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1.
农业气象灾害的监测预测是灾害评估和防控的基础和前提, 因此,农业气象灾害的监测预测研究长期以来一直是农业气象研究工作的重点领域。该文系统回顾了我国农业气象灾害的指标、监测技术和预测预警技术等方面的相关进展和成果,提出当前存在的主要问题:农业气象灾害的基础性研究仍然十分薄弱, 农业气象灾害指标对致灾因子的概括性尚不足, 农业气象灾害监测的精细化程度有待进一步提高, 临近预警技术缺乏, 气候变化背景下农业气象灾害的新规律揭示不够。该文同时指出未来应加强农业气象灾害综合指标的研究, 强化农业气象灾害的预测预报研究, 构建农业气象灾害实时预警技术体系, 构建农业气象灾害立体、动态监测体系, 关注气候变化背景下农业气象灾害风险变化评估研究, 加强气象或气候预测信息在农业气象灾害预测中的应用技术研究。 相似文献
2.
农业洪涝灾害是国内外灾害研究的重要分支领域。该文采用分类归纳总结已有研究成果并与观测事实相佐证的方法,从农业洪涝相关概念出发,系统阐述了中国农业洪涝灾害的研究进展,评述了气候变暖对中国农业洪涝灾害的影响。基于影响作物及发生时段,中国农业洪涝灾害可分为影响越冬作物的春涝、影响夏播夏收和夏季作物生长的夏涝及影响秋播秋收作物的秋涝。农业洪涝灾害的形成及强度,是天气气候、作物抗涝性、地形地貌、土壤结构及人类活动等多种因素综合作用的结果;气候变暖背景下,中国农业洪涝成灾率呈南方增强北部减缓的趋势,总体呈上升趋势;一方面与极端降水事件的变化有直接关系,另一方面受作物气候适宜性变化等的间接影响。农业洪涝灾害的致灾机理包括物理性破坏、生理性损伤及生态性危害。其影响包括对农业生产环境、作物生态生理和生长发育的影响及诱发病虫害等。气候变化背景下的农业洪涝综合性指标、基于灾变过程的综合风险评估及气候变暖对不同作物洪涝灾害的影响事实将是未来重点研究方向。 相似文献
3.
Do we need to include soil evolution module in models for prediction of future climate change? 总被引:1,自引:0,他引:1
Climate change induce increases in precipitation in Northern Europe that may in turn affect soil evolution by increasing the amounts of water flowing through soils. However, there is a general lack of consideration of the impact of climate change on soil evolution. We propose here to use agricultural soil drainage—that also increases the amount of water flowing through soils—as an analogy to climate change. We thus studied the impact of 16 years of agricultural drainage in one cropped plot of the most common type of soils of Northern Europe. To estimate the importance of the soil evolution induced by drainage, we compared it to the long term natural evolution of that soil. The recent increase in water fluxes by agricultural drainage (16 years) has resulted in an increase in the intensity and velocity of the natural pedological processes. The increased amount of water flowing thorough soils due to drainage is of same order of magnitude than that that would be induced by climate change in the next 50–100 years in northern Europe. Our results demonstrated thus that climate change will significantly affect soil evolution. This evolution induces losses of the finest particles involved in organic carbon sequestration and thus has a feedback effect on climate change. Therefore we consider that soil evolution in response to climate change has to be explicitly studied and included in models predicting global climate change. 相似文献
4.
气候变化对区域经济影响的投入-产出模型研究 总被引:4,自引:0,他引:4
利用经济学“投入-产出”分析方法的基本原理,结合气候变化对工业影响的统计模型、对 农业产量影响的计算机模拟系统,建立了气候变化对区域经济影响的投入-产出模型。研究 了当气候变化对工业、农业部门的生产和产品发生影响时,导致的对国民经济其他部门的拉 动需求量和各个部门间的投入-产出流量的变化,从而预测各个部门的国内生产总值和总产 出量,对2010,2020年的经济发展。综合分析 气候变化对各部门的影响,找出适应区域经济平衡发展的适应对策,为决策者 提供一些参考建议。 相似文献
5.
