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进入21世纪以来,美国已逐步意识到其处在一个关键时期,很多关键的科学和环境挑战业已出现,全球气候变化、海平面上升、极端天气增多、渔业崩溃以及栖息地的不断减少,这些都将严重影响美国的经济和生活方式。 相似文献
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本文的研究重点是热带城市气候的健康问题。由于现在或将来大气成分的变化,可能会引起全球变暖,从而导致气候的变化。世界卫生组织(WHO)认为,气候变化对健康的影响更多的是间接影响(例如,强制性移民、环境避难所及变化着的疾病传播媒介栖息地),而不是直接影响(例如,皮肤癌、白内障、心脏病及光化学雾引起的死亡),这种看法增加了气候变化对健康影响预报的不准确性。 相似文献
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郑国光 《气候变化研究进展》2010,6(2):79-82
综合分析了哥本哈根联合国气候变化大会的主要成果,对近期国际气候变化谈判的焦点问题进行了展望,还分析了我国应对气候变化面临的新形势和新任务。提出我国应进一步加强应对气候变化工作,把应对气候变化工作纳入法制化轨道,大力研发和推广气候友好技术,加强薄弱领域基础建设,提高适应气候变化的综合能力,积极探索符合我国国情的应对气候变化市场体制和机制,加强气候变化的科学研究,提高我国应对气候变化的科技软实力,增强全社会应对气候变化的意识。 相似文献
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在对国际气候变化适应行动进行回顾和展望的基础上,介绍了以《联合国气候变化框架公约》为主的国际气候变化适应政策的发展轨迹和趋势,分析了欧盟主要国家、澳大利亚、美国、加拿大、日本、俄罗斯和印度等国所采取的气候变化适应战略,总结出国际气候变化适应行动选择主要集中在极端气候事件与自然灾害、安全的淡水供应、基础设施建设、粮食安全,以及应对气候变化的协调机制等方面。 相似文献
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《气候变化研究进展》2014,(6)
<正>2014年11月5日,中国社会科学院-中国气象局气候变化经济学模拟联合实验室发布了第6本气候变化绿皮书——《应对气候变化报告2014:科学认知与政治争锋》。绿皮书由长期从事气候变化科学评估、应对气候变化经济政策分析以及直接参与国际气候谈判的资深专家撰稿,全面介绍华沙会议以来全球应对气候变化的最新进展, 相似文献
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IPCC第一工作组第四次评估报告的基本结论 总被引:1,自引:0,他引:1
政府间气候变化专门委员会(IPCC)第一工作组第四次评估报告阐述了气候变化的人为和自然驱动因子、观测到的气候变化、气候变化的认知和归因以及预估的未来气候变化等方面的最新科学进展,这些最新进展主要是基于大量新的和更全面的数据、对数据更复杂的分析、对各种过程更进一步的认识、模式对这些过程模拟的改进以及对不确定性范围更广泛的分析得到的。 相似文献
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基于对企业管理人员进行气候变化意识的问卷调查,对被调查者关于气候变化的认知指数、行为指数和意识指数3个指标进行评价,对被调查者的背景对其气候变化意识的影响作出分析。分析结果表明,产业类型、企业类型、企业规模和工作部门对被调查者认知指数的影响显著,企业规模对被调查者行为指数的影响显著,年龄、学历、企业类型、企业规模和工作部门对被调查者意识指数的影响显著。26~35岁年龄段的企业管理人员的气候变化意识水平高于其他年龄段,研究生及以上学历的企业管理人员的气候变化意识水平要高于本科及以下的企业管理人员,国有企业的管理人员的气候变化意识水平要高于私营企业的管理人员,企业规模越大,其管理人员的气候变化意识水平越高,各部门管理人员中技术类管理人员的气候变化意识水平最高。 相似文献
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Christopher R. Pyke 《Climatic change》2005,68(1-2):199-218
Combinations of habitat loss and climate change can alter the distribution of environmental conditions available to organisms. The magnitude and direction of these changes may have important implications for ecological processes and species persistence. This study explored the potential impacts of projected changes in climate and land-use for five fairy shrimp species (Crustacea: Anostraca) endemic to vernal pools in the Central Valley ecoregion of California, U.S.A. Scenarios describing habitat extent and climate were developed for 2040 and 2100 and compared to a 1990s baseline. Hydrologic conditions in vernal pools were found to be sensitive to projected climate changes, and, in the absence of habitat loss, warmer temperatures and greater winter precipitation would drive vernal pools toward longer, more frequent periods of inundation. However, existing biological reserves for three of the five species are biased toward drier areas and if unprotected habitat were lost, the net change in hydrologic conditions would be reversed with remaining habitat providing shorter, less frequent inundations. Species with unbiased representation in reserves do not show this reversal, and they have predictable shifts in hydrologic conditions. These results demonstrate the importance of biologically and climatically representative reserve systems under climate change and habitat loss. 相似文献
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M. A. Esteve-Selma J. Martínez-Fernández I. Hernández-García J. P. Montávez J. J. López-Hernández J. F. Calvo 《Climatic change》2012,113(3-4):663-678
South-eastern Spain is a key area for assessing the effects of climate change on biodiversity since it presents an ecotone between the Mediterranean biome and the subtropical shrublands of arid lands. The forests of Tetraclinis articulata constitutes an especially relevant case. A species distribution model has been developed, regionalised climate change scenarios for South-eastern Spain were generated and expected changes in the suitability area of this species were estimated under B2 and A2 SRES scenarios for the time slice 2020–2050. Moreover, land use in the present and future potential habitat has been analysed. The high sensitivity of T. articulata is expressed not only as effects of climate change in the near future when compared to the present-day situation but also in the remarkable differences under scenarios B2 and A2. Under scenario B2 the suitable area for T. articulata would expand six-fold whereas under A2 the potential habitat would disappear from its present-day distribution and would move to a small area in the interior mountains. Under scenario B2 the future potential habitat in the coastal location would include enough area of shrublands, the main effective habitat of the species. Moreover, the present and future potential habitat partially overlaps, which facilitates the species migration. On the contrary, in the interior potential habitat the land use is less favourable for the effective habitat, the actual and future potential habitat do not overlap and the low dispersal capabilities of the species prevents natural migration to the interior to be expected. 相似文献
