43 results
Search Results
2. Pitfalls in comparing Paris pledges.
- Author
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Rowan, Sam S.
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CLIMATE research , *CLIMATE change prevention , *CLIMATE change , *GREENHOUSE gases , *PUBLIC opinion , *CLIMATOLOGY - Abstract
The Paris pledges are unique documents in climate governance that outline what each country intends to do to combat climate change. Often, these documents contain headline greenhouse gas percentage reduction targets that appear to summarize countries' contributions to mitigation. This is a boon for comparative climate policy research. However, I show in this paper that the Paris pledges require detailed interpretation to be comparable. I demonstrate the risks in comparing these targets by re-visiting a recent studying linking national public opinion to the stringency of countries' mitigation goals. I develop new indicators that better account for the structure of the targets and show in replications that the original finding is inconsistent with the underlying data. I conclude by drawing lessons for studying the Paris pledges. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
3. Disaggregating the Precautionary Principle.
- Author
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Harris, A. W.
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CLIMATE change , *GREENHOUSE effect , *GREENHOUSE gases , *CLIMATOLOGY - Abstract
Doubts persist about the contribution of anthropgenic activity to the enhanced greenhouse effect, despite the fact there is no know precedent to the observed change in climate over the last half of the 20th century. This paper contends that the U.S. has adopted a precautionary approach to climate change, rather than apply a robust form of the precautionary principle. The U.S. government has adopted this policy because it has dobuts about the link between human activity and climate change, because of the economic cost of adopting a strong form of the precautionary principle, and because of the unequal obligations of greenhouse gas emission reductions between developing and developed countries. The paper contends that relying on mitigation, adaption, and further researchcarries the presumption that the climate system can absorb current greenhouse gas emission levels, and is itself a risky proposition. [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
4. Human-induced climate change: the impact of land-use change.
- Author
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Gries, Thomas, Redlin, Margarete, and Ugarte, Juliette Espinosa
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LAND use , *CLIMATE change , *EMISSIONS (Air pollution) , *GREENHOUSE gases , *CLIMATOLOGY - Abstract
For hundreds of years, human activity has modified the planet's surface through land-use practices. Policies and decisions on how land is managed and land-use changes due to replacement of forests by agricultural cropping and grazing lands affect greenhouse gas emissions. Agricultural management and agroforestry and the resulting changes to the land surface alter the global carbon cycle as well as the Earth's surface albedo, both of which in turn change the Earth's radiation balance. This makes land-use change the second anthropogenic source of climate change after fossil fuel burning. However, the scientific research community has so far not been able to identify the direction and magnitude of the global impact of land-use change. This paper examines the effects of net carbon flux from land-use change on temperature by applying Granger causality and error correction models. The results reveal a significant positive long-run equilibrium relationship between land-use change and the temperature series as well as an opposing short-term effect such that land-use change tends to lead to global warming; however, a rise in temperature causes a decline in land-use change. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
5. Model uncertainties do not affect observed patterns of species richness in the Amazon.
- Author
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Sales, Lilian Patrícia, Neves, Olívia Viana, Jr.De Marco, Paulo, and Loyola, Rafael
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CLIMATE change , *BIODIVERSITY , *FRESHWATER fishes , *BIOGEOGRAPHY - Abstract
Background: Climate change is arguably a major threat to biodiversity conservation and there are several methods to assess its impacts on species potential distribution. Yet the extent to which different approaches on species distribution modeling affect species richness patterns at biogeographical scale is however unaddressed in literature. In this paper, we verified if the expected responses to climate change in biogeographical scale—patterns of species richness and species vulnerability to climate change—are affected by the inputs used to model and project species distribution. Methods: We modeled the distribution of 288 vertebrate species (amphibians, birds and mammals), all endemic to the Amazon basin, using different combinations of the following inputs known to affect the outcome of species distribution models (SDMs): 1) biological data type, 2) modeling methods, 3) greenhouse gas emission scenarios and 4) climate forecasts. We calculated uncertainty with a hierarchical ANOVA in which those different inputs were considered factors. Results: The greatest source of variation was the modeling method. Model performance interacted with data type and modeling method. Absolute values of variation on suitable climate area were not equal among predictions, but some biological patterns were still consistent. All models predicted losses on the area that is climatically suitable for species, especially for amphibians and primates. All models also indicated a current East-western gradient on endemic species richness, from the Andes foot downstream the Amazon river. Again, all models predicted future movements of species upwards the Andes mountains and overall species richness losses. Conclusions: From a methodological perspective, our work highlights that SDMs are a useful tool for assessing impacts of climate change on biodiversity. Uncertainty exists but biological patterns are still evident at large spatial scales. As modeling methods are the greatest source of variation, choosing the appropriate statistics according to the study objective is also essential for estimating the impacts of climate change on species distribution. Yet from a conservation perspective, we show that Amazon endemic fauna is potentially vulnerable to climate change, due to expected reductions on suitable climate area. Climate-driven faunal movements are predicted towards the Andes mountains, which might work as climate refugia for migrating species. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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6. A human-scale perspective on global warming: Zero emission year and personal quotas.
- Author
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De La Fuente, Alberto, Rojas, Maisa, and Mac Lean, Claudia
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PREVENTION of global warming , *CLIMATE change risk management , *GREENHOUSE gas mitigation , *EMISSION control , *AIR pollution control - Abstract
This article builds on the premise that human consumption of goods, food and transport are the ultimate drivers of climate change. However, the nature of the climate change problem (well described as a tragedy of the commons) makes it difficult for individuals to recognise their personal duty to implement behavioural changes to reduce greenhouse gas emissions. Consequently, this article aims to analyse the climate change issue from a human-scale perspective, in which each of us has a clearly defined personal quota of CO2 emissions that limits our activity and there is a finite time during which CO2 emissions must be eliminated to achieve the “well below 2°C” warming limit set by the Paris Agreement of 2015 (COP21). Thus, this work’s primary contribution is to connect an equal per capita fairness approach to a global carbon budget, linking personal levels with planetary levels. Here, we show that a personal quota of 5.0 tons of CO2 yr-1 p-1 is a representative value for both past and future emissions; for this level of a constant per-capita emissions and without considering any mitigation, the global accumulated emissions compatible with the “well below 2°C” and 2°C targets will be exhausted by 2030 and 2050, respectively. These are references years that provide an order of magnitude of the time that is left to reverse the global warming trend. More realistic scenarios that consider a smooth transition toward a zero-emission world show that the global accumulated emissions compatible with the “well below 2°C” and 2°C targets will be exhausted by 2040 and 2080, respectively. Implications of this paper include a return to personal responsibility following equity principles among individuals, and a definition of boundaries to the personal emissions of CO2. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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7. Enhancing life cycle impact assessment from climate science: Review of recent findings and recommendations for application to LCA.
