重庆市农业环境质量安全现状与防治对策

对重庆市农业环境质量安全现状进行了研究分析，提出了充分利用环境资源比较优势，进行农业生产布局和农业结构调整；加强城郊区农业生态环境保护和污染的治理；合理施用农药化肥，防止农产品农药残留和硝酸盐污染；加强全市农业环境与农产品质量安全监测体系建设，开展预警监测；加强三峡库区农业面源污染防治；进一步开展农业环境优先污染物的控制研究等防治对策。     

农村建设用地拆旧复垦土壤重金属含量分析

文章选取了化州市丽岗镇、林尘镇、新安镇各5个拆旧复垦地块进行土壤重金属镉、汞、砷、铅、铬检测分析，分析结果表明，复垦地块的重金属含量均未超过《土壤环境质量农用地土壤污染风险管制标准（试行）》（GB 15618—2018）中的农用地污染风险管制值；丽岗镇和林尘镇同一乡镇的不同复垦地块的土壤重金属含量基本一致，新安镇差异较大；土壤砷分布具有区域性。     

风险认知与议程设定——评桑斯坦的《最差的情形》

在2011年3月5日温家宝总理于第十一届全国人民代表大会第四次会议所做的《政府工作报告》中,有多处论及"气候变化",指出要"积极应对气候变化","建立完善温室气体排放和节能减排统计监测制度","加强适应气候变化特别是应对极端气候事件能力建     

黑岱沟露天煤矿排土场周边土壤重金属污染分析

为阐明黑岱沟露天煤矿排土场周边土壤重金属污染现状，应用单因子污染指数法和潜在生态危害指数法对土壤中Cd、Cu、Mn、Ni、Zn和Pb元素的污染状况进行分析。结果表明：以内蒙古土壤背景值为标准，矿区排土场周边土壤中Cd元素(P_i>5)属于重度污染为特征污染物；Cu和Ni(1i ≤2)处于微污染水平；Mn、Zn和Pb元素(P_i<1)未达到污染水平。Cd元素各样点分布不均，变异系数较大，说明该元素的富集受人类活动的影响严重，应对其进行监测与防治。该研究可为黑岱沟露天煤矿排土场周边土壤重金属污染防治及生态修复提供依据。     

土壤环境质量研究的回顾和展望

土壤环境质量作为土壤质量的重要组成部分之一,是表征土壤容纳、吸收和降解各种环境污染物的能力。目前对土壤环境质量定义尚无统一的意见,陈怀满教授给出了土壤环境质量的参考定义,指出土壤环境质量是在一定的时间和空间范围内,土壤自身性状对其持续利用和其他环境要素,特别是对人类或其他生物的生存、繁衍以及社会经济发展的适宜性。本文从土壤污染、环境容量、污染物迁移转化、生态安全以及修复技术等角度回顾了国内外土壤环境质量的研究内容。对今后土壤环境质量的发展趋势进行了展望,指出土壤环境质量在我国的研究和应用还比较薄弱,在土壤持续污染物防治、土壤污染风险评价等方面急需加强。随着我国环境形势日益严峻,土壤环境污染机理及其防治也提上议事日程,土壤环境质量的研究和应用对于我国的农业安全、食品安全、生态安全都具有极为重要的理论和现实意义。     

中国动态

走生态良好的文明发展道路国务院总理温家宝日前在第十一届全国人民代表大会第五次会议上作政府工作报告时指出，加强环境保护，着力解决重金属、饮用水源、大气、土壤、海洋污染等关系民生的突出环境问题。     

重金属污染土壤修复淋洗剂研究进展

针对不同重金属淋洗特性存在差异的问题，综述了绿色、高效淋洗剂的最佳淋洗条件、淋洗机理、化学反应实质及环境风险，为修复污染土壤选用或复配淋洗剂提供参考。总的来说，有机酸绿色、无污染，重金属去除效果较好，其中柠檬酸重金属去除率最高，控制pH=1～4、浓度0.2～0.4mol/L、时间4～12h的淋洗条件，能达到较好淋洗效果；人工螯合剂重金属去除效果好，但或存在环境风险或价格昂贵，仅GLDA生物可降解且重金属鳌合能力强，经GLDA淋洗后的土壤，需搁置28d后再资源化利用；表面活性剂重金属去除效果一般，通常作为淋洗助剂效果更好。笔者认为，加强修复不同类型复合重金属污染土壤的复配淋洗剂研究，淋洗剂复配应考察去除率、环境友好、经济可行三者综合最优，残留淋洗剂及淋洗剂降解后产物对环境影响，是未来的研究重点。     

新书快讯

本书回顾并综述了国际上和我国近百年来大气科学和全球气候变化各个分支领域的研究进展及当前的研究现状；分析了大气科学和全球气候变化各个分支领域的发展动向、特征及今后的发展趋势、需要重点发展的研究领域及关键的科学问题。本书还就当前急需发展的计算和观测平台，以及人才方面应采取的重大措施做了分析，以促使我国从气象大国走向气象强国。     

应对气候变化法的立法探究

为了实现碳排放达峰目标和碳中和愿景,明确应对气候变化的法律地位、工作目标和法律要求,规定部门职责及温室气体排放权的法律属性与交易机制,分解工作目标并开展评价考核,彰显国家应对气候的法治决心,亟须制定综合性基础法律——应对气候变化法。该法的制定已具备充足的研究起草基础和下位法支撑,建议尽快纳入全国人大常委会立法计划,并启动《环境保护法》等相关法律的修改。本文建议,将低碳发展和碳排放达峰、碳中和等纳入立法目的,设立总则、规划与标准、气候变化减缓、气候变化适应、管理和监督、国际合作、法律责任、附则八章,合理设立规范重点。健全统一监管与部门分工负责的体制和基金筹集、市场交易、社会共治等机制,全面构建国内应对气候变化管理制度体系,部署国际协商与合作措施,设置地方政府工作目标责任,对违法行为规定罚则。     

应对气候变化问题的法律调整机制

气候变化的不确定性决定对于其带来的不良环境影响也不能做出确切的预测。《联合国气候变化框架公约》、《京都议定书》及《关于消耗臭氧层物质的蒙特利尔议定书》的缔结和生效为各国一致行动提供了国际法上的依据。应当加强气候变化的科学研究，制定实施有效的政策法律措施，同时施加我国的大国影响，推动气候变化问题的国际解决进程。     

Projecting Large-Scale Area Changes in Land Use and Land Cover for Terrestrial Carbon Analyses

One of the largest changes in US forest type areas over the last half-century has involved pine types in the South. The area of planted pine has increased more than 10-fold since 1950, mostly on private lands. Private landowners have responded to market incentives and government programs, including subsidized afforestation on marginal agricultural land. Timber harvest is a crucial disturbance affecting planted pine area, as other forest types are converted to planted pine after harvest. Conversely, however, many harvested pine plantations revert to other forest types, mainly due to passive regeneration behavior on nonindustrial private timberlands. We model land use and land cover changes as a basis for projecting future changes in planted pine area, to aid policy analysts concerned with mitigation activities for global climate change. Projections are prepared in two stages. Projected land use changes include deforestation due to pressures to develop rural land as the human population expands, which is a larger area than that converted from other rural lands (e.g., agriculture) to forestry. In the second stage, transitions among forest types are projected on land allocated to forestry. We consider reforestation, influences of timber harvest, and natural succession and disturbance processes. Baseline projections indicate a net increase of about 5.6 million ha in planted pine area in the South over the next 50 years, with a notable increase in sequestered carbon. Additional opportunities to expand pine plantation area warrant study of landowner behavior to aid in designing more effective incentives for inducing land use and land cover changes to help mitigate climate change and attain other goals.     

Managing United States Public Lands in Response to Climate Change: A View From the Ground Up

Federal land managers are faced with the task of balancing multiple uses and goals when making decisions about land use and the activities that occur on public lands. Though climate change is now well recognized by federal agencies and their local land and resource managers, it is not yet clear how issues related to climate change will be incorporated into on-the-ground decision making within the framework of multiple use objectives. We conducted a case study of a federal land management agency field office, the San Juan Public Lands Center in Durango, CO, U.S.A., to understand from their perspective how decisions are currently made, and how climate change and carbon management are being factored into decision making. We evaluated three major management sectors in which climate change or carbon management may intersect other use goals: forests, biofuels, and grazing. While land managers are aware of climate change and eager to understand more about how it might affect land resources, the incorporation of climate change considerations into everyday decision making is currently quite limited. Climate change is therefore on the radar screen, but remains a lower priority than other issues. To assist the office in making decisions that are based on sound scientific information, further research is needed into how management activities influence carbon storage and resilience of the landscape under climate change.     

Effects of Climate and Land Cover on Hydrology in the Southeastern U.S.: Potential Impacts on Watershed Planning

The hydrologic response to statistically downscaled general circulation model simulations of daily surface climate and land cover through 2099 was assessed for the Apalachicola‐Chattahoochee‐Flint River Basin located in the southeastern United States. Projections of climate, urbanization, vegetation, and surface‐depression storage capacity were used as inputs to the Precipitation‐Runoff Modeling System to simulate projected impacts on hydrologic response. Surface runoff substantially increased when land cover change was applied. However, once the surface depression storage was added to mitigate the land cover change and increases of surface runoff (due to urbanization), the groundwater flow component then increased. For hydrologic studies that include projections of land cover change (urbanization in particular), any analysis of runoff beyond the change in total runoff should include effects of stormwater management practices as these features affect flow timing and magnitude and may be useful in mitigating land cover change impacts on streamflow. Potential changes in water availability and how biota may respond to changes in flow regime in response to climate and land cover change may prove challenging for managers attempting to balance the needs of future development and the environment. However, these models are still useful for assessing the relative impacts of climate and land cover change and for evaluating tradeoffs when managing to mitigate different stressors.     

Adapting to changing climate risk by local government in New Zealand: institutional practice barriers and enablers

Adaptation to climate change has been reviewed in several developed nations, but in none where consideration of the effects of climate change is required by statute and devolved to local government. We examine the role of institutional arrangements, the players operating under them, the barriers and enablers for adaptation decision-making in the developed nation of New Zealand. We examine how the roles and responsibilities between national, regional and local governments influence the ability of local government to deliver long-term flexible responses to changing climate risk. We found that the disciplinary practices of law, engineering and planning, within legal frameworks, result in the use of static mechanisms which create inflexible responses to changing risk. Several enablers are identified that could create greater integration between the different scales of government, including better use of national policy instruments, shared professional experience, standardised information collection and risk assessment methods that address uncertainties. The framing of climate risk as dynamic and changing that differentiates activities over their lifetime, development of mechanisms to fund transitions towards transformational change, are identified as necessary conditions for delivering flexible responses over time.     

Impact of Changing Climate and Land Cover on Flood Magnitudes in the Delaware River Basin,USA

Changing climate and land cover are expected to impact flood hydrology in the Delaware River Basin over the 21st Century. HEC‐HMS models (U.S. Army Corps of Engineers Hydrologic Engineering Center‐Hydrologic Modeling System) were developed for five case study watersheds selected to represent a range of scale, soil types, climate, and land cover. Model results indicate that climate change alone could affect peak flood discharges by ?6% to +58% a wide range that reflects regional variation in projected rainfall and snowmelt and local watershed conditions. Land cover changes could increase peak flood discharges up to 10% in four of the five watersheds. In those watersheds, the combination of climate and land cover change increase modeled peak flood discharges by up to 66% and runoff volumes by up to 44%. Precipitation projections are a key source of uncertainty, but there is a high likelihood of greater precipitation falling on a more urbanized landscape that produces larger floods. The influence of climate and land cover changes on flood hydrology for the modeled watersheds varies according to future time period, climate scenario, watershed land cover and soil conditions, and flood frequency. The impacts of climate change alone are typically greater than land cover change but there is substantial geographic variation, with urbanization the greater influence on some small, developing watersheds.     

Hydrological Responses to Climate and Land‐Use Changes along the North American East Coast: A 110‐Year Historical Reconstruction

The North American east coast (NAEC) region experienced significant climate and land‐use changes in the past century. To explore how these changes have affected land water cycling, the Dynamic Land Ecosystem Model (DLEM 2.0) was used to investigate the spatial and temporal variability of runoff and river discharge during 1901‐2010 in the study area. Annual runoff over the NAEC was 420 ± 61 mm/yr (average ± standard deviation). Runoff increased in parts of the northern NAEC but decreased in some areas of the southern NAEC. Annual freshwater discharge from the study area was 378 ± 61 km³/yr (average ± standard deviation). Factorial simulation experiments suggested that climate change and variability explained 97.5% of the interannual variability of runoff and also resulted in the opposite changes in runoff in northern and southern regions of the NAEC. Land‐use change reduced runoff by 5‐22 mm/yr from 1931 to 2010, but the impacts were divergent over the Piedmont region and Coastal Plain areas of the southern NAEC. Land‐use change impacts were more significant at local and watershed spatial scales rather than at regional scales. Different responses of runoff to changing climate and land‐use should be noted in future water resource management. Hydrological impacts of afforestation and deforestation as well as urbanization should also be noted by land‐use policy makers.     

Downscaling climate change scenarios in an urban land use change model

The objective of this paper is to describe the process through which climate change scenarios were downscaled in an urban land use model and the results of this experimentation. The land use models (Urban Growth Model [UGM] and the Land Cover Deltatron Model [LCDM]) utilized in the project are part of the SLEUTH program which uses a probabilistic cellular automata protocol. The land use change scenario experiments were developed for the 31-county New York Metropolitan Region (NYMR) of the US Mid-Atlantic Region. The Intergovernmental Panel on Climate Change (IPCC), regional greenhouse gas (GHG) emissions scenarios (Special Report on Emissions Scenarios (SRES) A2 and B2 scenarios) were used to define the narrative scenario conditions of future land use change. The specific research objectives of the land use modeling work involving the SLEUTH program were threefold: (1) Define the projected conversion probabilities and the amount of rural-to-urban land use change for the NYMR as derived by the UGM and LCDM for the years 2020 and 2050, as defined by the pattern of growth for the years 1960-1990; (2) Down-scale the IPCC SRES A2 and B2 scenarios as a narrative that could be translated into alternative growth projections; and, (3) Create two alternative future growth scenarios: A2 scenario which will be associated with more rapid land conversion than found in initial projections, and a B2 scenario which will be associated with a slower level of land conversion. The results of the modeling experiments successfully illustrate the spectrum of possible land use/land cover change scenarios for the years 2020 and 2050. The application of these results into the broader scale climate and health impact study is discussed, as is the general role of land use/land cover change models in climate change studies and associated environmental management strategies.     

New York City Environmental Justice Alliance Waterfront Justice Project

This paper reviews key challenges and opportunities addressed by the New York City Environmental Justice Alliance's (NYC-EJA) Waterfront Justice Project, a citywide campaign to promote climate resilience and sustainability in urban industrial waterfront communities of New York City. NYC-EJA is a non-profit membership-driven network linking grassroots organisations from low-income neighbourhoods and communities of colour in their struggle for environmental justice. The Waterfront Justice Project is documenting community vulnerability in the context of climate change impacts, sources of industrial pollution, and demographic and socio-economic trends. This campaign is enabling community-based organisations, environmental justice communities, city planners, local and state government agencies, local business-owners, and other stakeholders to work in partnership to achieve community resilience while advocating for local jobs and promoting best practices in pollution prevention. New York City's waterfront policies ease the siting and clustering of public infrastructure, water pollution control plants, waste transfer stations, energy facilities, and heavy manufacturing uses in six areas designated as Significant Maritime and Industrial Areas (SMIAs). The SMIAs are located in environmental justice communities, largely low-income communities and communities of colour, in the South Bronx, Brooklyn, Queens, and Staten Island. New York City's local waterfront land use and zoning policies create cumulative risk exposure not only to residents and workers in the host waterfront communities, but also, in the event of storm surge or sea-level rise, to neighbouring, upland communities.     

Australian local government action on climate change adaptation: some critical reflections to assist decision-making

The primary objective of this paper is to discuss the limitations of risk management as a strategy for Australian local government climate change adaptation and explore the advantages of complementary approaches, including a social-ecological resilience framework, adaptive and transition management, and vulnerability assessment. Some federal and local government initiatives addressing the limitations of risk-based approaches are introduced. We argue that conventional risk-based approaches to adaptation, largely focused on hazard identification and quantitative modelling, will be inadequate on their own for dealing with the challenges of climate change. We suggest that responses to climate change adaptation should move beyond conventional risk-based strategies to more realistically account for complex and dynamically evolving social-ecological systems.     

Examining municipal response to a provincial climate action planning mandate in British Columbia,Canada

The engagement of UK local authorities is vital if national government is to meet its climate change commitments. However, with no mandatory targets at local government level, other drivers must explain engagement. Using a Geographic Information System, this study compares the spatial distribution of action on climate change based on past actions and stated intentions to a suite of relevant independent variables. The Action Index created is among the first to quantify climate change engagement beyond a simple binary measure and provides a useful comparative study to recent work in the USA. The Index enables investigation of both mitigation and adaptation, which show different trends in relation to some variables. The study shows that action is strongest where the voting habits of the local population suggest environmental concern and where neighbouring local authorities are also engaging in action on climate change. Physical vulnerability to the effects of climate change is a motivator for action only where the dangers are obvious. Action is less likely where other resource-intensive issues such as crime and housing exist within a local authority area.