干旱是一种周期性的气候异常,主要受气候自然变率驱动,具有发展缓慢、持续时间长、影响范围广等特征。然而,气候变化使得干旱不仅有增加趋势,其特征也在发生变化。例如,发展迅速的干旱,也称骤旱,近年来频繁发生。此外,人类活动通过改变陆地水循环,直接或间接地影响干旱过程。在全球变化背景下,干旱机制研究由海-陆-气相互作用影响气象干旱的气候动力学研究扩展到包含干旱传递过程机理认识、考虑区域尺度人类活动影响,面向农业、水利、生态等行业的农业干旱和水文干旱研究,为认识干旱可预报性、发展预测方法带来了新的挑战。本文将针对多尺度干旱过程及预测,讨论相关的研究进展及未来发展方向。 相似文献
6.
Cynthia Rosenzweig Kenneth M. Strzepek David C. Major Ana Iglesias David N. Yates Alyssa McCluskey Daniel Hillel 《Global Environmental Change》2004,14(4):823
This integrated study examines the implications of changes in crop water demand and water availability for the reliability of irrigation, taking into account changes in competing municipal and industrial demands, and explores the effectiveness of adaptation options in maintaining reliability. It reports on methods of linking climate change scenarios with hydrologic, agricultural, and planning models to study water availability for agriculture under changing climate conditions, to estimate changes in ecosystem services, and to evaluate adaptation strategies for the water resources and agriculture sectors. The models are applied to major agricultural regions in Argentina, Brazil, China, Hungary, Romania, and the US, using projections of climate change, agricultural production, population, technology, and GDP growth.For most of the relatively water-rich areas studied, there appears to be sufficient water for agriculture given the climate change scenarios tested. Northeastern China suffers from the greatest lack of water availability for agriculture and ecosystem services both in the present and in the climate change projections. Projected runoff in the Danube Basin does not change substantially, although climate change causes shifts in environmental stresses within the region. Northern Argentina's occasional problems in water supply for agriculture under the current climate may be exacerbated and may require investments to relieve future tributary stress. In Southeastern Brazil, future water supply for agriculture appears to be plentiful. Water supply in most of the US Cornbelt is projected to increase in most climate change scenarios, but there is concern for tractability in the spring and water-logging in the summer.Adaptation tests imply that only the Brazil case study area can readily accommodate an expansion of irrigated land under climate change, while the other three areas would suffer decreases in system reliability if irrigation areas were to be expanded. Cultivars are available for agricultural adaptation to the projected changes, but their demand for water may be higher than currently adapted varieties. Thus, even in these relatively water-rich areas, changes in water demand due to climate change effects on agriculture and increased demand from urban growth will require timely improvements in crop cultivars, irrigation and drainage technology, and water management. 相似文献
7.
Climate change is likely to exacerbate the dry conditions already experienced in southern Africa. When rainfall does come, it is likely to be in bursts of greater intensity, leading to erosion and flood damage. However, these predictions have had very little influence on policy in southern African countries. Computable general equilibrium (CGE) model simulations for Namibia indicate that over 20 years, annual losses to the Namibian economy could be up to 5% of GDP, due to the impact that climate change will have on its natural resources alone. This will affect the poorest people the most, with resulting constraints on employment opportunities and declining wages, especially for unskilled labour in rural areas. Namibia must take steps to ensure that all its policies and activities are ‘climate proofed’ and that it has a strategy to deal with displaced farmers and farm workers. The need to mainstream climate change into policies and planning is clear, and it is the responsibility of industrialized nations, who have largely created the problem of climate change, to help Namibia and other vulnerable countries cope with climate change impacts and plan for a climate-constrained future. 相似文献
8.
Migration and climate change are two of the most important challenges the world currently faces. They are connected as climate change may stimulate or hinder migration. One of the sectors strongly affected by climate change is agriculture, which is the source of income for most of the world's poor. Climate change may affect agricultural productivity and hence migration because of its impact on average temperatures and rainfall and because it increases the frequency and intensity of weather shocks. In this paper we use data on 108 countries from 1960 to 2010 to analyze the relationship between weather variations, changes in agricultural productivity and international migration. We find that negative shocks to agricultural productivity caused by climate fluctuations significantly increase emigration from developing countries, an especially strong impact in poor countries but less so in middle income countries. These results are robust to the definitions of the poor country sample, and to several checks and alternative explanations suggested by the literature. Importantly, our results point to a causal interpretation of the agricultural channel to explain the climate change-migration nexus. 相似文献
9.