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Climate change in California is altering habitat conditions for many species and exacerbating stress from other factors such
as alien invasive species, pollution, and habitat fragmentation. However, the current legal and planning framework for species
protection does not explicitly take climate change into account. The regulatory framework is primarily reactive, kicking in
only after species’ health is gravely threatened. Neither federal nor state regulations require forward-looking, climate-sensitive
species or ecosystem protection plans. Habitat planning is poorly funded and often piecemeal. In this context, the wrong lands
may be protected, with development allowed to occur in areas that would be most beneficial for species conservation in the
future. A more forward-looking approach to habitat conservation is needed, one based on a statewide strategy to identify and
protect critical habitat areas, including corridors to enable species migration. The approach would also require development
of assessment indicators and assistance strategies not dependent on current habitat structure, and a governance structure
to implement regular, periodic updates of management plans in relation to agreed-upon performance indicators. Such a strategy
should integrate habitat conservation planning with other state and regional plans and objectives, such as for transportation
infrastructure, urban development, and mitigation of climate change. 相似文献
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Ecosystem changes in floodplains could be a major issue during the twenty-first century as designated habitat areas are affected by climate change and floodplain management options. As part of the RegIS project, a Regional Impact Simulator has been developed to investigate these potential changes. This paper presents the methodologies and results of biodiversity metamodels used within the Regional Impact Simulator for two regions of the UK: East Anglia and North West England. Potential impacts and adaptations to future climate and socio-economic scenarios are analysed for three habitat types in floodplains (saltmarsh, coastal grazing marsh and fluvial grazing marsh) and selected species. An important finding is that management choices, which can be linked to socio-economic futures have a greater potential impact on habitat viability than climate change. The choices society makes will therefore be key to protection and conservation of biodiversity. The analyses also show that coastal grazing marsh is the most vulnerable habitat to sea-level rise, although there is a scope for substituting losses with fluvial grazing marsh. These results indicate that these methods provide a useful approach for assessing potential biodiversity changes at the regional scale, including the effect of different policies. 相似文献
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Joshua S. Halofsky Jessica E. Halofsky Miles A. Hemstrom Anita T. Morzillo Xiaoping Zhou Daniel C. Donato 《Climatic change》2017,142(1-2):83-95
While ecosystem services and climate change are often examined independently, quantitative assessments integrating these fields are needed to inform future land management decisions. Using climate-informed state-and-transition simulations, we examined projected trends and tradeoffs for a suite of ecosystem services under four climate change scenarios and two management scenarios (active management emphasizing fuel treatments and no management other than fire suppression) in a fire-prone landscape of dry and moist mixed-conifer forests in central Oregon, USA. Focal ecosystem services included fire potential (regulating service), timber volume (provisioning service), and potential wildlife habitat (supporting service). Projections without climate change suggested active management in dry mixed-conifer forests would create more open forest structures, reduce crown fire potential, and maintain timber stocks, while in moist mixed-conifer forests, active management would reduce crown fire potential but at the expense of timber stocks. When climate change was considered, however, trends in most ecosystem services changed substantially, with large increases in wildfire area predominating broad-scale trends in outputs, regardless of management approach (e.g., strong declines in timber stocks and habitat for closed-forest wildlife species). Active management still had an influence under a changing climate, but as a moderator of the strong climate-driven trends rather than being a principal driver of ecosystem service outputs. These results suggest projections of future ecosystem services that do not consider climate change may result in unrealistic expectations of benefits. 相似文献
