Showing total 316 results

1. Scientists Shower Climate Change Delegates with Paper

Author

Pickrell, John

Published

2001

2. Climate Change Research in View of Bibliometrics.

Author

Haunschild, Robin, Bornmann, Lutz, and Marx, Werner

Subjects

CLIMATE change research, BIBLIOMETRICS, CITATION analysis, BIOMASS, GLOBAL warming

Abstract

This bibliometric study of a large publication set dealing with research on climate change aims at mapping the relevant literature from a bibliometric perspective and presents a multitude of quantitative data: (1) The growth of the overall publication output as well as (2) of some major subfields, (3) the contributing journals and countries as well as their citation impact, and (4) a title word analysis aiming to illustrate the time evolution and relative importance of specific research topics. The study is based on 222,060 papers (articles and reviews only) published between 1980 and 2014. The total number of papers shows a strong increase with a doubling every 5–6 years. Continental biomass related research is the major subfield, closely followed by climate modeling. Research dealing with adaptation, mitigation, risks, and vulnerability of global warming is comparatively small, but their share of papers increased exponentially since 2005. Research on vulnerability and on adaptation published the largest proportion of very important papers (in terms of citation impact). Climate change research has become an issue also for disciplines beyond the natural sciences. The categories Engineering and Social Sciences show the strongest field-specific relative increase. The Journal of Geophysical Research, the Journal of Climate, the Geophysical Research Letters, and Climatic Change appear at the top positions in terms of the total number of papers published. Research on climate change is quantitatively dominated by the USA, followed by the UK, Germany, and Canada. The citation-based indicators exhibit consistently that the UK has produced the largest proportion of high impact papers compared to the other countries (having published more than 10,000 papers). Also, Switzerland, Denmark and also The Netherlands (with a publication output between around 3,000 and 6,000 papers) perform top—the impact of their contributions is on a high level. The title word analysis shows that the term climate change comes forward with time. Furthermore, the term impact arises and points to research dealing with the various effects of climate change. The discussion of the question of human induced climate change towards a clear fact (for the majority of the scientific community) stimulated research on future pathways for adaptation and mitigation. Finally, the term model and related terms prominently appear independent of time, indicating the high relevance of climate modeling. [ABSTRACT FROM AUTHOR]

Published

2016

3. The Arctic Rivers Project: Using an Equitable Co‐Production Framework for Integrating Meaningful Community Engagement and Science to Understand Climate Impacts.

Author

Herman‐Mercer, Nicole, Andre, Alestine, Buschman, Victoria, Blaskey, Dylan, Brooks, Cassandra, Cheng, Yifan, Combs, Evelynn, Cozzetto, Karen, Fitka, Serena, Koch, Joshua, Lawlor, Aine, Moses, Elizabeth, Murray, Emily, Mutter, Edda, Newman, Andrew J., Prince, Charles, Salmon, Patricia, Tlen, Jenessa, Toohey, Ryan, and Williams, Michael

Subjects

CLIMATOLOGY, ARCTIC climate, GLOBAL warming, ADVISORY boards, COMMUNITY involvement, TRADITIONAL knowledge, CLIMATE change, CLASSIFICATION of fish

Abstract

As the Arctic and its rivers continue to warm, a better understanding of the possible future impacts on people would benefit from close partnership with Indigenous communities and scientists from diverse fields of study. We present efforts by the Arctic Rivers Project to conduct community‐engaged research to increase collective understanding of the historical and potential future impacts of climate change on rivers, fish, and Indigenous communities. Working in central to northern Alaska and the Yukon Territory in Canada, the project seeks to engage with Indigenous communities in ethical and equitable ways to produces science that is useful, useable, and used that may serve as an example for future research efforts. Toward this goal, we formed an Indigenous Advisory Council and together developed project‐specific knowledge co‐production protocols. This paper provides a novel model of design and implementation to co‐produce knowledge with communities across a large study domain. Plain Language Summary: The Arctic and rivers located in the Arctic and subarctic are warming due to climate change. To understand the impacts this warming will have on people, partnering with impacted Indigenous communities in the region is important. It is also important that these partnerships are ethical and equitable and produce science that is actionable. This paper discusses efforts undertaken by a specific project, the Arctic Rivers Project, to conduct ethical and equitable research with Indigenous communities and generate science that is useful to those communities. Through this research our goal is to better understand potential future impacts of climate change on rivers, fish, and Indigenous communities in central northern Alaska and the Yukon Territory in Canada. To achieve this goal, the project formed an Indigenous Advisory Council (IAC) and together developed guidelines for how we can work collaboratively with Indigenous communities. Our specific process of forming an IAC and guidelines is, to our knowledge, a new way to approach collaborative research when working across a large geographic area. We present our process here so that it may provide an example for other research efforts. Key Points: Arctic climate information can be made useful, useable, and used by equitably accounting for diverse community adaptation needs through knowledge co‐productionInstitutional and community capacity, including means and ability, is necessary for equitable knowledge co‐production to occurWe present an approach for co‐producing knowledge with Indigenous communities that can serve as an example for other scientific efforts [ABSTRACT FROM AUTHOR]

Published

2023

4. Expert credibility in climate change

Author

Anderegg, William R. L., Prall, James W., Harold, Jacob, and Schneider, Stephen H.

