思茅市三家村农户庭园系统的能流和经济流研究

通过对三家村 6种农户庭园模式进行能流和经济流的系统研究 ,得出三家村 6种农户庭园系统的能量投入为 (98.4 8～ 174 .4 5 )× 10 10 J·hm-2 ,能量产出为 (10 1.6 6～ 15 8.5 2 )× 10 10 J·hm-2 ,能量产投比为(0 .88～ 1.4 1)∶1,并且以种植业为主的农户庭园 (模式Ⅰ、Ⅱ )的能量产投比高于以养殖业和副业为主的农户庭园系统 (模式Ⅵ、Ⅶ、Ⅸ ) ;三家村 6种农户庭园模式的经济产投比为 (1.0 0～ 1.35 )∶1,其高低次序是Ⅵ >Ⅶ >Ⅰ >Ⅱ >Ⅴ >Ⅸ ,6种农户庭园模式的经济产出为 2 32 7.9～ 980 3.4元。因此 ,三家村农户庭园系统是一个能量和经济的高投入高产出的人工生态系统     

草莓有机与无机种植系统能流和经济流的比较研究

通过３年田间试验，比较分析了草莓有机与无机种植系统的能流、经济流及对土壤环境的影响。结果表明，有机系统草莓产量、经济效益均高于无机系统；有机系统能量产投比仅为无机系统的２５％，但投入的绝大部分为可再生能源；有机系统土壤有机质、微生物量高于无机系统，具有更好的土壤条件     

村级养殖种植园区碳素物质流分析——以北京市平谷区西柏店村为例

将西柏店村畜禽养殖规模折合为1.5万头猪场当量污染负荷,并将整个园区生产工艺分为养殖、废弃物处理和种植3个阶段,不考虑隐藏流的情况下,以1年为系统边界,通过数据调查、已有资料研究和小区种植试验,采用物质流分析方法分析了西柏店村养殖种植园区在整个生产工艺的碳素流动,以期为村级养殖种植园区大力发展低碳经济提供新的方法和视角,为村级区域循环经济及可持续发展提供减少环境压力解决方案的科学依据。通过园区养殖种植过程的C素分析表明,养殖阶段年输入C素总量为112.52×10^4 kg,其中猪身总固碳量为40.04×10^4 kg,粪碳和尿碳总量为49.29×10^4 kg,以CO2形式代谢排出的C为23.19×10^4 kg。废弃物处理阶段输入的碳主要为粪碳和尿碳,其总量为49.29×10^4 kg,其中9.79×10^4 kg尿碳直接进入种植阶段,39.50×10^4 kg粪碳进入沼气站处理,沼气转化出的碳为11.02×10^4 kg,其中CH4为8.43×10^4 kg,CO2为2.59×10^4 kg,养殖污水中通过CH4排放再加上其他途径释放的碳约有23.66×10^4 kg,占粪碳量的59.89%。进入种植阶段的碳素主要为尿碳、沼渣和沼液的碳素,合计为14.61×10^4 kg,假设该村43 hm^2耕地能全部施用沼肥,不计其他作物种植,1季玉米种植土壤可库存有机碳为60.50×10^4 kg,为进入种植阶段碳素14.61×10^4 kg的4倍,还可增加植物有机碳27.31×10^4 kg。由C素流动分析可知,西柏店村具有可容纳该村养殖废弃物的环境容量,有较好实现养殖废弃物循环利用的条件,但需大力加强畜禽废弃物的管理和处理,提高园区养殖废弃物循环利用效率。     