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A shift in climatic conditions may directly modify critical organismal traits (such as reproductive output and offspring phenotypes), and experimental studies to document such direct effects thus may clarify the impacts of climate change on the species involved. The endangered Blue Mountains Water Skink (Eulamprus leuraensis) exhibits several traits predicted to imperil it under climate change: ectothermy, low reproductive output, specialisation to a restricted habitat type, montane endemicity, and a small geographic range. Congeneric species exhibit temperature-dependent sex determination, increasing potential sensitivity to climate change. We maintained wild-caught female lizards throughout pregnancy under thermal conditions simulating a shift in basking-time availability (3 vs 7 h/day) as might occur under climate change. Females with longer basking opportunities per day gave birth 2 weeks earlier, to slightly smaller offspring, that grew much faster in the first few weeks of life. Importantly, offspring sex ratios were not affected by maternal thermal regimes. Hence, some traits (e.g., offspring size, growth rates, dates of birth) are sensitive to ambient thermal conditions whereas other traits (e.g., offspring sex ratio and sprint speed) are not. On balance, the greatest threat to population persistence for E. leuraensis under climate change is likely to involve indirect effects mediated via habitat degradation (especially, drying-out of the hanging swamps) rather than direct thermal effects on lizard reproductive output or offspring phenotypes. 相似文献
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Benjamin L. Preston 《Climatic change》2006,76(1-2):91-119
Summary A probabilistic risk assessment was conducted for the effects of future climate change on U.S. cold-water habitat. Damage
functions for the loss of current cold-water fish habitat in the United States and the Rocky Mountain region were integrated
with probability distributions for U.S. June/July/August (JJA) temperature change using Monte Carlo techniques. Damage functions
indicated temperature thresholds for incipient losses (≥5%) of cold-water habitat in the United States and the Rocky Mountains
of 0.6 and 0.4 ∘C, respectively. Median impacts associated with different temperature distributions suggested habitat loss in 2025, 2050,
and 2100 of approximately 10, 20, and 30%, respectively, for the United States and 20, 35, and 50%, respectively, in the Rocky
Mountains. However, 2100 losses in excess of 60% and 90% were possible for the United States and the Rocky Mountains, respectively,
albeit at low probabilities. The implementation of constraints on greenhouse gas emissions conforming to the WRE750/550/350
stabilization scenarios had little effect on reducing habitat loss out to 2050, but median effects in 2100 were reduced by
up to 20, 30, and 60%, respectively. Increased focus on probabilistic risk assessment may be a profitable mechanism for enhancing
understanding and communication of climate change impacts and, subsequently, risk management. 相似文献
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James R. Hatten Thomas R. Batt Patrick J. Connolly Alec G. Maule 《Climatic change》2014,124(1-2):427-439
We evaluated the potential effects of two climate change scenarios on salmonid habitats in the Yakima River by linking the outputs from a watershed model, a river operations model, a two-dimensional (2D) hydrodynamic model, and a geographic information system (GIS). The watershed model produced a discharge time series (hydrograph) in two study reaches under three climate scenarios: a baseline (1981–2005), a 1-°C increase in mean air temperature (plus one scenario), and a 2-°C increase (plus two scenario). A river operations model modified the discharge time series with Yakima River operational rules, a 2D model provided spatially explicit depth and velocity grids for two floodplain reaches, while an expert panel provided habitat criteria for four life stages of coho and fall Chinook salmon. We generated discharge-habitat functions for each salmonid life stage (e.g., spawning, rearing) in main stem and side channels, and habitat time series for baseline, plus one (P1) and plus two (P2) scenarios. The spatial and temporal patterns in salmonid habitats differed by reach, life stage, and climate scenario. Seventy-five percent of the 28 discharge-habitat responses exhibited a decrease in habitat quantity, with the P2 scenario producing the largest changes, followed by P1. Fry and spring/summer rearing habitats were the most sensitive to warming and flow modification for both species. Side channels generally produced more habitat than main stem and were more responsive to flow changes, demonstrating the importance of lateral connectivity in the floodplain. A discharge-habitat sensitivity analysis revealed that proactive management of regulated surface waters (i.e., increasing or decreasing flows) might lessen the impacts of climate change on salmonid habitats. 相似文献