- Author
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Levasseur, Annie, Cavalett, Otávio, Fuglestvedt, Jan S., Gasser, Thomas, Johansson, Daniel J.A., Jørgensen, Susanne V., Raugei, Marco, Reisinger, Andy, Schivley, Greg, Strømman, Anders, Tanaka, Katsumasa, and Cherubini, Francesco
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LIFE cycles (Biology) , *CLIMATOLOGY , *GLOBAL warming , *GREENHOUSE gases , *POLLUTANTS - Abstract
Since the Global Warming Potential (GWP) was first presented in the Intergovernmental Panel on Climate Change (IPCC) First Assessment Report, the metric has been scrutinized and alternative metrics have been suggested. The IPCC Fifth Assessment Report gives a scientific assessment of the main recent findings from climate metrics research and provides the most up-to-date values for a subset of metrics and time horizons. The objectives of this paper are to perform a systematic review of available midpoint metrics (i.e. using an indicator situated in the middle of the cause-effect chain from emissions to climate change) for well-mixed greenhouse gases and near-term climate forcers based on the current literature, to provide recommendations for the development and use of characterization factors for climate change in life cycle assessment (LCA), and to identify research needs. This work is part of the ‘Global Guidance on Environmental Life Cycle Impact Assessment’ project held by the UNEP/SETAC Life Cycle Initiative and is intended to support a consensus finding workshop. In an LCA context, it can make sense to use several complementary metrics that serve different purposes, and from there get an understanding about the robustness of the LCA study to different perspectives and metrics. We propose a step-by-step approach to test the sensitivity of LCA results to different modelling choices and provide recommendations for specific issues such as the consideration of climate-carbon feedbacks and the inclusion of pollutants with cooling effects (negative metric values). [ABSTRACT FROM AUTHOR]
- Published
- 2016
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8. Sensitivity of Twentieth-Century Sahel Rainfall to Sulfate Aerosol and CO2 Forcing.
- Author
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Ackerley, Duncan, Booth, Ben B. B., Knight, Sylvia H. E., Highwood, Eleanor J., Frame, David J., Allen, Myles R., and Rowell, David P.
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EFFECT of human beings on climate change , *GREENHOUSE gases , *AEROSOLS , *RAINFALL - Abstract
A full understanding of the causes of the severe drought seen in the Sahel in the latter part of the twentieth-century remains elusive some 25 yr after the height of the event. Previous studies have suggested that this drying trend may be explained by either decadal modes of natural variability or by human-driven emissions (primarily aerosols), but these studies lacked a sufficiently large number of models to attribute one cause over the other. In this paper, signatures of both aerosol and greenhouse gas changes on Sahel rainfall are illustrated. These idealized responses are used to interpret the results of historical Sahel rainfall changes from two very large ensembles of fully coupled climate models, which both sample uncertainties arising from internal variability and model formulation. The sizes of these ensembles enable the relative role of human-driven changes and natural variability on historic Sahel rainfall to be assessed. The paper demonstrates that historic aerosol changes are likely to explain most of the underlying 1940-80 drying signal and a notable proportion of the more pronounced 1950-80 drying. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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9. Impact of Changes in Climate and Halocarbons on Recent Lower Stratosphere Ozone and Temperature Trends.
- Author
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Lamarque, Jean-François and Solomon, Susan
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CLIMATE change , *HALOCARBONS , *TROPOSPHERIC ozone , *OZONE layer depletion , *STRATOSPHERE , *GREENHOUSE gases , *CLIMATOLOGY , *FORCING (Model theory) , *CARBON dioxide - Abstract
The primary focus of this paper is the analysis of the roles of long-term increases in carbon dioxide (CO2) and sea surface temperatures (used as indicators of climate change) and man-made halocarbons (indicators of chemical ozone depletion linked to halogens) in explaining the observed trend of ozone in the tropical lower stratosphere and implications for related variables including temperature and tropopause height. Published estimates indicate a decrease of approximately 10% in observed ozone concentrations in this region between 1979 and 2005. Using a coupled chemistry–climate atmosphere model forced by observed sea surface temperatures and surface concentrations of long-lived greenhouse gases and halocarbons, the authors show that the simulations display substantial decreases in tropical ozone that compare well in both latitudinal and vertical structure with those observed. Based on sensitivity simulations, the analysis indicates that the decreases in the lower stratospheric (85–50 hPa) tropical ozone distribution are mostly associated with increases in CO2 and sea surface temperatures, in contrast to those at higher latitudes, which are largely driven by halocarbon increases. Factors influencing temperature trends and tropopause heights in this region are also probed. It is shown that the modeled temperature trends in the lower tropical stratosphere are also associated with increases in CO2 and sea surface temperatures. Following the analysis of lower stratospheric tropical temperature trends, the secondary focus of this paper is on related changes in tropopause height. Much of the simulated tropopause rise in the tropical zone as measured by tropopause height is found to be linked to increases in sea surface temperatures and CO2, while increases in halocarbons dominate the tropopause height changes in the subtropics near 30°; both drivers thus affect different regions of the simulated changes in the position of the tropopause. Finally, it is shown that halocarbon increases dominate the changes in the width of the region where modeled total ozone displays tropical character (as indicated by low values of the column abundance). Hence the findings suggest that climate changes and halocarbon changes make different contributions to different metrics used to characterize tropical change. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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10. Holiday travel discourses and climate change
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Dickinson, Janet E., Robbins, Derek, and Lumsdon, Les
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CLIMATE change , *GREENHOUSE gases , *TOURISM , *TRAVEL , *INTERNATIONAL tourism , *CARBON & the environment , *CLIMATOLOGY - Abstract
Abstract: Current analyses highlight the relatively high contribution of holiday travel to greenhouse gas emissions. One response has been a growing ‘slow travel’ movement. Slow travel is an emerging concept which can be explained as an alternative to air and car travel where people travel to destinations more slowly overland and travel less distance. At first glance, slow travel might seem to preclude much international tourism, however, as an adaptation strategy, slow travel has the potential to reduce tourism’s overall carbon footprint. Data were collected using in-depth interviews with 15 UK participants before and after a holiday to another European country. The analysis explores the discourses used by both slow and non-slow travellers to justify modal choice in relation to climate change. Then, using a social practices model, the paper explores how holiday travel is constrained by both individual agency to act and the structures that exist within the travel and tourism industry. The paper concludes with some recommendations for the development of slow travel as a tourism adaptation strategy for a lower carbon future. [Copyright &y& Elsevier]
- Published
- 2010
- Full Text
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11. Linking climate change science with policy in California.
- Author
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Franco, Guido, Cayan, Dan, Luers, Amy, Hanemann, Michael, and Croes, Bart
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CLIMATE change , *CLIMATOLOGY , *ENERGY policy , *GREENHOUSE gases , *AIR quality , *ENVIRONMENTAL policy - Abstract
Over the last few years, California has passed some of the strongest climate policies in the USA. These new policies have been motivated in part by increasing concerns over the risk of climate-related impacts and facilitated by the state's existing framework of energy and air quality policies. This paper presents an overview of the evolution of this increased awareness of climate change issues by policy makers brought about by the strong link between climate science and policy in the state. The State Legislature initiated this link in 1988 with the mandate to prepare an assessment of the potential consequences of climate change to California. Further interactions between science and policy has more recently resulted, in summer of 2006, in the passage of Assembly Bill 32, a law that limits future greenhouse gas emissions in California. This paper discusses the important role played by a series of state and regional climate assessments beginning in 1988 and, in particular, the lessons learned from a recently completed study known as the Scenarios Project. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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12. Adapting to Climate Change at the Local Level: The Spatial Planning Response.