Published

2010

5. Provenance Representation for the National Climate Assessment in the Global Change Information System.

Author

Tilmes, Curt, Fox, Peter, Ma, Xiaogang, McGuinness, Deborah L., Privette, Ana Pinheiro, Smith, Aaron, Waple, Anne, Zednik, Stephan, and Zheng, Jin Guang

Subjects

CLIMATE change, RESEARCH, CLIMATOLOGY, GLOBAL warming, MULTIMEDIA communications

Abstract

The important topic of global climate change builds on a huge collection of scientific research. It is common for agencies releasing climate change information to be served with requests for all supporting materials resulting in a particular conclusion. Capturing and presenting global change provenance, linking to the research papers, data sets, models, analyses, observations, satellites, etc., that support the key research findings in this domain can increase understanding and aid in reproducibility of results and conclusions. The U.S. Global Change Research Program is now coordinating the production of a national climate assessment (NCA) that presents our best understanding of global change. We are now developing a global change information system that will present the content of that report and its provenance, including the scientific support for the findings of the assessment. We are using an approach that will present this information both through a human accessible Web site as well as a machine-readable interface for automated mining of the provenance graph. We plan to use the developing World Wide Web Consortium (W3C) PROV data model and ontology for this system. This paper will describe an overview of the process of developing the NCA and how the provenance trail of the report and each of the technical inputs can be captured and represented using the W3C PROV ontology. This will improve the visibility into the assessment process, increase understanding and possibility of reproducibility, and ultimately increase the credibility and trust of the resulting report. [ABSTRACT FROM AUTHOR]

Published

2013

6. WEATHER AND CLIMATE EXTREMES IN LIGHT OF THE IPCC SREX (2011) AND BEYOND.

Author

MIKA, JÁNOS

Subjects

WEATHER, CLIMATOLOGY, METEOROLOGY, NATURAL disasters, CLIMATE change, GLOBAL warming

Abstract

The recent IPCC Special Report (IPCC SREX, 2011) provides a comprehensive overview of meteorological (i.e. weather and climate) extremes and their various aspects. The present paper reflects the core concepts of the Report, clarifying the relations of the natural and anthropogenic factors causing meteorological extremes, as well, as condition determining the risks and general ways of response by the society. The paper can only add some recent statistics to this scheme on various aspects of meteorological and non-meteorological reasons of natural disasters. The paper argues, however, the still unclear definition of the extremes and their classification as weather and climate extremes. We also dedicate a sub-Section to the statistical and physical considerations on how the extremes may change parallel to the global warming. Another sub-Section refers to further difficulties that hamper the empirical establishment of the trends in the meteorological extremes. Finally we overview the IPCC AR4 (2007) conclusions on some meteorological extremes, since the detailed Chapters of the IPCC SREX (2011) Report were not available by the time of writing the paper, but from its SPM no difference in the statements and even its uncertainties can be established since the AR4. [ABSTRACT FROM AUTHOR]

Published

2012

7. Mitigating global warming: a real options approach.

Author

Chesney, Marc, Lasserre, Pierre, and Troja, Bruno

Subjects

GLOBAL warming, CLIMATE change, GROSS domestic product, CLIMATOLOGY, GROSS national product

Abstract

Mitigation and adaptation represent two solutions to the issue of global warming. While mitigation aims at reducing $$\hbox {CO}_2$$ emissions and preventing climate change, adaptation encompasses a broad scope of techniques used to reduce the impacts of climate change once they have occurred. Both have direct costs on a country's gross domestic product, but costs also arise from temperature increases due to inaction. This paper introduces a tipping point in a real options model and analyzes optimal investment choices in mitigation and their timing. [ABSTRACT FROM AUTHOR]

Published

2017

8. Insulated Wall Systems to Tackle Global Warming.

Author

Saha, Swapan S. and Tam, Vivian W. Y.

Subjects

GLOBAL warming, CLIMATOLOGY, GLOBAL temperature changes, HOUSEHOLDS, HOUSING

Abstract

BRIEF INTRODUCTION TO THE PROBLEM: THE GROWING AWARENESS OF CLIMATE CHANGE AND ITS LINK TO CARBON DIOXIDE EMISSIONS HAVE CAUSED CONCERNS IN THE COMMUNITY. A substantial amount of carbon dioxide emitted is due to the energy consumed by residential households. Heating/cooling of a residential house consumes a large proportion of the total household energy. Purpose: This paper explores the concept by comparing thermal efficiency of the four most common external wall structures, with varying amounts of insulation added in the context of Sydney, Australia. Design/methodology/approach: Cost and thermal analysis for each wall type are calculated. Life cycle cost saving and payback period are then evaluated. Findings: It is found that up to 95.7% cost saving can be achieved in heating/cooling in comparing the use of insulated wall systems and air film. Cement sheet wall system is found to be the most cost effective wall system for insulation with minimum 50% of cost saving can be achieved. The results also identify substantial energy cost required for heating/cooling a house without insulation when the climate gets extreme. The payback period for the installation of the insulated wall systems can be achieved in 4.98 years for normal climate condition or 2.58 years for extreme climate condition. Practical implications: The community is currently at great risk of being unable to deal with climate change issue as not clear the effective use of insulated wall systems. This paper can help provide insight and suggestions for residential households in tackling global warming issue. [ABSTRACT FROM AUTHOR]

Published

2012

9. ANALYSIS OF FREQUENCY TRENDS IN AMALGAMATED PECZELY MACRO-SYNOPTIC TYPES (1971-2020) CHARACTERISING CONTINENTAL-SCALE CIRCULATION PARALLEL TO THE GLOBAL WARMING.

Author

MIKA, János, KÁROSSY, Csaba, and LAKATOS, László

Subjects

GLOBAL warming, CLIMATE change, TREND analysis, METEOROLOGY, CLIMATOLOGY

Abstract

Macro-synoptic classification, based on spatial fields of sea-level pressure often meet application in applied climatology, weather forecasting and in air-pollution meteorology. One of these classifications was defined by Peczely (1957), establishing 13 original classes influencing actual weather in Hungary. These types, however, are of local concern and not appropriate for diagnostic analysis of continent-scale modification of circulation, related to the on-going global climate change. In the present study, new continent-scale circulation types are defined, based on frequent transition between the original circulation types, two cyclonic (Atlantic and Mediterranean) and two anticyclonic (Northward and Central-Southward) groups are defined, joining 3x3 and 1x4 original circulation types. Frequency trends of these amalgamated circulation types are established in the recent 50 years during which period a monotonical warming trend could be established in the mean near-surface temperature of the Northern Hemisphere. An important feature of these circulation trends is that the significant trends of the amalgamated types are of the same sign in all cases, although the signs of the trends are different for the different amalgamated types. Comparison of these significant 50-year trends with those derived from two 30 years periods, however, this comparison suggests that there is no simple universal relationship between the continent-scale circulation and the hemispherical mean temperature. [ABSTRACT FROM AUTHOR]

Published

2023

10. International Year of Planet Earth: four reports on status and trends.

Author

Simonis, Udo E.

Subjects

CLIMATE change, GLOBAL temperature changes, CLIMATOLOGY, ATMOSPHERIC temperature, GLOBAL warming, ENVIRONMENTAL degradation, ANTHROPOGENIC effects on nature, ENVIRONMENTAL quality, ENVIRONMENTAL deficit

Abstract

Purpose — In 2007, the issues of global and climate change in particular, have become major issues in the social psyche. With the United Nations declaring 2008 the "International Year of Planet Earth", this; paper aims to look at four recent reports and comments on how the reports aim to deal with the climate and global change challenges ahead. Design/methodology/approach — After a brief introduction to the subject, this paper looks at each of the four reports in turn. It describes the methodology of each report and then discusses its relative strengths and weaknesses. This is followed by a conclusion on the reports as a whole and where policy makers can make improvements. Findings — All four reports are well structured and they have certainly raised the profile and illustrated the importance of global and climate change. However, there are a number of ways each could and should be improved in future updates. Practical implications — This paper aims to bring the reports to a wider audience and make recommendations on improvements to future reports on these important global issues. Originality/value — The paper evaluates four recent reports on the important social issues of global, change and climate change. By comparing and contrasting the reports, the paper gives an overview 01 what some of the larger policy makers are doing to tackle global and climate change. The paper also makes recommendations for improvements to the reports. [ABSTRACT FROM AUTHOR]

Published

2008

11. The role of risk preferences and loss aversion in farmers' energy-efficient appliance use behavior.

Author

He, Rui, Jin, Jianjun, Gong, Haozhou, and Tian, Yuhong

Subjects

*CLIMATE change, *CLIMATOLOGY, *GLOBAL warming, *ECOLOGICAL regime shifts, *TELECONNECTIONS (Climatology)

Abstract

Abstract Improving rural household energy efficiency is an important policy issue for climate change mitigation in China. A better understanding of the factors affecting farmers' energy-efficient appliance use behavior can help policymakers design more effective policies. This paper explores the effect of farmers' risk preferences and loss aversion on their energy-efficient appliance use behavior in rural China. Using unique data from a survey and a paired lottery experiment completed by 235 rural household heads in the Dazu District of China, this study finds that the farmers' risk preferences and loss aversion have significant effects on their energy-efficient appliance use behavior. The more risk-averse farmers are less likely to buy or use energy-efficient appliances. The farmers who are more loss averse are more willing to purchase and more likely to use durable energy-efficient appliances. In addition, the farmers' demographic factors (age, gender, education, and family location), their perceptions of climate change adaptation and their trust attitudes have significant effects on their energy-efficient appliance use behavior. This paper contributes to the emerging literature that relates risk preferences and loss aversion in experiments to farmers' energy-efficient appliance use behavior. Highlights • The analysis is based on a unique data set combining a survey and economic experiments. • The average response of our sample is risk averse and loss averse. • The more risk-averse farmers are less likely to use energy-efficient appliances. • The more loss-averse farmers are more willing to use durable energy-efficient appliances. • Farmers' socioeconomic status and trust attitudes affect their use behavior. [ABSTRACT FROM AUTHOR]

Published

2019

12. A systematic review of empirical methods for modelling sectoral carbon emissions in China.

Author

Huang, Li, Kelly, Scott, Lv, Kangjuan, and Giurco, Damien

Subjects

*CLIMATE change, *CLIMATOLOGY, *GLOBAL warming, *ECOLOGICAL regime shifts, *TELECONNECTIONS (Climatology)

Abstract

Abstract: A number of empirical methods have been developed to study China's sectoral carbon emissions (CSCE). Measuring these emissions is important for climate change mitigation. While several articles have reviewed specific methods, few attempts conduct a systematic analysis of all the major research methods. In total 807 papers were published on CSCE research between 1997 and 2017. The primary source of literature for this analysis was taken from the Web of Science database. Based on a bibliometric analysis using knowledge mapping with the software CiteSpace, the review identified five common families of methods: 1) environmentally-extended input-output analysis (EE-IOA), 2) index decomposition analysis (IDA), 3) econometrics, 4) carbon emission control efficiency evaluation and 5) simulation. The research revealed the main trends in each family of methods and has visualized this research into ten research clusters. In addition, the paper provides a direct comparison of all methods. The research results can help scholars quickly identify and compare different methods for addressing specific research questions. [ABSTRACT FROM AUTHOR]

Published

2019

13. Recent Third Pole's Rapid Warming Accompanies Cryospheric Melt and Water Cycle Intensification and Interactions between Monsoon and Environment: Multidisciplinary Approach with Observations, Modeling, and Analysis.

Author

Yao, Tandong, Xue, Yongkang, Chen, Deliang, Chen, Fahu, Thompson, Lonnie, Cui, Peng, Koike, Toshio, Lau, William K.-M., Lettenmaier, Dennis, Mosbrugger, Volker, Zhang, Renhe, Xu, Baiqing, Dozier, Jeff, Gillespie, Thomas, Gu, Yu, Kang, Shichang, Piao, Shilong, Sugimoto, Shiori, Ueno, Kenichi, and Wang, Lei

Subjects

GLOBAL warming, CLIMATOLOGY, CLIMATE change, REMOTE sensing, METEOROLOGICAL precipitation

Abstract

The Third Pole (TP) is experiencing rapid warming and is currently in its warmest period in the past 2,000 years. This paper reviews the latest development in multidisciplinary TP research associated with this warming. The rapid warming facilitates intense and broad glacier melt over most of the TP, although some glaciers in the northwest are advancing. By heating the atmosphere and reducing snow/ice albedo, aerosols also contribute to the glaciers melting. Glacier melt is accompanied by lake expansion and intensification of the water cycle over the TP. Precipitation has increased over the eastern and northwestern TP. Meanwhile, the TP is greening and most regions are experiencing advancing phenological trends, although over the southwest there is a spring phenological delay mainly in response to the recent decline in spring precipitation. Atmospheric and terrestrial thermal and dynamical processes over the TP affect the Asian monsoon at different scales. Recent evidence indicates substantial roles that mesoscale convective systems play in the TP's precipitation as well as an association between soil moisture anomalies in the TP and the Indian monsoon. Moreover, an increase in geohazard events has been associated with recent environmental changes, some of which have had catastrophic consequences caused by glacial lake outbursts and landslides. Active debris flows are growing in both frequency of occurrences and spatial scale. Meanwhile, new types of disasters, such as the twin ice avalanches in Ali in 2016, are now appearing in the region. Adaptation and mitigation measures should be taken to help societies' preparation for future environmental challenges. Some key issues for future TP studies are also discussed. [ABSTRACT FROM AUTHOR]

Published

2019

14. Combining XCO2 Measurements Derived from SCIAMACHY and GOSAT for Potentially Generating Global CO2 Maps with High Spatiotemporal Resolution.

Author

Wang, Tianxing, Shi, Jiancheng, Jing, Yingying, Zhao, Tianjie, Ji, Dabin, and Xiong, Chuan

Subjects

GLOBAL warming, ATMOSPHERIC carbon dioxide, SPATIO-temporal variation, CLOUDS, CLIMATOLOGY

Abstract

Global warming induced by atmospheric CO2 has attracted increasing attention of researchers all over the world. Although space-based technology provides the ability to map atmospheric CO2 globally, the number of valid CO2 measurements is generally limited for certain instruments owing to the presence of clouds, which in turn constrain the studies of global CO2 sources and sinks. Thus, it is a potentially promising work to combine the currently available CO2 measurements. In this study, a strategy for fusing SCIAMACHY and GOSAT CO2 measurements is proposed by fully considering the CO2 global bias, averaging kernel, and spatiotemporal variations as well as the CO2 retrieval errors. Based on this method, a global CO2 map with certain UTC time can also be generated by employing the pattern of the CO2 daily cycle reflected by Carbon Tracker (CT) data. The results reveal that relative to GOSAT, the global spatial coverage of the combined CO2 map increased by 41.3% and 47.7% on a daily and monthly scale, respectively, and even higher when compared with that relative to SCIAMACHY. The findings in this paper prove the effectiveness of the combination method in supporting the generation of global full-coverage XCO2 maps with higher temporal and spatial sampling by jointly using these two space-based XCO2 datasets. [ABSTRACT FROM AUTHOR]

Published

2014

15. Climate change and the mitigating tool of salvage archaeology: The case of the Fort Kongensten site at Ada Foah, Ghana.

Author

Aryee, Victoria A. and Apoh, Wazi

Subjects

CLIMATE change, CLIMATOLOGY, GLOBAL warming

Abstract

In the ongoing attempts at lessening the hydra-headed impacts of climate change, this paper explored the strategic use of salvage archaeology in the scientific retrieval and documentation of heritage remains and sites under the threat of climate change. In doing so, the research examined the effects of climate change and global warming on coastal heritage resources. Specifically, in Ghana, sea levels have been steadily rising over the centuries leading to the erosion of coastlines and the submergence of historic coastal settlements to about 110 metres inland. A historic Danish Fort Kongensten constructed in 1783 along the coast of Ada-Foah in Ghana, for example, has been totally eroded away by the rising sea water. This paper assesses how salvage archaeology was used to retrieve, document and conserve cultural materials associated with the fort. It also explored the extent to which salvage archaeology and anthropology can be used as tools in climate change mitigation projects in impacted zones. [ABSTRACT FROM AUTHOR]

Published

2018

16. The long-range correlation and evolution law of centennial-scale temperatures in Northeast China.

Author

Zheng, Xiaohui, Lian, Yi, and Wang, Qiguang

Subjects

CLIMATE change, PALEOCLIMATOLOGY, PRECIPITATION variability, RAINFALL anomalies, GLOBAL warming

Abstract

This paper applies the detrended fluctuation analysis (DFA) method to investigate the long-range correlation of monthly mean temperatures from three typical measurement stations at Harbin, Changchun, and Shenyang in Northeast China from 1909 to 2014. The results reveal the memory characteristics of the climate system in this region. By comparing the temperatures from different time periods and investigating the variations of its scaling exponents at the three stations during these different time periods, we found that the monthly mean temperature has long-range correlation, which indicates that the temperature in Northeast China has long-term memory and good predictability. The monthly time series of temperatures over the past 106 years also shows good long-range correlation characteristics. These characteristics are also obviously observed in the annual mean temperature time series. Finally, we separated the centennial-length temperature time series into two time periods. These results reveal that the long-range correlations at the Harbin station over these two time periods have large variations, whereas no obvious variations are observed at the other two stations. This indicates that warming affects the regional climate system’s predictability differently at different time periods. The research results can provide a quantitative reference point for regional climate predictability assessment and future climate model evaluation. [ABSTRACT FROM AUTHOR]

Published

2018

17. Renewable policies and challenges by 2020 in Greece: A questionnaire survey.

Author

Bitzenis, A., Kontakos, P., and Kafteranis, C.

Subjects

RENEWABLE energy sources, NATURAL resources, CLIMATOLOGY, CLIMATE change, GLOBAL warming

Abstract

In a notable change from the position in the past, the Greek government took steps to commit itself to greening the economy and determining policies and actions to boost the utilization of renewable energy. The aim of the paper is, firstly, to present the latest developments on the renewable energy policy in Greece, the current achievements and impediments to the implementation of planned reforms in the accomplishment of its 2020 targets, and the specific policy measures introduced; secondly, to discuss the pace of respective developments in other EU-28 member countries; thirdly, to verify the achievements of the government towards reversing previous bureaucratic, prone-to corruption procedures through a questionnaire survey and stratified interviews with market participants. Research survey results from our survey and interviews conducted in the second semester of 2014 are respectively presented. The majority of respondents expect to see the targets set in the National Renewable Energy Action Plan reached by 2020. The paper and questionnaire survey have been conducted under the auspices of the European research program THALES, aiming to measure various aspects of the shadow economy and the areas of renewable energy trade and finance in Greece. [ABSTRACT FROM AUTHOR]

Published

2018

18. The Relationship between Changes in Hydro-Climate Factors and Maize Crop Production in the Equatorial African Region from 1980 to 2021.

Author

Nooni, Isaac Kwesi, Ogou, Faustin Katchele, Hagan, Daniel Fiifi Tawiah, Saidou Chaibou, Abdoul Aziz, Prempeh, Nana Agyemang, Nakoty, Francis Mawuli, Jin, Zhongfang, and Lu, Jiao

Subjects

CORN, DRY farming, AGRICULTURAL productivity, CLIMATE change adaptation, GLOBAL warming, GOVERNMENT policy on climate change, PEARSON correlation (Statistics)

Abstract

Agricultural production across the African continent is subjected to various effects of climate variability. One of the main staple foods in Sub-Saharan Africa is maize. However, limited scientific research has recently focused on understanding the possible effects of hydro-climatic variability on maize production. The aim of the present work was to contribute to policy and climate adaptation, thus reducing the vulnerability of maize production to climate change over Equatorial Africa. This study firstly examined long-term trends of precipitation (PRE), soil moisture (SM), actual evapotranspiration (E), and potential evapotranspiration (Ep), as well as surface air temperatures, including the minimum (TMIN) and maximum (TMAX). Secondly, the relationship between maize production and these climate variables was quantified for 18 Equatorial African countries (EQCs) over 1980−2021. To assess the linear trends, Mann–Kendall and Sen's slope tests were used to quantify the magnitude of the hydro-climatic variable trends at the 5% significance level, and Pearson's correlation coefficient was used to evaluate the relation of these climate parameters with the maize production. The annual mean PRE declined at 0.03 mm day−110a−1. Other climate variables increased at different rates: SM at 0.02 mmday−110a−1, E at 0.03 mm day−110a−1, Ep at 0.02 mm day−1 10a−1, TMIN and TMAX at 0.01 °C day−110a−1. A regional analysis revealed heterogeneous significant wet–dry and warm–cool trends over the EQCs. While, spatially, dry and warm climates were observed in the central to eastern areas, wet and warm conditions dominated the western regions. Generally, the correlations of maize production with the E, Ep, TMAX, and TMIN were strong (r > 0.7) and positive, while moderate (r > 0.45) correlations of maize production with PRE and SM were obvious. These country-wide analyses highlight the significance of climate change policies and offer a scientific basis for designing tailored adaptation strategies in rainfed agricultural regions. [ABSTRACT FROM AUTHOR]

Published

2024

19. Comparison of Simulated Trends of Regional Climate Change in the Carpathian Basin for the 21st Century Using Three Different Emission Scenarios.

Author

Pieczka, Ildikó, Pongrácz, Rita, and Bartholy, Judit

Subjects

CLIMATE change, ECONOMIC trends, TEMPERATURE, GLOBAL warming, CLIMATOLOGY

Abstract

Copyright of Acta Silvatica et Lignaria Hungarica is the property of Sciendo and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

20. On the Variability of the Global Net Radiative Energy Balance of the Nonequilibrium Earth.

Author

HARRIES, JOHN E. and BELOTTI, CLAUDIO

Subjects

CLIMATE change, ATMOSPHERE, RADIATION measurement instruments, CLIMATOLOGY, ACCLIMATIZATION, GLOBAL warming, HEAT storage

Abstract

Recent observations and model studies of the earth’s radiative energy balance have focused attention on the earth’s top of atmosphere (TOA) energy balance. This is the balance between the shortwave energy absorbed by the earth, which is represented by a spatially and temporally averaged absorbed flux , and the emitted longwave energy, which is represented by the corresponding averaged emitted flux . The TOA average net flux FN is defined as the difference between the two over the averaged area and time, which may be a local, regional, or global average. A global nonzero net flux represents a measure of imbalance between the energy being absorbed and emitted by the earth for the time interval in question. It is of interest to ask what the natural variability of the net flux might be and whether, during times of climate change, signals of important climate change processes might be detected against this natural background variation; examples of these signals include evidence of ocean heat storage, the effects of El Niño, and the radiative effects of volcanic eruptions. In this paper, the authors review the significance of the net flux, survey the observational evidence from a range of satellite instruments over several decades, and analyze some of the most recent observations from the Clouds and the Earth’s Radiant Energy System (CERES) program to determine what signals and what natural variability might be expected in the TOA net flux. Based on this analysis, the use of broadband radiation measurements for global climate change studies can be assessed. [ABSTRACT FROM AUTHOR]

Published

2010

21. Factors influencing the disclosure of greenhouse gas emissions in companies world-wide.

Author

Prado-Lorenzo, José-Manuel, Rodríguez-Domínguez, Luis, Gallego-Alvarez, Isabel, and García-Sánchez, Isabel-María

Subjects

DISCLOSURE, GREENHOUSE gas mitigation, EMISSION control, SOCIAL responsibility of business, ENVIRONMENTAL management, CLIMATE change, ENVIRONMENTAL risk assessment, UNITED Nations Framework Convention on Climate Change (1992). Protocols, etc., 1997 December 11, REGRESSION analysis

Abstract

Purpose - The purpose of this study is to analyse different factors behind the disclosure of corporate information on issues related to greenhouse gas emissions and climate change world-wide. Design/methodology/approach - The empirical analysis carried out was performed in two stages: analysis of the data obtained through content analysis and analysis of the factors that influence the disclosure of greenhouse gas emissions and climate change using a dependency model, a multiple linear regression. Several variables were introduced to represent the size of the companies, leverage, return on assets (ROA), return on equity (ROE) and Market-to-Book ratio. Also, other dummy variables have been incorporated: Kyoto Protocol, activity sector in which the company operates and inclusion in the Dow Jones Sustainability Index. Findings - The results obtained show a direct relationship between corporate size, its market capitalization and the disclosure of information in addition to proposed Global Reporting Initiative (GRI) indicators on greenhouse gas emissions. Conversely, an inverse relationship between ROE and disclosure is detected. Practical implications - The findings emphasize that the main quoted companies operating in industries related to greenhouse gas emissions typically reveal information on almost all the GRI core indicators as well as the additional items specifically proposed for this issue. Moreover, the results suggest a trend for companies to utilize information on greenhouse gas emissions as a mechanism that enables them to legitimise themselves with those groups that can be of benefit to them. Originality/value - The paper has analysed the disclosure of greenhouse gas emissions and other information of importance to climate change in companies from different countries, some of which have ratified, approved, adhered to or accepted the Kyoto Protocol, and some of which have still not accepted it. [ABSTRACT FROM AUTHOR]

Published

2009

22. The Spatiotemporal Structure of Twentieth-Century Climate Variations in Observations and Reanalyses. Part I: Long-Term Trend.

Author

Junye Chen, Del Genio, Anthony D., Carlson, Barbara E., and Bosilovich, Michael G.

Subjects

CLIMATOLOGY, CLIMATE change, GLOBAL warming, PACIFIC Ocean currents, GLOBAL temperature changes, TEMPERATURE, ATMOSPHERIC water vapor, EL Nino

Abstract

The dominant interannual El Niño–Southern Oscillation (ENSO) phenomenon and the short length of climate observation records make it difficult to study long-term climate variations in the spatiotemporal domain. Based on the fact that the ENSO signal spreads to remote regions and induces delayed climate variation through atmospheric teleconnections, an ENSO-removal method is developed through which the ENSO signal can be approximately removed at the grid box level from the spatiotemporal field of a climate parameter. After this signal is removed, long-term climate variations are isolated at mid- and low latitudes in the climate parameter fields from observed and reanalysis datasets. This paper addresses the long-term global warming trend (GW); a companion paper concentrates on Pacific pan-decadal variability (PDV). The warming that occurs in the Pacific basin (approximately 0.4 K in the twentieth century) is much weaker than in surrounding regions and the other two ocean basins (approximately 0.8 K). The modest warming in the Pacific basin is likely due to its dynamic nature on the interannual and decadal time scales and/or the leakage of upper ocean water through the Indonesian Throughflow. Based on the National Centers for Environmental Prediction–National Center for Atmospheric Research (NCEP–NCAR) and the 40-yr European Centre for Medium-Range Weather Forecasts (ECMWF) Re-Analysis (ERA-40), a comprehensive atmospheric structure associated with the GW trend is given. Significant discrepancies exist between the two datasets, especially in the tightly coupled dynamics and water vapor fields. The dynamics fields based on NCEP–NCAR, which show a change in the Walker Circulation, are consistent with the GW change in the surface temperature field. However, intensification in the Hadley Circulation is associated with GW trend in ERA-40 instead. [ABSTRACT FROM AUTHOR]

Published

2008

23. Priorities, policies and (time)scales: the delivery of emissions reductions in the UK transport sector.

Author

Anable, Jillian and Shaw, Jon

Subjects

AIR pollution, CLIMATE change, GLOBAL temperature changes, EMISSION control, CLIMATOLOGY, TRANSPORTATION, GOVERNMENT policy, CARBON dioxide mitigation, GLOBAL warming

Abstract

The transport sector is consistently responsible for around 30 per cent of carbon dioxide emissions in developed countries and is one of few sectors where emissions continue to increase as a result of apparently insatiable demand for road and air travel. This paper examines how the formulation of transport policy fits into the exposition of UK climate policy, focusing on three principal areas of tension: policy priority (congestion and carbon reduction); strategies to reduce emissions (technological and behavioural solutions) and timescale (short- and long-term vision). We suggest that in overcoming such tensions government ministers will need to devolve significant policy formulation and implementation powers to an appropriate scale of governance – in this case the city-region – to fashion a ‘convergence space’ capable of promoting meaningful action with regard to transport's climate impact. [ABSTRACT FROM AUTHOR]

Published

2007

24. Exploring the Sensitivity of the Australian Climate to Regional Land-Cover-Change Scenarios under Increasing CO2 Concentrations and Warmer Temperatures.

Author

Narisma, G. T. and Pitman, A. J.

Subjects

CLIMATE change, REFORESTATION, CLIMATOLOGY, TEMPERATURE, GLOBAL warming

Abstract

The potential role of the impacts of land-cover changes (LCCs) in the Australian climate is investigated within the context of increasing CO2 concentrations and temperature. Specifically, it is explored if possible scenarios for LCC can moderate or amplify CO2-induced changes in climate over Australia. The January climate of Australia is simulated under three different land-cover-change scenarios using a high-resolution regional climate model. The land-cover-change scenarios include a steady-state land cover that is equivalent to current land cover, a low-reforestation scenario that recovers approximately 25% of the trees replaced by grasslands within the last 200 yr, and a high-reforestation scenario that recovers at least 75% of the deforested regions. The model was driven by boundary conditions taken from transitory climate simulations from a general circulation model that included two climate scenarios based on two projected scenarios of CO2 concentration increase. The results show that reforestation has the potential to reduce the projected increase in Australian temperatures in 2050 and 2100 by as much as 40% and 20%, respectively. This cooling effect, however, is highly localized and occurs only in regions of reforestation. The results therefore hint that the potential of reforestation to moderate the impact of global warming may be significantly limited by the spatial scale of reforestation. In terms of deforestation, results show that any future land clearing can exacerbate the projected warming in certain regions of Australia. Carbon-related variables are also analyzed and results show that changes in net CO2 flux may be influenced more by soil respiration than by photosynthesis. The results herein encourage studies on the inclusion of land-cover-change scenarios in future climate change projection simulations of the Australian climate. [ABSTRACT FROM AUTHOR]

Published

2006

25. A Comparison of the Influence of Additive and Multiplicative Stochastic Forcing on a Coupled Model of ENSO.

Author

Perez, Cristina L., Moore, Andrew M., Zavala-Garay, Javier, and Kleeman, Richard

Subjects

ATMOSPHERIC pressure, CLIMATOLOGY, METEOROLOGY, OCEAN-atmosphere interaction, GLOBAL warming, ATMOSPHERIC temperature, CLIMATE change, METEOROLOGICAL precipitation, PROBABILITY theory, DISTRIBUTION (Probability theory)

Abstract

A currently popular idea is that El Niño–Southern Oscillation (ENSO) can be viewed as a linear deterministic system forced by noise representing processes with periods shorter than ENSO. Also, there is observational evidence to suggest that the Madden–Julian oscillation (MJO) acts to trigger and/or amplify the warm phase of ENSO in this way. The feedback of the slower process, ENSO, to higher-frequency atmospheric phenomena, of which a large part of the variability in the intraseasonal band is due to the MJO, has received little attention. This paper considers the hypothesis that the probability of an El Niño event is modified by high MJO activity and that, in turn, the MJO is regulated by ENSO activity. If this is indeed the case, then viewing ENSO as a low-frequency oscillation forced by additive stochastic noise would not present a complete picture. This paper tests the above hypothesis using a stochastically forced intermediate coupled model by allowing ENSO to directly influence the stochastic forcing. The model response to a variety of stochastic forcing types is found to be sensitive to the type of forcing applied. When the model is operated beyond its intrinsic Hopf bifurcation, its probability distribution function (PDF) is fundamentally altered when the stochastic forcing is changed from additive to multiplicative. The model integration period also influences the shape of the PDF, which is also compared to the PDF derived from observations. It is found that multiplicative stochastic forcing reproduces some measures of the observations better than the additive stochastic forcing. [ABSTRACT FROM AUTHOR]

Published

2005

26. The Okanagan Highlands: Eocene biota, environments, and geological setting, southern British Columbia, Canada and northeastern Washington, USA.

Author

Archibald, S. Bruce and Greenwood, David R.

Subjects

CLIMATE change, CLIMATOLOGY, SCIENTISTS, LANDSCAPES, GLOBAL warming, GREENHOUSE effect

Abstract

Copyright of Canadian Journal of Earth Sciences is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2005

27. Inter-annual variability and trends of the frost-free season characteristics over Central and Southeast Europe in 1950-2019.

Author

CHERVENKOV, Hristo and SLAVOV, Kiril

Subjects

ATMOSPHERIC temperature, SEASONS, PLANT phenology, CROP yields, CLIMATOLOGY, GLOBAL warming

Abstract

Agriculture and forestry are two economic sectors most dependent on climate, and climate change has a direct and indirect impact on biotic and abiotic disturbances with strong implications. The air temperature is one of the major environmental factors affecting growth, development, and yields of crops. Despite the undeniable global warming, damage to crops by frost and freezing temperatures causes serious loss to farmers in many parts of the world. The frostfree season has a large influence on plant phenology, with implications for the distribution of natural vegetation and the types of crops grown in a particular region. The present study is dedicated to the climatology of the frost-free season over Central and Southeast Europe in the second half of the previous and the first two decades of this century. The climatology of the frost-free season is characterized by three indicators, namely the date of the last spring frost, the date of the first autumn frost, and the length of the frost-free season. Additionally, the middle date of the frost-free season as measure of the seasonal shift is analysed. The study, which is performed for the thresholds of -2.2 °C and 0 °C, reveals non-negligible lengthening of the frost-free season, associated primarily with an earlier date of last spring frost rather than a delayed date of first autumn frost. [ABSTRACT FROM AUTHOR]

Published

2022

28. Cluster Analysis of Monthly Precipitation over the Western Maritime Continent under Climate Change.

Author

Singh, Saurabh K., Yat-Man Lo, Edmond, and Xiaosheng Qin

Subjects

CLIMATE change, PRECIPITATION anomalies, GEOLOGY & climate, CLIMATOLOGY, GLOBAL warming

Abstract

Changes in climate because of global warming during the 20th and 21st centuries have a direct impact on the hydrological cycle as driven by precipitation. However, studying precipitation over the Western Maritime Continent (WMC) is a great challenge, as the WMC has a complex topography and weather system. Understanding changes in precipitation patterns and their groupings is an important aspect of planning mitigation measures to minimize flood and drought risk as well as of understanding the redistribution of precipitation arising from climate change. This paper employs Ward's hierarchical clustering on regional climate model (RCM)-simulated monthly precipitation gridded data over 42 approximately evenly distributed grid stations from the years 2030 to 2060. The aim was to investigate spatial and temporal groupings over the four major landmasses in the WMC and to compare these with historical precipitation groupings. The results showed that the four large-scale islands of Java, Sumatra, Peninsular Malaysia and Borneo would experience a significant spatial redistribution of precipitation over the years 2030 to 2060, as compared to historical patterns from 1980 to 2005. The spatial groups were also compared for two future forcing scenarios, representative concentration pathways (RCPs) 4.5 and 8.5, and different groupings over the Borneo region were observed. [ABSTRACT FROM AUTHOR]

Published

2017

29. Changes of the Tropical Tropopause Layer under Global Warming.

Author

Lin, Pu, Paynter, David, Ming, Yi, and Ramaswamy, V.