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A deterministic heat transport model was developed to calculate stream water temperatures downstream of reservoir outlets (tailwaters) and groundwater sources. The model calculates heat exchange between the atmosphere, the water and the sediments and is driven by climate and stream hydrologic parameters. Past and projected climate conditions were used as input to the stream water temperature model. To produce a projected future weather scenario, output from the Columbia University Goddard Institute for Space Studies (GISS) global circulation model (GCM) for a doubling of atmospheric CO2 were used to adjust past (1955–1979) weather parameters. Stream reach lengths, within which water temperatures are suitable for survival or good growth of 28 fish species, were determined for four selected streams. Several alternative upstream inflow conditions were chosen: Discharges from surface (epilimnion) and bottom (hypolimnion) outlets of reservoirs, and two groundwater inflow scenarios. By applying water temperature criteria for fish survival and good growth (Stefanet al., 1993) to simulated stream temperatures, it was possible to estimate stream lengths with suitable habitat. When simulated suitable habitat was compared to actual fish observations, good agreement was found. For projected climate change, the simulations showed how much of the available stream habitat would be lost. In the examples presented the effect of cold hypolimnetic water release from a reservoir or groundwater discharges is felt as far as 48 km (30 miles) downstream from its source, especially in smaller shaded streams. The impact of climate change on stream temperatures below dams is more pronounced when the water release is from the epilimnion (reservoir surface) rather than the hypolimnion (deep water). Examples used for this study show elimination of coldwater habitat for rainbow trout when the upstream release is from the surface of a reservoir, but only reductions of coldwater habitat when the upstream release is from a reservoir hypolimnion. 相似文献
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The Nooksack Indian Tribe (Tribe) inhabits the area around Deming, Washington, in the northwest corner of the state. The Tribe is dependent on various species of Pacific salmonids that inhabit the Nooksack River for ceremonial, commercial, and subsistence purposes. Of particular importance to the Tribe are spring Chinook salmon. Since European arrival, the numbers of fish that return to spawn have greatly diminished because of substantial loss of habitat primarily due to human-caused alteration of the watershed. Although direct counts are not available, it is estimated that native salmonid runs are less than 8 % of the runs in the late 1800’s. In addition, climate change has caused and will continue to cause an increase in winter flows, earlier snowmelt, decrease in summer baseflows, and an increase in water temperatures that exceed the tolerance levels, and in some cases lethal levels, of several Pacific salmonid species. The headwaters of the Nooksack River originate from glaciers on Mount Baker that have experienced significant changes over the last century due to climate change. Melt from the glaciers is a major source of runoff during the low-flow critical summer season, and climate change will have a direct effect on the magnitude and timing of stream flow in the Nooksack River. Understanding these changes is necessary to protect the Pacific salmonid species from the harmful effects of climate change. All nine salmonid species that inhabit the Nooksack River will be adversely affected by reduced summer flows and increased temperatures. The most important task ahead is the planning for, and implementation of, habitat restoration prior to climate change becoming more threatening to the survival of these important fish species. The Tribe has been collaboratively working with government agencies and scientists on the effects of climate change on the hydrology of the Nooksack River. The extinction of salmonids from the Nooksack River is unacceptable to the Tribe since it is dependent on these species and the Tribe is place-based and cannot relocate to areas where salmon will survive. 相似文献