- Author
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Wilson, Elizabeth
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CLIMATE change , *CLIMATOLOGY , *GREENHOUSE gases , *GASES , *BIODIVERSITY , *BIOLOGY , *ACCLIMATIZATION , *FLOODS - Abstract
Climate change is a major issue for all levels of government, global, national and local. Local authorities' responses to climate change have tended to concentrate on their role in reducing greenhouse gases. However, the scientific consensus is that we also need to adapt to unavoidable climate change. Spatial planning at a local level has a critical anticipatory role to play in promoting robust adaptation. This paper reviews the shift in local authorities' planning policies for climate change adaptation in the UK since 2000, and provides evidence of underlying attitudes amongst planning professionals to climate change. It shows that, while the issue of climate change is becoming recognized with respect to flood risk, the wider implications (for instance, for biodiversity and water resources) are not yet integrated into plans. The reasons for this lie in lack of political support and lack of engagement of the planning profession with climate change networks. But the paper also argues there are difficulties in acknowledging the need for adaptation at the local level, with the short-term horizons of local plans at odds with perceptions of the long-term implications of climate change. [ABSTRACT FROM AUTHOR]
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- 2006
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13. Modelling climate policy: Perspectives on future negotiations
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Buchner, Barbara and Carraro, Carlo
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CLIMATOLOGY , *CLIMATE change , *NEGOTIATION , *GREENHOUSE gases - Abstract
Abstract: It is widely recognised that the coming into force of the Kyoto Protocol will be insufficient in achieving climate change control. Therefore, research on climate policy is focussing on the forthcoming negotiations on the policy architecture and abatement commitments that will be adopted after 2012. This paper adopts a game-theoretic approach to model climate policy and provides some results on the implications of alternative emission reduction targets beyond 2012. In particular, six scenarios are discussed and their impacts on the main economic variables are assessed. Most importantly, the paper will focus on the relationship between future emission targets and participation incentives, namely, it will examine whether there exist future emission targets that could be accepted by the US, China and other major emitters of greenhouse gases. Some suggestions for the design of future negotiation targets will also be put forward. [Copyright &y& Elsevier]
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- 2005
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14. Protocols, treaties, and action: the 'climate change process' viewed through gender spectacles.
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Skutsch, Margaret M.
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CLIMATE change , *GENDER , *CLIMATOLOGY , *GREENHOUSE gases , *AIR pollution , *ACCLIMATIZATION - Abstract
This paper starts by assessing the extent to which gender considerations have been taken into account in the international processes concerning the development of climate change policy. Finding that there has been very little attention to gender issues, neither in the protocols and treaties nor in the debates around them, the paper goes on to consider whether there are in fact any meaningful gender considerations as regards (a) emissions of greenhouse gases, (b) vulnerability to climate change, and (c) participation in projects under climate funding. It concludes by suggesting some areas where attention to gender could improve the effectiveness of climate interventions and also benefit women. [ABSTRACT FROM AUTHOR]
- Published
- 2002
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15. Huella del Carbono. Parte 1: Conceptos, Métodos de Estimación y Complejidades Metodológicas.
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Espíndola, César and Valderrama, José O.
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ECOLOGICAL impact , *GREENHOUSE gases , *GREENHOUSE effect , *CLIMATE change , *GLOBAL warming , *CLIMATOLOGY - Abstract
The concept of Carbon Footprint, its origin, its relation with greenhouse gases and the methods to quantify it are presented and analyzed. The so-called greenhouse effect causes that the energy that reaches the earth at a certain rate is returned to a slower rate, increasing the temperature of the earth surface. Additionally, it is nowadays accepted that this effect is produced by some gases that are naturally emitted or produced by human actions. The Carbon Footprint is considered to be one of the most important tools for quantifying greenhouse emissions and in a general form it represents the quantity of gases emitted to the atmosphere and that is produced by human activities, and by goods and service consumption. Since there is no consensus about the definition of Carbon Footprint or the forms of quantifying it, this first part of the paper series analyzes the main concept and the main present views on the Carbon Footprint. [ABSTRACT FROM AUTHOR]
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- 2012
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16. Scenarios with MIT integrated global systems model: significant global warming regardless of different approaches.
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Prinn, Ronald, Paltsev, Sergey, Sokolov, Andrei, Sarofim, Marcus, Reilly, John, and Jacoby, Henry
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GREENHOUSE gases , *THERMAL expansion , *CLIMATE change , *CLIMATOLOGY , *GLOBAL warming - Abstract
wide variety of scenarios for future development have played significant roles in climate policy discussions. This paper presents projections of greenhouse gas (GHG) concentrations, sea level rise due to thermal expansion and glacial melt, oceanic acidity, and global mean temperature increases computed with the MIT Integrated Global Systems Model (IGSM) using scenarios for twenty-first century emissions developed by three different groups: intergovernmental (represented by the Intergovernmental Panel on Climate Change), government (represented by the U.S. government Climate Change Science Program) and industry (represented by Royal Dutch Shell plc). In all these scenarios the climate system undergoes substantial changes. By 2100, the CO concentration ranges from 470 to 1020 ppm compared to a 2000 level of 365 ppm, the CO-equivalent concentration of all greenhouse gases ranges from 550 to 1780 ppm in comparison to a 2000 level of 415 ppm, oceanic acidity changes from a current pH of around 8 to a range from 7.63 to 7.91, in comparison to a pH change from a preindustrial level by 0.1 unit. The global mean temperature increases by 1.8 to 7.0°C relative to 2000. Such increases will require considerable adaptation of many human systems and will leave some aspects of the earth's environment irreversibly changed. Thus, the remarkable aspect of these different approaches to scenario development is not the differences in detail and philosophy but rather the similar picture they paint of a world at risk from climate change even if there is substantial effort to reduce emissions. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
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17. Characteristic Features of Precipitation Extremes over India in the Warming Scenarios.
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Revadekar, J. V., Patwardhan, S. K., and Kumar, K. Rupa
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CLIMATE change , *SOCIOECONOMIC factors , *METEOROLOGICAL precipitation , *CLIMATOLOGY , *GREENHOUSE gases , *AEROSOLS - Abstract
The detection of possible changes in extreme climate events, in terms of the frequency, intensity as well as duration assumes profound importance on the local, regional, and national scales, due to the associated critical socioeconomic consequences. Therefore, an attempt ismade in this paper to evaluate various aspects of future projections of precipitation extremes over India, as projected by a state-of-art regional climatemodeling system, known as PRECIS (Providing REgional Climates for Impacts Studies) towards the end of the 21st century (that is, 2071-2100) using standardized indices. Study reveals that PRECIS simulations under scenarios of increasing greenhouse gas concentration and sulphate aerosols indicate marked increase in precipitation towards the end of the 21st century and is expected to increase throughout the year. However the changes in daily precipitation and the precipitation extremes during summer monsoon (June through September) season are prominent than during the rest of year. PRECIS simulations under both A2 and B2 scenarios indicate increase in frequency of heavy precipitation events and also enhancement in their intensity towards the end of the 21st century. Both A2 and B2 scenarios show similar patterns of projected changes in the precipitation extremes towards the end of the 21st century. However, the magnitudes of changes in B2 scenario are on the lower side. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
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18. Toward a whole-landscape approach for sustainable land use in the tropics.
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DeFries, R. and Rosenzweig, C.
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LAND use , *ECONOMICS , *CLIMATE change , *CLIMATOLOGY , *GREENHOUSE gases , *AGRICULTURE - Abstract
Increasing food production and mitigating climate change are two primary but seemingly contradictory objectives for tropical landscapes. This special feature examines synergies and trade-offs among these objectives. Four themes emerge from the papers: the important roles of both forest and agriculture sectors for climate mitigation in tropical countries; the minor contribution from deforestation-related agricultural expansion to overall food production at global and continental scales; the opportunities for synergies between improved food production and reductions in greenhouse gas emissions through diversion of agricultural expansion to already-cleared lands, improved soil, crop, and livestock management, and agroforestry; and the need for targeted policy and management interventions to make these synergistic opportunities a reality. We conclude that agricultural intensification is a key factor to meet dual objectives of food production and climate mitigation, but there is no single panacea for balancing these objectives in all tropical landscapes. Place-specific strategies for sustainable land use emerge from assessments of current land use, demographics, and other biophysical and socioeconomic characteristics. using a whole-landscape, multisector perspective. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
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19. Changes in Climate at High Southern Latitudes: A Unique Daily Record at Orcadas Spanning 1903–2008.