农户能源利用方式的选择与农村环境的变化:某贫困山村薪炭林利用案例研究

为了深入了解农户能源利用状况与农村环境的相互作用关系,对一个贫困山村进行了为期15天的实地考察。通过问卷调查,入户访谈等方式,收集了50余份问卷和大量原始数据、图片资料,发现当地农户在利用薪材能源作为燃料直接燃烧时并不会带来对当地森林资源的破坏,但能源利用效率不高;而在用薪材能源作为香菇培养基原料时显著地提高了能源利用效率,却也严重影响了当地森林资源的可持续利用。由此可见,能源利用方式的选择与农村环境的变化息息相关。为了保证农村能源的可持续利用,人们需要同时考虑农村环境的承载能力,这就决定了改善农户能源利用状况不能单纯以提高能源利用效率为目标。在结合当地客观条件,综合当地政府、当地农户的意见的基础上,提出了当地能源利用的最佳方向应该是:在不增加农民支出前提下,鼓励农民改善薪材能源的利用方式,力图达到提高能源利用效率和森林资源可持续利用的“双赢”目的。     

中国的太阳能资源及应用潜力

太阳能资源被认为是21世纪最引人注目的可再生能源和洁净能源，为了经济的可持续发展，应该把环境保护和长期利益作为研究目标，文章估算了中国14个城市的太阳能资源，分析了太阳能热水系统和PIVP系统的经济性，研究结果表明，中国的太阳能利用潜力很大，政府应该对其发展发挥重要作用。     

草莓在有机与无机种植系统中的能流和经济效益的比较

本文运用了生态经济学的原理，对草莓在有机和无机种植系统内能量流动、物质转化以及经济效益进行了比较研究。结果表明：两处理区施用几乎相同氮量的有机肥（１７５ｋｇ／ｈｍ￣２）和无机肥（１６４ｋｇ／ｈｍ￣２），其有机区草莓的生长发育、产量均明显好于无机处理区；有机草莓的光能利用率和氮素产出／投入分别比无机草莓提高了６４．２４％和５７．７２％；同时证明，优质有机肥可改善草莓的良用品质，并提高经济效益。     

Ecological planning for promoting urban sustainable development: A case study of Shenzhen Special Economic Zone,China

Based on the case study of Shenzhen Special Economic Zone, China, this paper investigates the theories and application of ecological planning for promoting urban sustainable development. The stated significance of such development is to promote the co-ordination of relationships between man and nature, and man and the environment.     

Environmental quality and its impact on the local economy: A case study from Dongguan,South China

Industries that pollute the environment developed in the early 1990s in Dongguan City, especially those in the middle and lower valley of the Dongjiang River (waterside area) have seriously affected water and air quality and hence have affected soil quality through polluted water irrigation and precipitation. Investigation of the economic growth and environmental pollution in the 32 township units in the City from 1990 to 2000 also reveals that environmental pollution has affected the history of the development of the towns or townships in the waterside region in the delta of the River Dongjiang, especially the towns near the river mouth, and has prevented their industry from upgrading and hence has slowed down their economic growth. The impact of environmental pollution on economic growth is most severe in the towns along the lower valley, or in down-wind regions. In contrast, economic development in the protected area of the upper valley of the waterside region indicates that environmental protection that strictly controls the discharge of pollutants does not restrict the development of the local economy.     

城市生态安全水平的空间分异与动态转移特征——以广州市为例

生态安全已经成为国家安全的组成部分,成为区域、国家可持续发展研究的重要内容.基于作者完成的广州市生态安全综合评价数值分布图,文章采取等间距的分类方法,进行了生态安全景观的数量结构、不同类型之间的数量转移关系的研究,并从景观结构的三个方面选取景观指数,研究生态安全景观的格局特征.研究结果显示:生态安全评价指数的最低值的区域呈扩大趋势,增大幅度最大的时段是1990-1995年,空间上以中心城区为主;1990年,研究区生态安全面积百分比最大的区间是60-70,其余三个时间里,这个比值都变小,且发生偏移.最低值区间30～40的百分比值呈增大的趋势.1990-1995年各区间值以向相邻的低值区间转移为主,2000-2005年则基本相反,1995-2000的情况较复杂.景观指数研究结果结果是相互补充的,在1990-2000年间,生态安全景观的破碎度呈减少趋势,但是不同安全值的斑块分布均匀程度在1995年最高.但是,即使是在1995年,仍然有局部区域,某安全值段的斑块呈现出聚集态分布,表现为CONTAG值较高.     

Urban ecological security assessment and forecasting,based on a cellular automata model: A case study of Guangzhou,China

Forecasting changes in urban ecological security could be important for the maintenance or improvement of the urban ecological environment. However, there are few references in this field and no landmark research work has been reported, particularly quantitative research. A forecasting model for ecological security based on cellular automata (CA) was developed using preliminary spatial data from an ecological security assessment of Guangzhou conducted previously (1990–2005). The model was constrained using transformation rules based upon proposed planning for 2010–2020. A simulation accuracy of 72.09% was acquired. Using a one-bit assessment grid for 2005 as the starting state for the simulation, the model was used to forecast ecological security for 2020. This revealed that although the ecological security status would be improved relative to current trends, there would still be an overall decline in ecological security over the next 15 years. Even if new urban plans were implemented, landscape pattern analysis suggested a more scattered and homogenous distribution in the urban landscape of Guangzhou and significant variation in landscape characteristics among districts. This suggests that further measures must be adopted to reverse the current trends in Guangzhou's ecological security. The model highlights the need to make ecological protection an integral part of urban planning. This study demonstrates the potential of CA models for forecasting ecological security. Such models could make an important contribution to decision-making for regional governors and to the development of urban planning incorporating assessment and prediction of ecological security.     

An integrated assessment method of urban drainage system: A case study in Shenzhen City, China

In recent years, the urban drainage system in China is facing the dual pressure of renovation and construction. This requires that the integrated assessment for the planning and operation of the urban drainage system is obligatory. To evaluate the urban drainage system, an integrated assessment methodology based on the analytic hierarchy process (AHP), integrated simulation, and fuzzy assessment is established. This method is a multi-criteria decision adding app roach to the assessment of the urban drainage system comprehensively. Through the integration of the Storm Water Management Model (SWMM), a simple wastewater treatment plant model, and a surface water quality model, an integrated modelling system for the urban drainage system is developed and applied as a key tool for assessment. Using the established method, a case study in Shenzhen City has been implemented to evaluate and compare two urban drainage system reno vation plans, the distributed plan and the centralized plan. Because of the particularity of this case study, the established method is not applied entirely. Considering the water environ mental impact, ecological impact, technological feasibility, and economic cost, the integrated performance of the distri buted plan is better. As shown in this case study, the proposed method is found to be both effective and practical.     

Impact of energy structure adjustment on air quality: a case study in Beijing, China

Energy consumption is a major cause of air pollution in Beijing, and the adjustment of the energy structure is of strategic importance to the reduction of carbon intensity and the improvement of air quality. In this paper, we explored the future trend of energy structure adjustment in Beijing till 2020, designed five energy scenarios focusing on the fuel substitution in power plants and heating sectors, established emission inventories, and utilized the Mesoscale Modeling System Generation 5 (MM5) and the Models-3/Community Multiscale Air Quality Model (CMAQ) to evaluate the impact of these measures on air quality. By implementing this systematic energy structure adjustment, the emissions of PM₁₀, PM_2.5, SO₂, NO _x , and non-methane volatile organic compounds (NMVOCs) will decrease distinctly by 34.0%, 53.2%, 78.3%, 47.0%, and 30.6% respectively in the most coalintensive scenario of 2020 compared with 2005. Correspondingly, MM5-Models-3/CMAQ simulations indicate significant reduction in the concentrations of major pollutants, implying that energy structure adjustment can play an important role in improving Beijing??s air quality. By fuel substitution for power plants and heating boilers, PM₁₀, PM_2.5, SO₂, NO _x , and NMVOCs will be reduced further, but slightly by 1.7%, 4.5%, 11.4%, 13.5%, and 8.8% respectively in the least coal-intensive scenario. The air quality impacts of different scenarios in 2020 resemble each other, indicating that the potential of air quality improvement due to structure adjustment in power plants and heating sectors is limited. However, the CO₂ emission is 10.0% lower in the least coal-intensive scenario than in the most coal-intensive one, contributing to Beijing??s ambition to build a low carbon city. Except for energy structure adjustment, it is necessary to take further measures to ensure the attainment of air quality standards.     

Water environmental planning and management at the watershed scale: A case study of Lake Qilu, China

Water environmental planning and management has become essential for guiding the water pollution control activities. Past water pollution control activities have been site specific, with little thought on water quality standard reaching at the watershed scale. Based on the watershed approach, a seven-step methodological framework for water environmental planning and management was developed. The framework was applied to water environmental planning and management of the Lake Qilu watershed in Yunnan Province, China. Results show that the reduction amount of total nitrogen (TN) under the plan is 1,205 tons per year so that the target of environmental capacity can be reached in 2020. Compared with traditional methods, the framework has its prevalence and could be generalized to analogous watersheds.     

Experimental and numerical investigations of the effect of imbricated gravel structures on flow and solute transport in a highly heterogeneous alluvial-proluvial fan aquifer,SW China

Environmental Fluid Mechanics - An alluvial-proluvial fan (APF) has heterogeneous characteristics, which result in the development of imbricated gravel channel networks formed by flow erosion. In...     

县域土壤资源管理与施肥决策信息系统的建立——以北京市平谷区为例

以作物推荐施肥模型为智能决策支撑,建立了基于地块的县域土壤资源管理与施肥决策信息系统。该系统采用C/S和B/S混合结构,采用Delphi开发语言和GIS组件技术,对GIS、数据库和模型进行耦合与集成,实现了土壤资源和决策信息查询、更新;养分资源管理决策与咨询;耕地质量评价;耕地环境质量预警等四个主要功能。系统在北京市平谷区得到应用和验证,应用表明该系统对于区域土壤资源信息高效管理、决策和面向公众的土壤信息服务具有重要意义。     

华北平原集约农区种植业生态经济系统的能值分析——以河北沧州为例

从能值的角度出发,以华北平原代表区域——河北省沧州地区2003年统计数据和调查数据为基础,对该地区种植业生态经济系统的能值投入和产出进行首次分析。结果显示:该地区不可更新的工业辅助能占总能值投入的78.5%,可更新的能值投入仅占21.4%(可更新环境资源8.79%、可更新有机12.68%),说明农业生产过渡依赖于外源不可更新辅助能的投入;此外,高系统太阳能值转换率、低净能值产出率和高环境负荷率的特点,表明该地区种植业的科技发展水平比较高,对环境的压力相当大。综合结果说明种植业系统对环境资源的过度利用必然会引起生态环境的破坏。基于此,提出华北平原集约农区种植业生态经济系统可持续发展对策:以优化施肥为基础,合理减少化肥投入为代表,适当降低工业辅助能投入;调整农业增产投入战略,努力解决该地区以水资源短缺为主的作物增产限制因子;改变农业生产中有机能值与无机能值的投入比例,降低系统环境负荷率。     

An optimization approach for sustainable release of e-flows for lake restoration and preservation: Model development and a case study of Baiyangdian Lake, China

In this paper, we describe the development of a model for the sustainable release of e-flows from the regional water resource infrastructure (e.g., reservoirs, rivers with available water) for lake restoration and preservation, and use the model in a case study of Baiyangdian Lake, China. First, we define the sustainable environmental flows (e-flows), with an emphasis on the ecological importance of temporal variation in factors such as water level (depth). By analyzing historical data on the suitable range of water levels in the lake, we evaluated fluctuations using canonical correspondence analysis and frequency distribution analysis. The temporal variations required by the ecosystem of the lake were also assessed. Based on this approach, we developed an optimization model for sustainable release of e-flows. We used the adaptive genetic algorithm approach to solve the model and determine the required release of e-flows. Scenario analysis then provided a range of potential management strategies for the e-flows. The optimal results are helpful to the lake managers to establish sustainable e-flow release schemes for the lake restoration and preservation.     

