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This article proposed the concept of"climate capacity"as a way of measuring human’s adaptiveness to climate change.This article also focused on the related concepts like ecological carrying capacity,water resources carrying capacity,land carrying capacity as well as population carrying capacity.The concept of climate capacity was articulated against a background of global climate and environmental change.Essentially,China’s efforts to adapt to climate change was a matter of improving climate capacity,which is the ecosystem as well as the frequency,the intensity and the scale of human’s social activities that the climatic resources of a particular geographic area were supposed to support.The climate capacity has two components.One is the natural climate capacity,which includes temperature,sunlight,precipitation,extreme climatic events,etc.The other is the derived climate capacity,which includes water resources,land resources,ecological systems,climatic risks,etc.The climate capacity can be developed or be transferred between regions by taking engineering,technology or regime-based adaptive measures.However,these adaptive measures must be implemented under the principle of economic rationalism,ecological integrity,climate protection,and social justice.It is expected that by combining the climate capacity and its threshold value with the assessment of climate change risks,we are able to predict the optimal population carrying capacity and the scale of socioeconomic development,and furthermore,provide policy support for the socioeconomic development strategy and adaptive planning.In the regions with high climate capacity,there is a symbiotic relationship between adaptation and socioeconomic development.But,in the regions with limited climate capacity,irrational development may further damage the environment.Taking the Yangtze River delta,a region with high climate capacity,and a region of Ningxia,a region with limited climate capacity,as illustrative examples,the authors of this article analyzed the policy implications of climate capacity and further made suggestions on the problems of capacitylimited adaptation and development-driven adaptation.This article argued that the concept of climate capacity can not only be used as an analytical instrument of climate change economics,but also it can provide research support for planning regional adaptation and development with climate change impact and risk assessments. 相似文献
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以文献计量学方法,统计分析了2002年-2013年间中国知网学术文献总库、重庆维普资讯有限公司的中文科技期刊数据库、北京万方数据股份有限公司的中文科技期刊全文数据库中收录的所有CALPUFF模型研究相关的185篇文献,以期为CALPUFF模型的研究者提供参考。共有65种期刊刊登过CALPUFF模型研究相关文献,其中发表2篇以上的有17种,另有73.8%的期刊每刊只发表l篇这类文章;共有署名作者358位,这些作者隶属于134个机构,以高等院校、研究机构为最多。近几年国内对CALPUFF模型研究的关注度正在提高,与其它软件的耦合将是模型未来的发展趋势之一。 相似文献
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对京杭运河常州段8个研究点位水体中的氮形态(TN、NH4+-N、NO2--N和NO3--N)和环境因子(pH、T和DO)进行了连续9个月的动态监测,全面研究了各氮形态的随时间和空间的动态变化规律,并对各氮形态及环境因子进行了相关性分析。常州段水体月平均NH4+-N变化范围为(0.589±0.351)~(3.148±1.178)mg.L-1,TN变化范围为(3.373±1.379)~(7.373±2.307)mg.L-1,枯水期到丰水期各氮形态整体表现出波动性下降趋势,其中出境断面NH4+-N下降趋势平稳,NO3--N则是主导出境断面TN含量的主要形态。各点位NH4+-N的平均浓度范围为(1.202±0.492)~(2.813±1.566)mg.L-1,TN范围为(3.520±0.504)~(8.349±3.679)mg.L-1,各形态氮含量基本呈现出上游段(S)〈新运河(G)〈老运河(L)〈下游(X)的空间分布特征,其中下游段存在一个重要的氮素上升突变段,NO3--N是对TN的贡献率(43.8%~57.4%)最大的无机态氮,其次是NH4+-N、ON、NO2--N,其中有机氮对TN的贡献率(13.3%)则以老河段最高。NH4+-N和NO3--N、TN、pH相关系数分别为0.397**、0.932**、0.261*,与DO相关系数为-0.344**,陆源输入及DO不足是京杭运河常州段氮污染严重的重要原因。 相似文献
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对辽宁省鞍山市某生活垃圾卫生填埋场的晚期垃圾渗滤液进行预处理,选择MgO和磷矿粉两种矿物,利用共沉淀法去除垃圾渗滤液中的氨氮,用于制备磷铵镁复合肥,实现垃圾渗滤液的资源化利用。实验结果如下:MgO与磷矿粉配合使用,能够较好地去除垃圾渗滤液中COD和氨氮。采用MgO、磷矿粉共沉淀法生成磷铵镁复合肥具有可行性,同时可为后续生化处理创造良好的条件;在给定条件下(氨氮浓度1200 mg/L,COD 3180 mg/L),垃圾渗滤液COD去除的最优实验条件为MgO添加量5.0 g/L、磷矿粉添加量100 g/L,反应时间4 h,处理后COD去除率为62.1%,氨氮去除率为87.5%;氨氮去除的最优实验条件为MgO添加量10 g/L、磷矿粉添加量60 g/L、反应时间4 h,处理后COD去除率为42.1%,氨氮去除率为96.1%。 相似文献
468.
Mercury transportation in soil via using gypsum from flue gas desulfurization unit in coal-fired power plant 总被引:1,自引:0,他引:1
The mercury flux in soils was investigated, which were amended by gypsums from flue gas desulphurization (FGD) units of coal- fired power plants. Studies have been carried out in confined greenhouses using FGD gypsum treated soils. Major research focus is uptakes of mercury by plants, and emission of mercury into the atmosphere under varying application rates of FGD gypsum, simulating rainfall irrigations, soils, and plants types. Higher FGD gypsum application rates generally led to higher mercury concentrations in the soils, the increased mercury emissions into the atmosphere, and the increased mercury contents in plants (especially in roots and leaves). Soil properties and plant species can play important roles in mercury transports. Some plants, such as tall fescue, were able to prevent mercury from atmospheric emission and infiltration in the soil. Mercury concentration in the stem of plants was found to be increased and then leveled off upon increasing FGD gypsum application. However, mercury in roots and leaves was generally increased upon increasing FGD gypsum application rates. Some mercury was likely absorbed by leaves of plants from emitted mercury in the atmosphere. 相似文献
469.
锡林郭勒盟是我国重要的煤炭能源基地,近年来,煤电一体化开发为地区带来经济效益的同时也给环境带来巨大压力,大面积的草原受到破坏和威胁,引发了一系列生态问题,需要在锡盟未来的地区经济发展中引起注意。应该借鉴国际上对煤炭业开征环境保护税的经验,进行我国草原区煤炭业环境保护税费改革的制度设计和政策落实。 相似文献
470.
环境条件变化对河流沉积物“三氮”释放的影响 总被引:1,自引:0,他引:1
以京杭运河某断面沉积物和上覆水为研究对象,利用室内模拟试验探讨了3种环境条件(温度,曝气复氧,pH值)变化对河道沉积物"三氮"释放的影响。结果表明:5℃时上覆水氨氮和硝态氮累积量高于25℃,25℃时上覆水亚硝态氮累积量高于5℃,冬季低温条件下沉积物氨氮和硝态氮释放对上覆水的影响不容忽视。曝气复氧能抑制沉积物氨氮的释放和加速硝化作用而消耗氨氮,并促进亚硝态氮和硝态氮的生成,但是复氧初期可能致使上覆水氨氮含量上升。pH值越低,上覆水氨氮累积量越大,1 d后pH 4条件下的底泥氨累积量为pH 10时的1.8倍,pH 7~8.5条件下上覆水亚硝态氮累积速度最快,硝态氮累积速率最低。 相似文献