Emil Erjavec Tina Volk Miroslav Rednak Barbara Zagorc Ben Moljk 《Climate Policy》2013,13(8):1014-1030
This article analyses the interactions between agricultural policy measures in the EU and the factors affecting GHG emissions from agriculture on the one hand, and the adaptation of agriculture to climate change on the other. To this end, the article uses Slovenia as a case study, assessing the extent to which Slovenian agricultural policy is responding to the challenges of climate change. All agricultural policy measures related to the 2007–2013 programming period were analysed according to a new methodological approach that is based on a qualitative (expert evaluation) and a quantitative (budgetary transfers validation) assessment. A panel of experts reached consensus on the key factors through which individual measures affect climate change, in which direction and how significantly. Data on budgetary funds for each measure were used as weights to assess their relative importance. The results show that there are not many measures in (Slovenian) agricultural policy that are directly aimed at reducing GHG emissions from agriculture or at adaptation to climate change. Nevertheless, most affect climate change, and their impact is far from negligible. Current measures have both positive and negative impacts, but overall the positive impacts prevail. Measures that involve many beneficiaries and more budgetary funds had the strongest impact on aggregate assessments. In light of climate change, agricultural policy should pay more attention to measures that are aimed at raising the efficiency of animal production, as it is the principal source of GHG emissions from agriculture.Policy relevanceAgricultural policy must respond to climate challenges and climate change impact assessment must be included in the process of forming European agricultural policy. Agricultural policy measures that contribute to the reduction of emissions and adaptation, whilst acting in synergy with other environmental, economic and social goals, should be promoted. The approach used in this study combines qualitative and quantitative data, yielding an objective assessment of the climate impact of agricultural policy measures and providing policy makers with a tool for either ex ante or ex post evaluations of climate-relevant policy measures. 相似文献
10.
This study used a quadratic programming sector model to assess the integrated impacts of climate change on the agricultural economy of Egypt. Results from a dynamic global food trade model were used to update the Egyptian sector model and included socio-economic trends and world market prices of agricultural goods. In addition, the impacts of climate change from three bio-physical sectors – water resources, crop yields, and land resources – were used as inputs to the economic model. The climate change scenarios generally had minor impacts on aggregated economic welfare (sum of Consumer and Producer Surplus or CPS), with the largest reduction of approximately 6 percent. In some climate change scenarios, CPS slightly improved or remained unchanged. These scenarios generally benefited consumers more than producers, as world market conditions reduced the revenue generating capacity of Egyptian agricultural exporters but decreased the costs of imports. Despite increased water availability and only moderate yield declines, several climate change scenarios showed producers being negatively affected by climate change. The analysis supported the hypothesis that smaller food importing countries are at a greater risk to climate change, and impacts could have as much to do with changes in world markets as with changes in local and regional biophysical systems and shifts in the national agricultural economy. 相似文献
11.
全球气候变化背景下,极端天气事件和自然灾害频发,农业生产面临着巨大的气象灾害风险。新疆农区各类气象灾害呈现多发、频发的趋势,以合同中约定的天气指数作为触发值进行赔付的农业气象指数保险,是转移农业灾害风险的重要途径。分析农业气象指数保险的发展历程与研究进展,讨论其在新疆农业生产中的应用现状,提出新疆农业气象指数保险的研究重点及发展方向,以期为气象指数保险服务于农林业安全生产提供思路和参考。 相似文献
12.
东亚夏季风变化机理的模拟和未来变化的预估:成绩和问题、机遇和挑战 总被引:3,自引:1,他引:2
东亚夏季风对于我国东部气候具有重要影响,呈现出多种时间尺度的变化特征。在理解东亚夏季风过去和当前的变化机理、预测和预估其未来变化等方面,气候系统模式发挥着不可替代的作用。但是当前的气候模式在东亚夏季风的模拟上尚存在诸多不足,这使得其模拟结果存在不确定性,既制约了我们对过去和当前季风变化机理的准确理解,又降低了未来预测预估结果的可信度。关于造成季风模拟偏差的原因,既涉及模式本身的性能问题,又与模拟系统的构建、强迫资料的误差、乃至我们当前对季风变化规律自身的认知水平有关。本文以时间尺度为序,从气候态、日变化、年际变率、年代际变率、长期气候变化和未来预估等季风学界关注的热点问题角度,本着总结成绩、归纳问题、寻找机遇、面对挑战的目的,从七个方面系统总结了当前气候模式的水平,归纳了其主要偏差特征,讨论了影响模式性能的可能因素。内容涉及模式分辨率和地形效应、对流和云辐射效应的作用、与季风相关的热带海气相互作用关键过程、内部变率(太平洋年代际振荡)、自然变率(太阳辐照度变化和火山气溶胶强迫)和人为辐射强迫(人为温室气体和气溶胶排放)对季风变化的不同影响、热力和动力过程及气候敏感度对季风环流(副高)和降水预估不确定性的影响等。最后从优化参数、实现场地观测和过程模拟的协同、发展高分辨和对流解析模式等角度,讨论了提升东亚夏季风模拟能力的技术途径。 相似文献
13.
Although there is a strong policy interest in the impacts of climate change corresponding to different degrees of climate change, there is so far little consistent empirical evidence of the relationship between climate forcing and impact. This is because the vast majority of impact assessments use emissions-based scenarios with associated socio-economic assumptions, and it is not feasible to infer impacts at other temperature changes by interpolation. This paper presents an assessment of the global-scale impacts of climate change in 2050 corresponding to defined increases in global mean temperature, using spatially-explicit impacts models representing impacts in the water resources, river flooding, coastal, agriculture, ecosystem and built environment sectors. Pattern-scaling is used to construct climate scenarios associated with specific changes in global mean surface temperature, and a relationship between temperature and sea level used to construct sea level rise scenarios. Climate scenarios are constructed from 21 climate models to give an indication of the uncertainty between forcing and response. The analysis shows that there is considerable uncertainty in the impacts associated with a given increase in global mean temperature, due largely to uncertainty in the projected regional change in precipitation. This has important policy implications. There is evidence for some sectors of a non-linear relationship between global mean temperature change and impact, due to the changing relative importance of temperature and precipitation change. In the socio-economic sectors considered here, the relationships are reasonably consistent between socio-economic scenarios if impacts are expressed in proportional terms, but there can be large differences in absolute terms. There are a number of caveats with the approach, including the use of pattern-scaling to construct scenarios, the use of one impacts model per sector, and the sensitivity of the shape of the relationships between forcing and response to the definition of the impact indicator. 相似文献
14.
Lee Hannah Camila I. Donatti Celia A. Harvey Eric Alfaro Daniel Andres Rodriguez Claudia Bouroncle Edwin Castellanos Freddy Diaz Emily Fung Hugo G. Hidalgo Pablo Imbach Peter Läderach Jason P. Landrum Ana Lucía Solano 《Climatic change》2017,141(1):29-45
Climate change will have serious repercussions for agriculture, ecosystems, and farmer livelihoods in Central America. Smallholder farmers are particularly vulnerable due to their reliance on agriculture and ecosystem services for their livelihoods. There is an urgent need to develop national and local adaptation responses to reduce these impacts, yet evidence from historical climate change is fragmentary. Modeling efforts help bridge this gap. Here, we review the past decade of research on agricultural and ecological climate change impact models for Central America. The results of this review provide insights into the expected impacts of climate change and suggest policy actions that can help minimize these impacts. Modeling indicates future climate-driven changes, often declines, in suitability for Central American crops. Declines in suitability for coffee, a central crop in the regional economy, are noteworthy. Ecosystem models suggest that climate-driven changes are likely at low- and high-elevation montane forest transitions. Modeling of vulnerability suggests that smallholders in many parts of the region have one or more vulnerability factors that put them at risk. Initial adaptation policies can be guided by these existing modeling results. At the same time, improved modeling is being developed that will allow policy action specifically targeted to vulnerable groups, crops, and locations. We suggest that more robust modeling of ecological responses to climate change, improved representation of the region in climate models, and simulation of climate influences on crop yields and diseases (especially coffee leaf rust) are key priorities for future research. 相似文献
15.
The economic impacts of climate-change-induced adjustments on the performance of the Tanzanian economy are analysed, using a countrywide computable general equilibrium (CGE) model. The effect of overall climate change on agricultural productivity (modelled as reduced land productivity) is projected to be relatively limited until about 2030, thereafter becoming worse. The simulation results indicate that despite the projected reduction in agricultural productivity, the negative impacts can potentially be quite limited. This is because the timescales involved, as well as the low starting point of the economy, leave ample room for factor substitutability and increased overall productivity. This indicates that policies that give farmers the opportunity to invest in autonomous climate adaptation, as well as those that improve the overall performance of the economy, can be as important in reducing the impacts of climate change in the economy as direct government policies for adaptation. 相似文献
16.
近百年来,全球气候正经历着一次以变暖为主要特征的显著变化,全球气候与环境的重大变化对中国的气候与环境演变也产生了重大影响。来自气候、环境、海洋和经济社会科学等领域的百余位专家和学者对中国气候与环境的演变及其对自然生态系统和社会经济部门的影响进行了评估,在此基础上,提出了适应和减缓气候变化的对策。本文主要阐述在全球气候变化背景下中国气候与环境的演变,并对未来气候变化的趋势做出了预测。 相似文献
17.
近百年来,全球气候正经历着一次以变暖为主要特征的显著变化,全球气候与环境的重大变化对中国的气候与环境演变也产生了重大影响。来自气候、环境、海洋和经济社会科学等领域的百余位专家和学者对中国气候与环境的演变及其对自然生态系统和社会经济部门的影响进行了评估,在此基础上,提出了适应和减缓气候变化的对策。本文主要阐述在全球气候变化背景下中国气候与环境的演变,并对未来气候变化的趋势做出了预测。 相似文献
18.
John M. Antle Susan M. Capalbo Edward T. Elliott Keith H. Paustian 《Climatic change》2004,64(3):289-315
In this paper we develop economic measures of vulnerability to climate change with and without adaptation in agricultural production systems. We implement these measures using coupled, site-specific ecosystem and economic simulation models. This modeling approach has two key features needed to study the response of agricultural production systems to climate change: it represents adaptation as an endogenous, non-marginal economic response to climate change; and it provides the capability to represent the spatial variability in bio-physical and economic conditions that interact with adaptive responses. We apply this approach to the dryland grain production systems of the Northern Plains region of the United States. The results support the hypothesis that the most adverse impacts on net returns distributions tend to occur in the areas with the poorest resource endowments and when mitigating effects of CO2 fertilization and adaptation are absent. We find that relative and absolute measures of vulnerability depend on complex interactions between climate change, CO2 level, adaptation, and economic conditions such as relativeoutput prices. The relationship between relative vulnerability and resource endowments varies with assumptions about climate change, adaptation, and economic conditions. Vulnerability measured with respect to an absolute threshold is inversely related to resource endowments in all cases investigated. 相似文献
19.
Juan-Carlos Ciscar László Szabó Denise van Regemorter Antonio Soria 《Climatic change》2012,112(1):127-142
The PESETA project has estimated the physical effects of climate change in Europe for the following impact categories with
a market valuation: agriculture, river floods, coastal systems and tourism. Four alternative scenarios of future climate change
have been considered. The computable general equilibrium (CGE) GEM-E3 model for Europe has been used to integrate the PESETA
damages under a consistent economic framework. The approach followed has been to assess the effects of future climate (as
of 2080s) on today’s economy. This article details the way each sectoral impact has been integrated into the CGE model. The
EU welfare loss is estimated to be in a range of 0.2% to 1%, depending on the climate future and the projected sea level rise.
Results show that the Southern Europe region appears as the most vulnerable area to climate change. Impacts in coastal systems,
agriculture and river floods determine the overall and regional pattern of impacts within Europe. 相似文献
20.
While it is generally asserted that those countries who have contributed least to anthropogenic climate change are most vulnerable to its adverse impacts some recently developed indices of vulnerability to climate change come to a different conclusion. Confirmation or rejection of this assertion is complicated by the lack of an agreed metric for measuring countries’ vulnerability to climate change and by conflicting interpretations of vulnerability. This paper presents a comprehensive semi-quantitative analysis of the disparity between countries’ responsibility for climate change, their capability to act and assist, and their vulnerability to climate change for four climate-sensitive sectors based on a broad range of disaggregated vulnerability indicators. This analysis finds a double inequity between responsibility and capability on the one hand and the vulnerability of food security, human health, and coastal populations on the other. This double inequity is robust across alternative indicator choices and interpretations of vulnerability. The main cause for the higher vulnerability of poor nations who have generally contributed little to climate change is their lower adaptive capacity. In addition, the biophysical sensitivity and socio-economic exposure of poor nations to climate impacts on food security and human health generally exceeds that of wealthier nations. No definite statement can be made on the inequity associated with climate impacts on water supply due to large uncertainties about future changes in regional water availability and to conflicting indicators of current water scarcity. The robust double inequity between responsibility and vulnerability for most climate-sensitive sectors strengthens the moral case for financial and technical assistance from those countries most responsible for climate change to those countries most vulnerable to its adverse impacts. However, the complex and geographically heterogeneous patterns of vulnerability factors for different climate-sensitive sectors suggest that the allocation of international adaptation funds to developing countries should be guided by sector-specific or hazard-specific criteria despite repeated requests from participants in international climate negotiations to develop a generic index of countries’ vulnerability to climate change. 相似文献