Farmer's perception and response towards land policy and eco-environment based on participatory rural appraisal: A case study in the Loess hilly area,China

Based on a survey of 107 farm households by means of participatory rural appraisal, this paper presents a region-level analysis of farmer's perception and response towards land policies and eco-environment in the Loess hilly area, China. The surveyed farmers are divided into two groups, farmers on non-irrigated farmland and farmers on irrigated farmland. The results indicate that most farmers mainly depend on cropland, especially the farmers on non-irrigated farmland. Farmers believe that stability and persistence of land policies are important, and most hold a positive attitude towards the Grain-for-Green Programme. The farmers on irrigated farmland have a more favourable attitude to environmental conservation than the farmers of non-irrigated farmland. Nearly 80% of interviewees consider that the local eco-environment has improved in the last ten years. About 45% never consider the environmental impact of their agriculture practices. About 55% think drought is the most important reason for eco-environment deterioration, overgrazing and serious soil erosion. Soil and water conservation is not conscious and voluntary behaviour for farmers, it is only a measure to guarantee their basic agricultural production and to improve their living conditions. Results indicate that farmers on nonirrigated land find engineering approaches more beneficial to agronomic methods. However, the farmers on irrigated farmland pay more attention to improving farmland quality.     

Impact of gasoline engine deposits on light duty vehicle emissions: in-use case study in Beijing, China

Tailpipe emissions from light-duty gasoline vehicles usually deteriorate over time. The accumulation of engine deposits due to inadequate gasoline detergency is considered to be one of the major causes of such emission deterioration. Six in-use light-duty gasoline vehicles in Beijing were tested to investigate the impact of engine deposits on emissions of hydrocarbons (HC), carbon monoxide (CO) and nitrogen oxides (NO _x ). Emissions under cold start and hot running test conditions from the six light duty vehicles were measured before and after engine deposits were removed. Results show that although individual vehicles reacted differently for each of the pollutants, elimination of engine deposits on average reduced HC emissions under hot running conditions by 29.4%, CO emissions under cold start conditions by 23.0% and CO emissions under hot running conditions by 35.5% (t < 0.05 in all cases). No pollutant emissions increased with statistical significance (t < 0.05) after the removal of engine deposits. Variations of emission changes upon removal of engine deposits were observed. Such variations are in line with previous studies, implying that the impact patterns of engine deposits on vehicle emissions may be subject to many influencing factors that are not fully understood and difficult to control under all conditions. A statistical view of the impact of engine deposits on vehicle emissions may be appropriate for evaluation of emissions reductions across a city or a country. It is necessary to maintain sufficient and effective gasoline fuel detergency in practice to keep the engines clean and in turn reduce vehicle emissions.     

Comprehensive urban planning and management at multiple scales based on ecological principles: a case study in Beijing,China

SUMMARY

Rapid urbanisation and serious environmental problems have led people worldwide to realise the significance of urban planning and management towards a sustainable environment. Beijing was used as a case study to develop a framework and strategies for sustainable development using ecological principles. At the regional level, Beijing-Tianjin agglomeration and Hebei Province are considered together. At the Beijing administrative level, some important measures are put forward for revision of the Beijing Urban Master Plan. At the Beijing plain level, the future spatial structure of Beijing city and the relationship between settlements, green space and transportation are considered, and three basic development patterns are proposed. At the inner district level, the ecological corridor system is suggested, based on ecosystem services. At the selected area level, a comprehensive strategy and key measures for conservation and renewal of old Beijing city core are provided. Once strategies for Beijing urban development are implemented step-by-step, a vision for future development can be achieved. This paper provides considerations for improvement of urban planning and management in China and other countries.