岸带开发对近海水环境影响分析[J].海洋工程,2008,26(03):44-50.
牛文元.持续发展导论[M].北京:科学出版杜,1994.
彭再德,杨凯,王云.区域环境承载力研究方法初探[J].中国环境科学,1996,16(01):6-10.
齐亚彬.国土资源承载力定量综合评价研究[J].中国国土资源经济,2004,17(6):4-7.
阮本青,沈晋.1998.区域水资源适度承载能力计算模型研究[J].土壤侵蚀与水土保持学报,1998,4(03):57-61.
沈瑞生,冯砚青,牛佳.中国海岸带环境问题及其可持续发展对策[J].地域研究与开发,2005,24(03):124-128.
施雅风,曲耀光.乌鲁木齐河流域水资源承载力及其合理利用[M].北京:科学出版社,1992.
孙鸿烈.中国资源科学百科全书[M].北京:中国大百科全书出版社,2000.
唐剑武,叶文虎.环境承载力的本质及其定量化初步研究[J].中国环境科学,1998,18(03):227-230.
王浩,陈敏建,何希吾,等.西北地区水资源合理配置与承载能力研究[J].中国水利,2004,(22):43-45.
王建华,江东,顾定法,等.基于SD模型的干旱区城市水资源承载力预测研究[J].地理学与国土研究,1999,15(02):18-22.
王江涛,张潇娴,徐伟.围填用海总量控制指标确定方法——以天津市为例[J].海洋技术,2010,29(2):97-100.
王顺久,杨志峰,丁晶.关中平原地下水资源承载力综合评价的投影寻踪方法[J].资源科学,2004,26(06):104-110.
王中根,夏军.区域生态环境承载力的量化方法研究[J].长江职工大学学报,1999,16(04):9-12.
吴承祯,洪伟,洪滔.基于改进的投影寻踪的森林生态系统生态价位分级模型[J].应用生态学报,2006,17(03):3357-3361.
吴静.天津市滨海新区生态承载力综合评价.硕士论文:天津师范大学,2003.
夏军,朱一中.水资源安全的度量:水资源承载力的研究与挑战[J].自然资源学报,2002,17(03):262-269.
徐强.区域矿产资源承载力分析几个问题的探讨[J].自然资源学报,1996,11(2):135-141.
许有鹏.干旱区水资源承载能力综合评价研究——以新疆和田河流域为例[J].自然资源学报,1993,8(03):229-237.
杨晓华,杨志峰,郦建强.区域水资源潜力综合评价的遗传投影寻踪方法[J].自然科学进展,2003,13(05):554-557.
杨晓鹏,张志良.青海省土地承载力的系统动力学研究[J].地理学与国土研究,1992,8(4):16-22.
赵国杰,张炜熙.海岸带社会经济脆弱性研究[J].统计与决策,2006,(05):12-14.周永青.21世纪的中国海岸带研究与可持续发展——从地学角度探讨海岸带综合研究的新问题.海洋地质动态,2002,18(01):6-10.
朱琳,聂红涛,陶建华.渤海湾天津近岸海域水环境空间变异分析[J].海洋学报(中文版),2007,29(06):134-140.
周广胜,张新时.全球气候变化中的中国自然植被的净初级生产力研究[J].植物生态学报,1996,20(1):12-19.
Arrow K, Bolin B, Costanza R, et al. Economic growth, carrying capacity, and theenvironment[J]. Science,1995,268:520-520.
Forrester JW, Senge PM. Tests for building confidence in system dynamicsmodels[J]. TIMS studies in the management sciences,1980,14:209-228.
Uchijima Z, Seino H.Agroclimatic evaluation of net primary productivity of naturalvegetations, Chikugo model for evaluating net primary productivity[J]. Journal ofAgricultural Meteorology.1985,40:343-352.
Wachernagel M, Rees WE. Our ecological footprint:reducing human impact on theearth [M]. Gabriola Island: New Society Pub-lishers,1996..
Wackernagel M, Yount JD. Footprints for sustainability: the next steps[J].Environment, Development and Sustainability,2000,2:23-44.
Conklin H. Population land balance under system of tropical forest agriculture [M].Proceedings of the ninth pacific science congress of the pacific science association,Bangkok,Thai,1957,7:63.
Brush S. The conception of carrying capacity for system of shifting cultivation [J].American anthropologist,1975,77(4):799-811.
William ER. Ecological footprint and appropriated carrying capacity: what urbaneconomics leaves out [J]. Environment and Urbanization,1992,4(2):121-130.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |