未来气候变化对黄河流域水文过程的影响

使用NASA/NCAR有限区域大气环流模型FvGCM结果驱动高分辨率区域气候模式RegCM3 (20 km),进行1961～1990年当代气候模拟(控制试验)和2071～2100年IPCC A2排放情景下未来气候模拟(A2情景模拟试验)。将RegCM3径流模拟结果同大尺度汇流模型LRM [分辨率0.25°(纬度)×0.25°(经度)]相连接,模拟预估未来气候变化对我国黄河流域水文过程的影响。结果表明:相对于当代气候,未来黄河流域呈现气温升高、降水增加(夏季7～8月降水减少)和蒸发增大的趋势,且空间分布极不均匀,造成河川径流在5～10月减少,加剧流域夏季的水资源短缺;未来气温升高使得融雪径流增加,可能导致更早和更大的春季径流,使径流过程发生季节性迁移,引起黄河流域水资源年内分配发生变化。     

Urban Water Management vs. Climate Change: Impacts on Cold Region Waste Water Inflows

Failure to account for non-climatic changes to water systems, such as design and operation, within climate change impact assessments leads to misconceptions because these activities buffer the human built enviroment from bio-physical impacts. Urban drainage in cold regions, which is dominated by snowmelt, is especially vulnerable to climate change and is investigated in this paper within the context of future rehabilitation of the sewer network. The objectives are to illustrate the relative response of urban drainage to changes in both the pipe network and climate and demonstrate the use of response surfaces for climate change studies. An incremental climate scenario approach is used to generate two sensitivity analyses for waste water inflows to the Lycksele waste water treatment plant in north-central Sweden. Air temperature and precipitation data (1984–1993) are altered incrementally between –5 and +15 °C and –10 and +40% respectively. These data are then used to drive a hydrological transformation model to obtain estimates of sewer infiltration from groundwater. The results are presented as winter and spring response surfaces – these are graphical representations of a response matrix where each point relates to a single model run. Climate scenario envelopes which summarise a series of GCM runs (ACACIA; Carter, 2002, pers. comm.) are overlaid to indicate the range of plausible waste water inflows. Estimates of natural multi-decadal variability are also included. The first sensitivity analysis assumes no change to the drainage system while the second simulates sewer renovation in which the system is fully separated and sewer infiltration is reduced. The main conclusions are that innovations in drainage network technology have a greater potential to alter waste water inflows than climate change and that, while the direction of climate change is fairly certain, there is great uncertainty surrounding magnitude of those changes and their impacts.     

Climate Change Impacts on Urban Flooding

This paper estimates changes in thepotential damage of flood events caused by increasesof CO₂ concentration in the atmosphere. It ispresented in two parts: 1. the modelling of floodfrequency and magnitude under global warming andassociated rainfall intensities and 2. the use ofgreenhouse flood data to assess changes in thevulnerability of flood prone urban areas, expressingthese in terms of direct losses.Three case studies were selected: theHawkesbury–Nepean corridor, the Queanbeyan and UpperParramatta Rivers. All three catchments are located insoutheastern Australia, near Sydney and Canberra.These were chosen because each had detailed buildingdata bases available and the localities are situatedon rivers that vary in catchment size andcharacteristics. All fall within a region that willexperience similar climate change under the availablegreenhouse scenarios. The GCMs' slab model scenariosof climate change in 2030 and 2070 will cause onlyminor changes to urban flood damage but the doubleCO₂ scenarios estimated using the StochasticWeather Generator technique will lead to significantincreases in building damage.For all the case studies, the hydrological modellingindicates that there will be increases in themagnitude and frequency of flood events under thedouble CO₂ conditions although these vary fromplace to place. However, the overall pattern of changeis that for the Upper Parramatta River the 1 in 100-year flood under currentconditions becomes the 1 in44-year event, the 1 in 35-year flood for theHawkesbury–Nepean and the 1 in 10 for Queanbeyan andCanberra. This indicates the importance of usingrainfall-runoff modelling in order to estimate changesin flood frequencies in catchments with differentphysical characteristics.     

全球气候变化对我国气候安全影响的思考

依据政府间气候变化专门委员会 (IPCC) 第5次评估报告以及国内相关科学研究成果,使用最新的观测资料凝练了对全球气候变化的有关认识;从极端天气气候事件和气候承载力角度,分析了气候变化给我国带来的气候风险。研究发现:1961—2015年我国平均高温日数增加了28.4%,暴雨日数增加了8.2%。21世纪以来,登陆我国热带气旋的强度明显增加。在全球气候变暖的背景下,我国气候承载力将发生明显变化,未来面临的气候风险将加大。因此,保障我国气候安全,需要科学认识气候,提高气候风险意识; 主动适应气候,提高应对极端事件能力;努力保护气候,减缓气候变化的影响。     

气候变化影响的最新认知

政府间气候变化专门委员会（IPCC）第二工作组于2007年4月6日正式发布了第四次评估报告,该报告客观、全面而审慎地评估了气候变化已有的和未来的可能影响。现有观测证据表明,人为增暖可能已对许多自然和生物系统产生了可辨别的影响,但由于适应以及非气候因子的作用,许多影响还难以辨别。21世纪中期,某些中纬度和热带干旱地区年平均河流径流量和可用水量会减少10%～30%;如果全球平均温度增幅超过1.5～2.5℃,目前所评估的20%～30%动植物物种可能面临灭绝的风险会增大;从全球角度看,局地平均温度增加1～3℃,预计粮食生产潜力会增加,但若超过这一范围,则会减少。兼顾适应和减缓的措施能够降低气候变化相关风险。     

Country-Specific Market Impacts of Climate Change

We develop a new climate-impact model, theGlobal Impact Model (GIM), which combines futurescenarios, detailed spatial simulations by generalcirculation models (GCMs), sectoral features,climate-response functions, and adaptation to generatecountry-specific impacts by market sector. Estimatesare made for three future scenarios, two GCMs, andtwo climate-response functions – a reduced-form modeland a cross-sectional model. Combining empiricallybased response functions, sectoral data by country,and careful climate forecasts gives analysts a morepowerful tool for estimating market impacts. GIMpredicts that country specific results vary, implyingthat research in this area is likely to bepolicy-relevant.     

气候变化影响与适应问题的谈判进展

 从《气候变化框架公约》（以下简称《公约》）第一次缔约方会议到目前为止,几乎历次会议都涉及气候变化影响与适应的谈判内容,但谈判进展甚微。通过综述《公约》谈判进程中与适应气候变化有关的主要决定,分析了适应气候变化影响与适应问题谈判的制约因素,最后提出了我国在气候变化影响与适应问题谈判中应持的立场。     

气候变化与人体健康

综述了气候变化与人类健康的关系,着重分析了气候变化对人体健康影响的主要方面与途径、适应气候变化的主要措施,提出了气候变化与人体健康关系研究中的科学问题及优先研究领域。并从国家层面上探讨了如何加强能力建设与制度建设等保障措施。     

新疆精河流域河川径流及对气候变化的响应

根据精河流域1957—2012年的气温、降水和径流量等资料,分析了精河流域近55 a来径流量的变化趋势和周期特征,研究了河川径流及对气候变化的响应关系,并建立基于多变量时间序列自回归CAR(Controlled Auto-regressive)径流预测模型。结果表明:(1)精河径流在年内分配不均,季节变化明显,夏季集中,枯水期长且枯季径流量小。6—9月为径流连续最大4个月,占全年径流量的74%。(2)从20世纪80年代开始,河川径流量增加,持续至90年代,在21世纪有减小的趋势,1981—2005年平均年径流总量比1957—1980年增加了3.24%。(3)精河流域年径流量序列在21 a和13 a左右的振荡周期最为明显,其次是32 a和9 a,而其中的21 a和13 a时间尺度上的振荡是全时域的。(4)建立了径流与降水和气温的CAR模型,发现拟合平均相对误差为6.54%,均方根误差为0.039。用CAR模型模拟河流年径流量误差在可接受范围内,可以利用该模型对精河流域年径流量进行预测。     

Learning to Adapt: Organisational Adaptation to Climate Change Impacts

Analysis of human adaptation to climate change should be based on realistic models of adaptive behaviour at the level of organisations and individuals. The paper sets out a framework for analysing adaptation to the direct and indirect impacts of climate change in business organisations with new evidence presented from empirical research into adaptation in nine case-study companies. It argues that adaptation to climate change has many similarities with processes of organisational learning. The paper suggests that business organisations face a number of obstacles in learning how to adapt to climate change impacts, especially in relation to the weakness and ambiguity of signals about climate change and the uncertainty about benefits flowing from adaptation measures. Organisations rarely adapt ‘autonomously’, since their adaptive behaviour is influenced by policy and market conditions, and draws on resources external to the organisation. The paper identifies four adaptation strategies that pattern organisational adaptive behaviour.     

Ecosystem Responses to Abrupt Climate Change: Teleconnections, Scale and the Hydrological Cycle

The occurrence of past and future abrupt climate change, such as could occur under thermohaline circulation (THC) weakening, is increasingly evident in the paleoclimate record and model experiments. We examine potential responses of ecosystem structure and function to abrupt climate change using temperature and precipitation patterns generated by HadCM3 in response to forced THC weakening. The large changes in potential ecosystem structure and function that occur are not focused in the North Atlantic region where temperature sensitivity to THC is highest but occur throughout the world in response to climate system teleconnections. Thus, THC weakening, which is often viewed as a European problem, has globally distributed ecosystem implications. Although temperature changes associated with THC weakening affect the extent of several high latitude biomes, the distribution of ecosystem change results primarily from changes in the hydrological cycle. Currently there remains large uncertainty in climate model projections of the hydrological cycle. Therefore, the predictions of the magnitude andlocation of ecosystem perturbations will also be characterized by large uncertainty, making impact assessment, and thus adaptation, more difficult. Finally, these results illustrate the importance of scale and disaggregation in assessing ecosystem responses. Small globally aggregated ecosystem responses to THC weakening, approximately five percent for NPP and biomass, mask large local and regional changes.     

The Impacts of Climate Change on the Autumn North Atlantic Wave Climate

Abstract

In this study, we investigate the impact of global warming induced by possible climate change on the autumn winds, the related storm climate, and the wave climate over the North Atlantic Ocean. These analyses are based on a third-generation wave model, WAVEWATCHIII? and dynamically downscaled winds, obtained from the Canadian Regional Climate Model driven by the third version of the Coupled Global Climate Model (T47) from the Canadian Centre for Climate Modelling and Analysis following the A1B climate change scenario of the Special Report on Emission Scenarios from the Intergovernmental Panel on Climate Change. Compared with the present wave climate, represented as 1970–1999, the significant wave heights in the northeast North Atlantic will increase, whereas in other areas, such as the mid-latitudes, they will decrease, with associated changes in winds in the future climate (2040–2069). An analysis of inverse wave ages is used to suggest that wind-driven wave regimes tend to occur more frequently in the northeast North Atlantic and decrease in the mid-latitudes in the climate change scenario. The dominant North Atlantic storm-track region is estimated to shift northward, especially over the northern Northeast Atlantic, where the frequency of occurrence of the most intense cyclones is estimated to increase. We suggest that changes in storm densities are related to changes in the upper level steering flow in the atmosphere, which are the precursor to changes in the winds and ocean waves.     

Impacts of Climate Change on the Global Forest Sector

The path and magnitude of future anthropogenic emissions of carbon dioxide will likely influence changes in climate that may impact the global forest sector. These responses in the global forest sector may have implications for international efforts to stabilize the atmospheric concentration of carbon dioxide. This study takes a step toward including the role of global forest sector in integrated assessments of the global carbon cycle by linking global models of climate dynamics, ecosystem processes and forest economics to assess the potential responses of the global forest sector to different levels of greenhouse gas emissions. We utilize three climate scenarios and two economic scenarios to represent a range of greenhouse gas emissions and economic behavior. At the end of the analysis period (2040), the potential responses in regional forest growing stock simulated by the global ecosystem model range from decreases and increases for the low emissions climate scenario to increases in all regions for the high emissions climate scenario. The changes in vegetation are used to adjust timber supply in the softwood and hardwood sectors of the economic model. In general, the global changes in welfare are positive, but small across all scenarios. At the regional level, the changes in welfare can be large and either negative or positive. Markets and trade in forest products play important roles in whether a region realizes any gains associated with climate change. In general, regions with the lowest wood fiber production cost are able to expand harvests. Trade in forest products leads to lower prices elsewhere. The low-cost regions expand market shares and force higher-cost regions to decrease their harvests. Trade produces different economic gains and losses across the globe even though, globally, economic welfare increases. The results of this study indicate that assumptions within alternative climate scenarios and about trade in forest products are important factors that strongly influence the effects of climate change on the global forest sector.     

Study on the Impacts of Climate Change on China's Agriculture

This paper measures the economic impacts of climate change on China's agriculture based on the Ricardian model. By using county-level cross-sectional data on agricultural net revenue, climate, and other economic and geographical data for 1275 agriculture dominated counties, we find that under most climate change scenarios both higher temperature and more precipitation would have an overall positive impact on China's agriculture. However, the impacts vary seasonally and regionally. Autumn effect is the most positive, but spring effect is the most negative. Applying the model to five climate scenarios in the year 2050 shows that the East, the Central part, the South, the northern part of the Northeast, and the Plateau would benefit from climate change, but the Southwest, the Northwest and the southern part of the Northeast may be negatively affected. In the North, most scenarios show that they may benefit from climate change. In summary, all of China would benefit from climate change in most scenarios.     

气候变化2007:气候变化影响、适应和脆弱性——IPCC第2工作组第4次评估报告主要结论介绍

阐述了政府间气候变化专门委员会(IPCC)第2工作组第四次评估中与决策相关的重要发现。本次评估体现了当前关于气候变化对自然、管理和人类系统的影响、这些系统的适应能力及脆弱性方面的科学认识。该评估基于此前IPCC的评估,并吸收了第3次评估以来的新认识。评估报告认为:从所有大陆和多数海洋得到的观测证据表明,许多自然系统正在受到区域气候变化,特别是温度升高的影响;人为增暖可能已对许多自然和生物系统产生可辨别的影响;气候变化对自然和人类环境所造成的其他影响清晰可辨。当前关于未来气候变化影响的认识,可以更详细地评估未来气候对各类系统和部门,以及对世界各大区域的影响,也可以对全球升温的影响进行估算,预估极端天气气候所带来的影响。必须采取更广泛的适应措施以应对气候变化所造成的影响,可持续发展能够降低对气候变化的脆弱性,兼顾适应和减缓的措施,能够减低气候变化相关风险。     

茂名市气候变化及其对农业的影响

利用茂名1971~2004年的气候资料,分析了其降水、气温的年、季变化特征,探讨了气候变化对极端天气气候事件、农业生产以及农业生态环境的影响。近30多年来,茂名的年降水以年际波动为主,线性变化趋势不明显,不同季节的降水量变化有升有降,可能是其原因所在。年气温在波动中上升的趋势十分明显,年气温每年上升0.03℃,春、夏、秋、冬季气温的普遍上升,导致了全年气温的明显上升。气候变化导致了台风连续登陆茂名,高温天气连连刷新纪录等极端天气气候事件频繁出现,严重影响茂名水果生产及农业生态环境。     

气候变化对水工程的影响及应对措施

气候变化将使水利工程的服役环境发生较大改变,水工混凝土作为水利工程建设最主要的建筑材料之一,其对极端气候变化较为敏感与脆弱。本文以水库大坝、大型调水工程等水利工程为对象,系统总结了部分已观测到的低温冻害、寒潮和干旱等气候条件对水利工程影响的事实。结合未来气候变化趋势及其可能的影响,从改善水工材料性能的工程措施角度,分析了在水利工程设计、施工、运行阶段可采取的应对措施,并从规划修订、预案制订、监测预报等非工程措施角度,分析了在防洪安全、水资源安全等领域可采取的减缓适应对策,以提高水工程应对气候变化的能力。     

土地利用变化对气候影响的研究进展

为满足人类对食物、纤维、水和居住地的需求,全球土地利用格局发生了巨大的变化,IPCC 第四次评估报告（IPCC,2007）指出土地利用变化是人类影响气候的重要强迫之一。土地利用变化对气候的影响分为生物地球物理作用和生物地球化学作用。分别对有关生物地球物理作用和生物地球化学作用的研究进展以及研究热点进行了综述;并从定量评估两者对气候影响的相对贡献以及两者共同效应的角度,回顾了辐射强迫计算和耦合模式数值模拟两种方法的研究进展,及其在森林恢复、人工造林以及碳封存等气候变化应对措施可行性评估中的应用。最后分析和展望了当前土地利用变化对气候影响相关研究中的不确定性以及未来发展方向。     

Hedonic Pricing of Climate Change Impacts to Households in Great Britain

This study investigates the amenity value of climate to British households. By using the hedonic price approach, the marginal willingness to pay for small changes in climate variables is derived. Various indices of temperature and precipitation are used including means, ranges, extremes and January and July averages. We specify one hedonic regression including information on house prices and wage data for 755 Posttowns and found the model containing January and July averages of temperature and precipitation most appropriate. The estimates suggest that British people would typically prefer higher temperatures in January. Increased precipitation in January is likely to reduce welfare. Changes in temperature and precipitation in July are not significant. Limited global warming, with a more pronounced effect of temperature increases compared to higher precipitation levels during winter months, might thus benefit British households.