- Author
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Zazulie, Natalia, Rusticucci, Matilde, and Solomon, Susan
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CLIMATE change , *PRECIPITATION variability , *GREENHOUSE gases , *CLIMATOLOGY , *ACCLIMATIZATION , *OZONE layer depletion , *SEASONS , *PRECIPITATION anomalies - Abstract
The climate observations at Orcadas represent the only southern high-latitude site where data span more than a century, and its daily measurements are presented for the first time in this paper. Although limited to a single station, the observed warming trends are among the largest found anywhere on the earth, facilitating the study of changes in extreme temperatures as well as averages. Factors that may influence Antarctic climate include natural variability; changes in greenhouse gases; and, since about the mid-1970s, the development of the ozone hole. The seasonality of observed warming and its temporal evolution during the century are both key for interpretations of Antarctic climate change. No statistically significant climate trends are observed at Orcadas from 1903 to 1950. However, statistically significant warming is evident at Orcadas throughout all four seasons of the year since 1950. Particularly in austral fall and winter, the warming of the cold extremes (coldest 5% and 10% of days) substantially exceeds the warming of the mean or of the warmest days, providing a key indicator for cold season Antarctic climate change studies. Trends in the summer season means and extremes since 1970 are approximately twice as large as those observed earlier, supporting suggestions of additional regional warming in that season because of the effects of ozone depletion on the circulation. Further, in the spring and summer seasons, significant mean warming also occurred prior to the development of the Antarctic ozone hole (i.e., 1950–70), supporting an important role for processes other than ozone depletion, such as greenhouse gas increases, for the climate changes. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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20. Understanding Land–Sea Warming Contrast in Response to Increasing Greenhouse Gases. Part I: Transient Adjustment.
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Dong, Buwen, Gregory, Jonathan M., and Sutton, Rowan T.
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GREENHOUSE gases , *CLIMATOLOGY , *CLIMATE change , *GLOBAL warming , *GENERAL circulation model , *TROPOSPHERE , *SOIL moisture - Abstract
Climate model simulations consistently show that surface temperature over land increases more rapidly than over sea in response to greenhouse gas forcing. The enhanced warming over land is not simply a transient effect caused by the land–sea contrast in heat capacities, since it is also present in equilibrium conditions. This paper elucidates the transient adjustment processes over time scales of days to weeks of the surface and tropospheric climate in response to a doubling of CO2 and to changes in sea surface temperature (SST), imposed separately and together, using ensembles of experiments with an atmospheric general circulation model. These adjustment processes can be grouped into three stages: immediate response of the troposphere and surface processes (day 1), fast adjustment of surface processes (days 2–5), and adjustment of the whole troposphere (days 6–20). Some land surface warming in response to doubled CO2 (with unchanged SSTs) occurs immediately because of increased downward longwave radiation. Increased CO2 also leads to reduced plant stomatal resistance and hence restricted evaporation, which increases land surface warming in the first day. Rapid reductions in cloud amount lead in the next few days to increased downward shortwave radiation and further warming, which spreads upward from the surface, and by day 5 the surface and tropospheric response is statistically consistent with the equilibrium value. Land surface warming in response to imposed SST change (with unchanged CO2) is slower. Tropospheric warming is advected inland from the sea, and over land it occurs at all levels together rather than spreading upward from the surface. The atmospheric response to prescribed SST change in about 20 days is statistically consistent with the equilibrium value, and the warming is largest in the upper troposphere over both land and sea. The land surface warming involves reduction of cloud cover and increased downward shortwave radiation, as in the experiment with CO2 change, but in this case it is due to the restriction of moisture supply to the land (indicated by reduced soil moisture), whereas in the CO2 forcing experiment it is due to restricted evaporation despite increased moisture supply (indicated by increased soil moisture). The warming over land in response to SST change is greater than over the sea and is the dominant contribution to the land–sea warming contrast under enhanced CO2 forcing. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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21. Comparison of uncertainty sources for climate change impacts: flood frequency in England.
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Kay, A. L., Davies, H. N., Bell, V. A., and Jones, R. G.
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CLIMATE change , *GREENHOUSE gases , *CLIMATOLOGY , *HYDROLOGICAL research , *RAINFALL frequencies - Abstract
This paper investigates the uncertainty in the impact of climate change on flood frequency in England, through the use of continuous simulation of river flows. Six different sources of uncertainty are discussed: future greenhouse gas emissions; Global Climate Model (GCM) structure; downscaling from GCMs (including Regional Climate Model structure); hydrological model structure; hydrological model parameters and the internal variability of the climate system (sampled by applying different GCM initial conditions). These sources of uncertainty are demonstrated (separately) for two example catchments in England, by propagation through to flood frequency impact. The results suggest that uncertainty from GCM structure is by far the largest source of uncertainty. However, this is due to the extremely large increases in winter rainfall predicted by one of the five GCMs used. Other sources of uncertainty become more significant if the results from this GCM are omitted, although uncertainty from sources relating to modelling of the future climate is generally still larger than that relating to emissions or hydrological modelling. It is also shown that understanding current and future natural variability is critical in assessing the importance of climate change impacts on hydrology. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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22. CLIMATE CHANGE AND PEAK OIL AS THREATS TO INTERNATIONAL PEACE AND SECURITY: IS IT TIME FOR THE SECURITY COUNCIL TO LEGISLATE?
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Scott, Shirley V.
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CLIMATE change , *PEACE , *NATIONAL security , *HUBBERT peak theory , *GREENHOUSE gases , *EMISSIONS (Air pollution) , *ENVIRONMENTALISM , *DECISION making , *CLIMATOLOGY - Abstract
The need to take decisive, coordinated, global action on the twin threats of climate change and peak oil is becoming increasingly urgent. There has been plenty of rhetoric and considerable activity on climate change, but if measured in terms of global reductions in greenhouse gas emissions or an improving climate prognosis, international legal governance measures taken to date have failed. Although analysts tend to have dismissed Security Council action as inappropriate to meet environmental security threats, the recent introduction of 'legislative' decision-making on the part of the Council means that fresh consideration of a possible role for the Security Council is warranted. This paper sees no legal impediment to the Security Council becoming the 'peak' body on climate change and calls for fresh thinking as to just what sort of a decision on the part of the Council could be both effective and politically feasible. [ABSTRACT FROM AUTHOR]
- Published
- 2008
23. Long-Term Climate Commitments Projected with Climate–Carbon Cycle Models.
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Plattner, G.-K., Knutti, R., Joos, F., Stocker, T. F., von Bloh, W., Brovkin, V., Cameron, D., Driesschaert, E., Dutkiewicz, S., Eby, M., Edwards, N. R., Fichhefet, T., Hargreaves, J. C., Jones, C. D., Loutre, M. F., Matthews, H. D., Mouchet, A., Müller, S. A., Nawrath, S., and Price, A.
- Subjects
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CLIMATOLOGY , *CARBON cycle , *CLIMATE change , *OCEAN-atmosphere interaction , *MERIDIONAL overturning circulation , *ATMOSPHERIC carbon dioxide , *GREENHOUSE gases , *THERMAL expansion , *AIR pollution monitoring , *ABSOLUTE sea level change - Abstract
Eight earth system models of intermediate complexity (EMICs) are used to project climate change commitments for the recent Intergovernmental Panel on Climate Change’s (IPCC’s) Fourth Assessment Report (AR4). Simulations are run until the year 3000 a.d. and extend substantially farther into the future than conceptually similar simulations with atmosphere–ocean general circulation models (AOGCMs) coupled to carbon cycle models. In this paper the following are investigated: 1) the climate change commitment in response to stabilized greenhouse gases and stabilized total radiative forcing, 2) the climate change commitment in response to earlier CO2 emissions, and 3) emission trajectories for profiles leading to the stabilization of atmospheric CO2 and their uncertainties due to carbon cycle processes. Results over the twenty-first century compare reasonably well with results from AOGCMs, and the suite of EMICs proves well suited to complement more complex models. Substantial climate change commitments for sea level rise and global mean surface temperature increase after a stabilization of atmospheric greenhouse gases and radiative forcing in the year 2100 are identified. The additional warming by the year 3000 is 0.6–1.6 K for the low-CO2 IPCC Special Report on Emissions Scenarios (SRES) B1 scenario and 1.3–2.2 K for the high-CO2 SRES A2 scenario. Correspondingly, the post-2100 thermal expansion commitment is 0.3–1.1 m for SRES B1 and 0.5–2.2 m for SRES A2. Sea level continues to rise due to thermal expansion for several centuries after CO2 stabilization. In contrast, surface temperature changes slow down after a century. The meridional overturning circulation is weakened in all EMICs, but recovers to nearly initial values in all but one of the models after centuries for the scenarios considered. Emissions during the twenty-first century continue to impact atmospheric CO2 and climate even at year 3000. All models find that most of the anthropogenic carbon emissions are eventually taken up by the ocean (49%–62%) in year 3000, and that a substantial fraction (15%–28%) is still airborne even 900 yr after carbon emissions have ceased. Future stabilization of atmospheric CO2 and climate change requires a substantial reduction of CO2 emissions below present levels in all EMICs. This reduction needs to be substantially larger if carbon cycle–climate feedbacks are accounted for or if terrestrial CO2 fertilization is not operating. Large differences among EMICs are identified in both the response to increasing atmospheric CO2 and the response to climate change. This highlights the need for improved representations of carbon cycle processes in these models apart from the sensitivity to climate change. Sensitivity simulations with one single EMIC indicate that both carbon cycle and climate sensitivity related uncertainties on projected allowable emissions are substantial. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
24. Fire and sustainability: considerations for California's altered future climate.
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Moritz, Max A. and Stephens, Scott L.
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FIRE , *WILDFIRES , *GREENHOUSE gases , *CLIMATE change , *CLIMATOLOGY - Abstract
In addition to reducing greenhouse gas emissions, actions to achieve a sustainable coexistence with wildfire need to be taken now. In this paper we suggest several important policy, planning, and management changes that should be made, regardless of the many uncertainties in predicting future fire regimes. Similar to how other natural hazards are addressed, a risk-based framework for fire-related decisions is crucial. Reintroduction of fire to fire-prone ecosystems, careful use of fire surrogates, and creation of new and flexible policies will be needed for successful ecosystem management. Growing incompatibilities between urban development and wildfire also require a serious reevaluation of urban planning and building in fire-prone locations to reach a sustainable coexistence with fire. Our future cities and communities must be less susceptible to wildfire damage, and the ecosystems upon which we depend must be made more resilient to further disruptions in fire regimes. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
25. Climate change and carbon dioxide (CO2) sequestration: an African perspective.
- Author
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Sengul, M., Pillay, A.E., Francis, C.G., and Elkadi, M.
- Subjects
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CLIMATE change , *CARBON dioxide , *AIR pollution , *CLIMATOLOGY , *PER capita , *GREENHOUSE gases , *CARBON compounds , *INDUSTRIALIZATION - Abstract
Since 1990 carbon dioxide emissions in Africa have increased by about 50%. The total carbon dioxide emissions of the entire African continent are not, however, anywhere near those of countries such as India or China. Yet certain African countries have per capita emissions comparable to some European countries. What is the outlook for Africa? How should African countries respond as it becomes increasingly likely that climate change is occurring? Increased industrial growth and more foreign investment in Africa, especially in countries that are politically and economically stable, have led to huge commercial developments such as the In Salah gas project in Algeria, which releases more than a million tons of carbon dioxide annually; and synthetic fuel plants and power stations in South Africa that generate more than 350 million tons per year. In this perspective should some African countries be required to limit greenhouse gas emissions or should they be immune to 'environmental taxation'? This paper critically reviews the carbon dioxide problem in some parts of Africa and its role in climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
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26. Critical considerations for future action during the second commitment period: A small islands’ perspective.
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Nurse, Leonard and Moore, Rawleston
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CLIMATE change , *CLIMATOLOGY , *GLOBAL temperature changes , *BIOTIC communities , *GREENHOUSE gases , *ECONOMIC development , *ICE sheets ,DEVELOPING countries ,UNITED Nations Framework Convention on Climate Change (1992). Protocols, etc., 1997 December 11 - Abstract
If the objective of the United Nations Framework Convention on Climate Change (UNFCCC) is to be achieved, Parties must commit themselves to meeting meaningful long-term targets that, based on current knowledge, would minimize the possibility of irreversible climate change. Current indications are that a global mean temperature rise in excess of 2–3 °C would enhance the risk of destabilizing the climate system as we know it, and possibly lead to catastrophic change such as a shutdown of the deep ocean circulation, and the disintegration of the West Arctic Ice Sheet. Observations have shown that for many small island developing States (SIDS), life-sustaining ecosystems such as coral reefs, already living near the limit of thermal tolerance, are highly climate-sensitive, and can suffer severe damage from exposure to sea temperatures as low as 1 °C above the seasonal maximum. Other natural systems (e.g., mangroves) are similarly susceptible to relatively low temperature increases, coupled with small increments of sea level rise. Economic and social sectors, including agriculture and human health, face similar challenges from the likely impacts of projected climate change. In light of known thresholds, this paper presents the view that SIDS should seek support for a temperature cap not exceeding 1.5–2.0 °C above the pre-industrial mean. It is argued that a less stringent post-Kyoto target would frustrate achievement of the UNFCCC objective. The view is expressed that all countries which emit significant amounts of greenhouse gases should commit to binding reduction targets in the second commitment period, but that targets for developing countries should be less stringent than those agreed for developed countries. Such an arrangement would be faithful to the principles of equity and would ensure that the right of Parties to attain developed country status would not be abrogated. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
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27. The Detection and Attribution of Climate Change Using an Ensemble of Opportunity.
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Stone, Dáithí A., Allen, Myles R., Selten, Frank, Kliphuis, Michael, and Stott, Peter A.
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CLIMATE change , *GENERAL circulation model , *GLOBAL temperature changes , *ATMOSPHERIC temperature , *GREENHOUSE gases , *GREENHOUSE effect , *AEROSOLS , *EMISSIONS (Air pollution) , *CLIMATOLOGY - Abstract
The detection and attribution of climate change in the observed record play a central role in synthesizing knowledge of the climate system. Unfortunately, the traditional method for detecting and attributing changes due to multiple forcings requires large numbers of general circulation model (GCM) simulations incorporating different initial conditions and forcing scenarios, and these have only been performed with a small number of GCMs. This paper presents an extension to the fingerprinting technique that permits the inclusion of GCMs in the multisignal analysis of surface temperature even when the required families of ensembles have not been generated. This is achieved by fitting a series of energy balance models (EBMs) to the GCM output in order to estimate the temporal response patterns to the various forcings. This methodology is applied to the very large Challenge ensemble of 62 simulations of historical climate conducted with the NCAR Community Climate System Model version 1.4 (CCSM1.4) GCM, as well as some simulations from other GCMs. Considerable uncertainty exists in the estimates of the parameters in fitted EBMs. Nevertheless, temporal response patterns from these EBMs are more reliable and the combined EBM time series closely mimics the GCM in the context of transient forcing. In particular, detection and attribution results from this technique appear self-consistent and consistent with results from other methods provided that all major forcings are included in the analysis. Using this technique on the Challenge ensemble, the estimated responses to changes in greenhouse gases, tropospheric sulfate aerosols, and stratospheric volcanic aerosols are all detected in the observed record, and the responses to the greenhouse gases and tropospheric sulfate aerosols are both consistent with the observed record without a scaling of the amplitude being required. The result is that the temperature difference of the 1996–2005 decade relative to the 1940–49 decade can be attributed to greenhouse gas emissions, with a partially offsetting cooling from sulfate emissions and little contribution from natural sources. The results support the viability of the new methodology as an extension to current analysis tools for the detection and attribution of climate change, which will allow the inclusion of many more GCMs. Shortcomings remain, however, and so it should not be considered a replacement to traditional techniques. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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28. What Determines the Current Presence or Absence of Permafrost in the Torneträsk Region, a Sub-arctic Landscape in Northern Sweden?
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Johansson, Margareta, Christensen, Torben R., Akerman, H. Jonas, and Callaghan, Terry V.
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PERMAFROST , *GREENHOUSE gases , *METHANE , *CLIMATOLOGY , *GLOBAL warming , *CLIMATE change , *FROZEN ground - Abstract
In a warming climate, permafrost is likely to be significantly reduced and eventually disappear from the sub-Arctic region. This will affect people at a range of scales, from locally by slumping of buildings and roads, to globally as melting of permafrost will most likely increase the emissions of the powerful greenhouse gas methane, which will further enhance global warming. In order to predict future changes in permafrost, it is crucial to understand what determines the presence or absence of permafrost under current climate conditions, to assess where permafrost is particularly vulnerable to climate change, and to identify where changes are already occurring. The Torneträsk region of northern sub-Arctic Sweden is one area where changes in permafrost have been recorded and where permafrost could be particularly vulnerable to any future climate changes. This paper therefore reviews the various physical, biological, and anthropogenic parameters that determine the presence or absence of permafrost in the Torneträsk region under current climate conditions, so that we can gain an understanding of its current vulnerability and potential future responses to climate change. A patchy permafrost distribution as found in the Torneträsk region is not random, but a consequence of site-specific factors that control the microclimate and hence the surface and subsurface temperature. It is also a product of past as well as current processes. In sub-Arctic areas such as northern Sweden, it is mainly the physical parameters, e.g., topography, soil type, and climate (in particular snow depth), that determine permafrost distribution. Even though humans have been present in the study area for centuries, their impacts on permafrost distribution can more or less be neglected at the catchment level. Because ongoing climate warming is projected to continue and lead to an increased snow cover, the permafrost in the region will most likely disappear within decades, at least at lower elevations. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
29. Simulations of Present and Future Climates in the Western United States with Four Nested Regional Climate Models.
- Author
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Duffy, P. B., Arritt, R. W., Coquard, J., Gutowski, W., Han, J., Iorio, J., Kim, J., Leung, L.-R., Roads, J., and Zeledon, E.
- Subjects
- *
CLIMATOLOGY , *SIMULATION methods & models , *GREENHOUSE gases , *METEOROLOGICAL precipitation , *CLIMATE change , *TEMPERATURE , *WATER supply , *GASES - Abstract
In this paper, the authors analyze simulations of present and future climates in the western United States performed with four regional climate models (RCMs) nested within two global ocean–atmosphere climate models. The primary goal here is to assess the range of regional climate responses to increased greenhouse gases in available RCM simulations. The four RCMs used different geographical domains, different increased greenhouse gas scenarios for future-climate simulations, and (in some cases) different lateral boundary conditions. For simulations of the present climate, RCM results are compared to observations and to results of the GCM that provided lateral boundary conditions to the RCM. For future-climate (increased greenhouse gas) simulations, RCM results are compared to each other and to results of the driving GCMs. When results are spatially averaged over the western United States, it is found that the results of each RCM closely follow those of the driving GCM in the same region in both present and future climates. This is true even though the study area is in some cases a small fraction of the RCM domain. Precipitation responses predicted by the RCMs in many regions are not statistically significant compared to interannual variability. Where the predicted precipitation responses are statistically significant, they are positive. The models agree that near-surface temperatures will increase, but do not agree on the spatial pattern of this increase. The four RCMs produce very different estimates of water content of snow in the present climate, and of the change in this water content in response to increased greenhouse gases. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
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30. THE CONSISTENCY OF IPCC'S SRES SCENARIOS TO RECENT LITERATURE AND RECENT PROJECTIONS.
- Author
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Van Vuuren, Detlef P. and O'Neill, Brian C.
- Subjects
- *
GREENHOUSE gases , *EMISSIONS (Air pollution) , *CLIMATE change , *AIR pollution , *CARBON dioxide , *SULFUR , *POPULATION , *GROSS domestic product , *CLIMATOLOGY - Abstract
The greenhouse gas emissions scenarios published by the IPCC in the Special Report on Emission Scenarios (SRES) continue to serve as a primary basis for assessing future climate change and possible response strategies. These scenarios were developed between 1996 and 1999 and sufficient time has now passed to make it worth examining their consistency with more recent data and projections. The comparison performed in this paper includes population, GDP, energy use, and emissions of CO2, non-CO2 gases and sulfur. We find the SRES scenarios to be largely consistent with historical data for the 1990-2000 period and with recent projections. Exceptions to this general observation include (1) in the long-term, relatively high population growth assumptions in some regions, particularly in the A2 scenario; (2) in the medium-term, relatively high economic growth assumptions in the LAM (Latin America, Africa and Middle East) region in the A1 scenario; (3) in the short-term, CO2 emissions projections in Al that are somewhat higher than the range of current scenarios; and (4) substantially higher sulfur emissions in some scenarios than in historical data and recent projections. In conclusion, given the relatively small inconsistencies for use as global scenarios there seems to be no immediate need for a large-scale IPCC-led update of the SRES scenarios that is solely based on the SRES scenario performance vis-a-vis data for the 1990-2000 period and/or more recent projections. Based on reported findings, individual research teams could make, and in some cases already have made, useful updates of the scenarios. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
31. Interpreting Estimated Environmental Kuznets Curves for Greenhouse Gases.
- Author
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Kolstad, Charles D.
- Subjects
- *
GREENHOUSE gases , *INCOME , *CARBON , *EMISSIONS (Air pollution) , *AIR pollution , *CLIMATE change , *POLLUTION prevention , *CLIMATOLOGY , *AIR quality - Abstract
This article examines the question of how to interpret a relationship between income and carbon emissions in a country (the environmental kuznets curve [EKCI for carbon). A very simple and graphical structural model of an EKC is developed, and the problems of applying the concept to carbon are discussed. A major issue is the weak link between demand to avoid damage from climate change and regulations limiting greenhouse gas emissions at the country level. The article goes on to interpret three recent papers in this journal in the context of this structural model. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
32. UNFCCC COP 11 and COP/MOP 1 At Last, Some Hope?
- Author
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Schipper, E. Lisa F. and Boyd, Emily
- Subjects
- *
CLIMATE change , *GREENHOUSE gases , *CONFERENCES & conventions , *CONTRACTS , *CLIMATOLOGY , *POLLUTION prevention , *INDUSTRIALIZATION ,DEVELOPING countries ,DEVELOPED countries - Abstract
Since entry into force of the UN Framework Convention on Climate Change (UNFCCC) in 1994, negotiations on controlling future greenhouse gas emissions have turned into one of the largest development issues of our time. In February 2005, the Kyoto Protocol entered into force and 9 months later a historical first meeting of the Kyoto Protocol (COP/MOP 1) was held in Montreal side-by-side with the 11th Conference of the Parties to the UNFCCC (COP 11). After several years of stalemate, the Montreal meeting has resulted somewhat unexpectedly in a constructive outcome that has opened the door for new momentum in climate talks. Along with several key technical decisions, an agreement was reached to hold separate talks to discuss the futures of the UNFCCC and the Kyoto Protocol. This paper discusses the main outcomes of the conference and explores possible ways forward. It concludes that success in the UNFCCC process is imperative to address climate change in both developing and developed countries, even if the most effective actions are taken outside the immediate context of the legal process. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
33. Uncertainties in modelling future hydrological change over West Africa.
- Author
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d’Orgeval, T., Polcher, J., and Li, L.
- Subjects
- *
GREENHOUSE gases , *CLIMATE change , *GLOBAL temperature changes , *RAINFALL anomalies , *CLIMATOLOGY - Abstract
The aim of this paper is to evaluate current knowledge and uncertainties associated with the impact of increasing greenhouse gas and aerosol concentrations on the West African monsoon. For this purpose, coupled and time-slice simulations are used. A global measure of the monsoon changes is defined in order to avoid regional biases and to try and obtain significant results. The position and width of the monsoon in latitude are the main focuses. There is almost no agreement between the Coupled General Circulation models from the Coupled models Inter-Comparison project—Phase II in regard to the impact of climate change on the monsoon. Moreover, very simple discriminations between the models seem inappropriate to get a better signal. The role of the different forcings in time-slice simulations is then investigated. The sea surface temperature (SST) and particularly the pattern of the SST are shown to be the most important forcing. This accounts for the diversity of the results either from the coupled or the forced simulations with different SST changes. With a fixed SST, but of a smaller magnitude in AMJ, there are still uncertainties, coming first from the Atmospheric General Circulation models and the way they balance greenhouse gas and global SST increase. Finally the uncertainty due to the Land Surface models (LSMs) is not negligible. The greenhouse gas and the LSMs are shown to have more impact in August, when the monsoon is at its highest latitude on the continent. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
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34. The Global Warming Debate: A Review of the State of Science.
- Author
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Khandekar, M. L., Murty, T. S., and Chittibabu, P.
- Subjects
- *
GLOBAL warming , *CLIMATOLOGY , *GLOBAL temperature changes , *EARTH temperature , *CLIMATE change , *GREENHOUSE gases - Abstract
A review of the present status of the global warming science is presented in this paper. The term global warming is now popularly used to refer to the recent reported increase in the mean surface temperature of the earth; this increase being attributed to increasing human activity and in particular to the increased concentration of greenhouse gases (carbon dioxide, methane and nitrous oxide) in the atmosphere. Since the mid to late 1980s there has been an intense and often emotional debate on this topic. The various climate change reports (1996, 2001) prepared by the IPCC (Intergovernmental Panel on Climate Change), have provided the scientific framework that ultimately led to the Kyoto protocol on the reduction of greenhouse gas emissions (particularly carbon dioxide) due to the burning of fossil fuels. Numerous peer-reviewed studies reported in recent literature have attempted to verify several of the projections on climate change that have been detailed by the IPCC reports. The global warming debate as presented by the media usually focuses on the increasing mean temperature of the earth, associated extreme weather events and future climate projections of increasing frequency of extreme weather events worldwide. In reality, the climate change issue is considerably more complex than an increase in the earth’s mean temperature and in extreme weather events. Several recent studies have questioned many of the projections of climate change made by the IPCC reports and at present there is an emerging dissenting view of the global warming science which is at odds with the IPCC view of the cause and consequence of global warming. Our review suggests that the dissenting view offered by the skeptics or opponents of global warming appears substantially more credible than the supporting view put forth by the proponents of global warming. Further, the projections of future climate change over the next fifty to one hundred years is based on insufficiently verified climate models and are therefore not considered reliable at this point in time. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
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35. Can Reanalysis Have Anthropogenic Climate Trends without Model Forcing?
- Author
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Cai, Ming and Kalnay, Eugenia
- Subjects
- *
CLIMATOLOGY , *CLIMATE change , *GREENHOUSE gases , *METEOROLOGICAL observations , *ATMOSPHERE , *WEATHER - Abstract
This paper shows analytically that a reanalysis made with a frozen model can detect the warming trend due to an increase of greenhouse gases within the atmosphere at its full strength (at least 95% level) after a short transient (less than 100 analysis cycles). The analytical proof is obtained by taking into consideration the following three possible deficiencies in the model used to create first-guess fields: (i) the physical processes responsible for the observed trend (e.g., an increase of greenhouse gases) are completely absent from the model, (ii) the first-guess fields are affected by an initial drift caused by the imbalance between the model equilibrium and the analysis that contains trends due to the observations, and (iii) the model used in the reanalysis has a constant model bias. The imbalance contributes to a systematic reduction in the reanalysis trend compared to the observations. The analytic derivation herein shows that this systematic reduction can be very small (less than 5%) when the observations are available for twice-daily assimilation. Moreover, the frequent analysis cycle is essential to compensate for the impact due to relatively poor space coverage of the observational network, which effectively yields smaller weights assigned to observations in a global data assimilation system. Other major issues about using reanalysis for a long-term trend analysis, particularly the impact of the major changes in the global observing system that took place in the 1950s and in 1979, are not addressed. Here it is merely proven mathematically that using a frozen model in a reanalysis does not cause significant harm to the fidelity of the long-term trend in the reanalysis. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
36. Detecting and Attributing External Influences on the Climate System: A Review of Recent Advances.
- Author
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Zwiers, Francis
- Subjects
- *
CLIMATOLOGY , *CLIMATE change , *OCEAN temperature , *ATMOSPHERIC circulation , *GREENHOUSE gases , *METEOROLOGY - Abstract
This paper reviews recent research that assesses evidence for the detection of anthropogenic and natural external influences on the climate. Externally driven climate change has been detected by a number of investigators in independent data covering many parts of the climate system, including surface temperature on global and large regional scales, ocean heat content, atmospheric circulation, and variables of the free atmosphere, such as atmospheric temperature and tropopause height. The influence of external forcing is also clearly discernible in reconstructions of hemispheric-scale temperature of the last millennium. These observed climate changes are very unlikely to be due only to natural internal climate variability, and they are consistent with the responses to anthropogenic and natural external forcing of the climate system that are simulated with climate models. The evidence indicates that natural drivers such as solar variability and volcanic activity are at most partially responsible for the large-scale temperature changes observed over the past century, and that a large fraction of the warming over the last 50 yr can be attributed to greenhouse gas increases. Thus, the recent research supports and strengthens the IPCC Third Assessment Report conclusion that “most of the global warming over the past 50 years is likely due to the increase in greenhouse gases.” [ABSTRACT FROM AUTHOR]
- Published
- 2005
37. Evaluation of the impact of climate change on hydrology and water resources in Swaziland: Part I
- Author
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Matondo, Jonathan I., Peter, Graciana, and Msibi, Kenneth M.
- Subjects
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CLIMATE change , *CLIMATOLOGY , *GLOBAL temperature changes , *GLOBAL warming , *GREENHOUSE gases , *WATER supply - Abstract
It has been identified that, long-term climatic changes (Pleistocene ice ages) have been caused by periodic changes in the distribution of incoming solar radiation due to the variations in the earth’s orbital geometry, that is the tilt, precision of equinoxes and eccentricity which take place with periodicity ranging from 41 to 9508 thousand years. However, it has been considered that the major potential mechanism of climate change over the next few hundred years will be anthropogenic green house gas warming up. A number of gases that occur naturally in the atmosphere in small quantities are known as ”greenhouse gases. Water vapour, carbon dioxide, ozone, methane, and nitrous oxide trap solar energy in much the same way as do the glass panes of a greenhouse or a closed automobile. This natural greenhouse gases effect has kept the earth’s atmosphere some 30°C hotter, than it would otherwise be, making it possible for humans to exist on earth. Human activities, however, are now raising the concentrations of these gases in the atmosphere and thus increasing their ability to trap energy. The enhanced greenhouse gas effect is expected to cause high temperature increase globally (1–3.5°C) and this will lead to an increase in precipitation in some regions while other regions will experience reduced precipitation (±20%). The impact of expected climate change will affect almost all the sectors of the human endeavor. However, the major purpose of this project is to evaluate the impact of climate change on hydrology and water resources and establish the appropriate adaptation strategies for Swaziland. The impact of climate change on hydrology and water resources will be evaluated using General Circulation Model results (rainfall, potential evapotranspiration, air temperature, etc.) as inputs to a rainfall runoff model. Water use in all the sectors of the human endeavor will be determined in order to establish the water availability given different climate change scenarios. Three catchments have been selected for this exercise. This paper therefore, presents the background information, objectives and significance of the study, literature review, methodology, data collection and processing. [Copyright &y& Elsevier]
- Published
- 2004
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38. The estimation of historical CO2 trajectories is indeterminate: Comment on “A new look at atmospheric carbon dioxide”
- Author
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Loehle, Craig
- Subjects
- *
ATMOSPHERIC carbon dioxide & the environment , *GREENHOUSE gases , *CLIMATE change , *DATA analysis , *MATHEMATICAL models , *ESTIMATION theory , *CLIMATOLOGY - Abstract
Abstract: A paper by is critiqued. It is shown that their exponential model for characterizing CO2 trajectories for historical data is not estimated properly. An exponential model is properly estimated and is shown to fit over the entire 51 year period of available data. Further, the entire problem of estimating models for the CO2 historical data is shown to be ill-posed because alternate model forms fit the data equally well. To illustrate this point the past 51 years of CO2 data were analyzed using three different time-dependent models that capture the historical pattern of CO2 increase. All three fit with R 2 >0.98, are visually indistinguishable when overlaid, and match each other during the calibration period with R 2 >0.999. Projecting the models forward to 2100, the exponential model comes quite close to the Intergovernmental Panel on Climate Change (IPCC) best estimate of 836ppmv. The other two models project values far below the IPCC low estimates. The problem of characterizing historical CO2 levels is thus indeterminate, because multiple models fit the data equally well but forecast very different future trajectories. [Copyright &y& Elsevier]
- Published
- 2010
- Full Text
- View/download PDF
39. New WPSA Committees Address Major Issues.
- Subjects
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COMMITTEES , *EQUITY (Law) , *CLIMATE change , *GREENHOUSE gases , *CLIMATOLOGY - Abstract
The article offers information related to The WPSA Executive Council that created three new committees to tackle major issues confronting the association and the discipline. Topics discussed includes about two of the committees that have been created to improve access and equity & the third one focuses on the steps the association can take to reduce its contribution to the greenhouse gas emissions that cause climate change.
- Published
- 2022
40. How a global-warming skeptic became famous.
- Author
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Thacker, Paul D.
- Subjects
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BUSINESSMEN , *CLIMATE change , *GREENHOUSE gases , *GLOBAL warming , *CLIMATOLOGY - Abstract
This article presents information about Stephen McIntyre, a semiretired businessman. McIntyre's attack on one climate-change study, known as the hockey stick, got him featured on the front-page of the February 14, 2005, issue of the Wall Street Journal. In June, U.S. Representative Joe Barton demanded that prominent researchers turn over the raw data from the hockey-stick analysis. Researchers criticized the journal and Barton. However scientists look at these events, the success of climate change skeptic McIntyre hints at why the findings of the Intergovernmental Panel on Climate Change report and other mainstream, peer-reviewed global climate studies have failed to persuade the U.S. Congress that action is needed to curb greenhouse gas emissions. McIntyre began his career in climate studies in 2003 when he published a paper in Energy & Environment. McIntyre outlined what they called serious errors in the hockey-stick analysis. McIntyre was flown to Washington, D.C., to brief U.S. business leaders and senators. After this fleeting brush with fame, McIntyre retreated to Canada and began a more aggressive attack on the hockey stick. He launched a blog to attract attention to his research. In early January of 2005, he finally had a paper accepted into a real science journal Geophysical Research Letters. Within weeks of publishing his first study, McIntyre was profiled on the front page of the Wall Street Journal.
- Published
- 2005
41. The Evolution of International Cooperation in Climate Science.
- Author
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Weart, Spencer
- Subjects
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CLIMATOLOGY , *INTERNATIONAL cooperation , *CLIMATE change , *GREENHOUSE gases , *AIR pollution prevention - Abstract
By the very nature of climate, scientists had to study it across national boundaries. Already in the 19th century, meteorologists formed occasional international collaborations and simple coordinating bodies. From the 1950s onward these expanded into ever larger and more elaborately organized global programs involving thousands of experts. The programs chiefly studied daily weather, but when research pointed to the possibility of global warming, it raised scientific questions that could only be addressed through international cooperative studies, and policy questions that required international negotiations. When governments formed the Intergovernmental Panel on Climate Change (IPCC), geoscientists comprised the core group. They imported the principles, mores, and many of the procedures that the scientific community had developed since the 17th century for establishing reliable statements about the world. [ABSTRACT FROM AUTHOR]
- Published
- 2011
42. Sweet spots and fell swoops: Common solutions for clean air, climate control and public health.
- Author
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Woodward, A.
- Subjects
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CLIMATE change , *CLIMATOLOGY , *PUBLIC health , *NATIONAL health services , *GREENHOUSE gases - Abstract
To avoid rapid, high-risk changes in the world's climate, emissions of greenhouse gases must be cut substantially. Moreover, it will be difficult to contain warming to less than 3-4 degrees above pre-industrial levels unless the turnaround in emissions occurs within a decade. In the past, energy transitions of this magnitude have been highly disruptive, resulting in serious environmental damage, increased social inequalities and shortened life expectancy. Are there paths to a low carbon future that can achieve the opposite result -- simultaneous improvements in the quality of the environment and public health? This paper examines the evidence for health-enhancing mitigation of climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2011
43. New Trove of Stolen E-Mails From Climate Scientists.
- Author
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Gillis, Justin and LESLIE KAUFMAN
- Subjects
- *
COMPUTER hackers , *CLIMATOLOGY , *SCIENTISTS , *EMAIL , *CLIMATE change , *THIEVES , *GREENHOUSE gases - Abstract
The anonymous hacker who shook the world of climate science two years ago by posting a trove of stolen e-mails delivered a new batch on Tuesday, stirring up climate-change contrarians a little more than a week before global negotiations on greenhouse gases are to begin in Durban, South Africa. The new e-mails appeared remarkably similar to the ones released two years ago just ahead of a similar conference in Copenhagen. They involved the same scientists and many of the same issues, and some of them carried a similar tone: catty remarks by the scientists, often about papers written by others in the field. [ABSTRACT FROM PUBLISHER]
- Published
- 2011
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