Subjects

TROPOPAUSE, CARBON dioxide, GLOBAL warming, CLIMATE change, CLIMATOLOGY, CONVECTION (Meteorology)

Abstract

This paper investigates changes in the tropical tropopause layer (TTL) in response to carbon dioxide increase and surface warming separately in an atmospheric general circulation model, finding that both effects lead to a warmer tropical tropopause. Surface warming also results in an upward shift of the tropopause. A detailed heat budget analysis is performed to quantify the contributions from different radiative and dynamic processes to changes in the TTL temperature. When carbon dioxide increases with fixed surface temperature, a warmer TTL mainly results from the direct radiative effect of carbon dioxide increase. With surface warming, the largest contribution to the TTL warming comes from the radiative effect of the warmer troposphere, which is partly canceled by the radiative effect of the moistening at the TTL. Strengthening of the stratospheric circulation following surface warming cools the lower stratosphere dynamically and radiatively via changes in ozone. These two effects are of comparable magnitudes. This circulation change is the main cause of temperature changes near 63 hPa but is weak near 100 hPa. Contributions from changes in convection and clouds are also quantified. These results illustrate the heat budget analysis as a useful tool to disentangle the radiative-dynamical-chemical-convective coupling at the TTL and to facilitate an understanding of intermodel difference. [ABSTRACT FROM AUTHOR]

Published

2017

30. Weather extremes over Europe under 1.5 °C and 2.0 °C global warming from HAPPI regional climate ensemble simulations.

Author

Sieck, Kevin, Nam, Christine, Bouwer, Laurens M., Rechid, Diana, and Jacob, Daniela

Subjects

*GLOBAL warming, *WEATHER & climate change, *WEATHER, *CLIMATOLOGY, *ATMOSPHERIC models, *CLIMATE change

Abstract

This paper presents a novel data set of regional climate model simulations over Europe that significantly improves our ability to detect changes in weather extremes under low and moderate levels of global warming. The data set provides a unique and physically consistent data set, as it is derived from a large ensemble of regional climate model simulations. These simulations were driven by two global climate models from the international HAPPI consortium. The set consists of 100 × 10-year simulations and 25 × 10-year simulations, respectively. These large ensembles allow for regional climate change and weather extremes to be investigated with an improved signal-to-noise ratio compared to previous climate simulations. The changes in four climate indices for temperature targets of 1.5 °C and 2.0 °C global warming are quantified: number of days per year with daily mean near-surface apparent temperature of > 28 °C (ATG28); the yearly maximum 5-day sum of precipitation (RX5day); the daily precipitation intensity of the 50-yr return period (RI50yr); and the annual Consecutive Dry Days (CDD). This work shows that even for a small signal in projected global mean temperature, changes of extreme temperature and precipitation indices can be robustly estimated. For temperature related indices changes in percentiles can also be estimated with high confidence. Such data can form the basis for tailor-made climate information that can aid adaptive measures at a policy-relevant scales, indicating potential impacts at low levels of global warming at steps of 0.5 °C. [ABSTRACT FROM AUTHOR]

Published

2020

31. Climate classifications from regional and global climate models: Performances for present climate estimates and expected changes in the future at high spatial resolution.

Author

Tapiador, Francisco J., Moreno, Raúl, Navarro, Andrés, Sánchez, José Luis, and García-Ortega, Eduardo

Subjects

*ATMOSPHERIC models, *SCIENTIFIC knowledge, *CLIMATE change, *CLIMATE research, *CLIMATOLOGY, *GLOBAL warming, *CLIMATE change research

Abstract

Climate classifications based on temperature and precipitation measurements are increasingly being used for environmental and climate change studies. Using three classification methods (Köppen, Extended Köppen, and Holdridge) and one observational dataset for present climate (CRU, Climate Research Unit), we show that GCMs have bridged the gap that led to the emergence of RCMs thirty years ago, as GCMs can now provide global climate classifications whose accuracy and precision are comparable to those of regional outputs of the RCMs. Projections of high-resolution GCMs for future climates under the assumptions of three Representative Concentration Pathways (RCP26, RCP45 and RCP85) can therefore be used as a primary source for climate change and global warming studies at high resolution. This paper provides comprehensive, model-derived climate classifications for the entire planet, using RCMs and two GCMs for present and future climate-change scenarios, and discusses how well the models actually represent the climates of the world when compared with reference, ground validation data. It turns out that both GCMs and RCMs appear still limited to provide practical estimates of the world climates even for present climate conditions. The modeling of precipitation remains the Achilles' heel of models and thus of multidimensional indices, which are very sensitive to this variable. The conclusion is that model outputs at regional scale need to be taken with extreme caution without venturing into informing policies presenting potentially large societal impacts. Nonetheless, the role of models as privileged tools to advance our scientific knowledge of the Earth's system remains undisputed. • A systematic analysis of climate classifications with RCMs and two high resolution GCMs is presented. • Three classification methods are used to illustrate the differences between models and observations. • Current high-resolution GCMs can provide climate classifications with the same accuracy as those from RCMs. • Uncertainties in modeling precipitation persist for large parts of the world. [ABSTRACT FROM AUTHOR]

Published

2019

32. Spatio-temporal modelling of heat stress and climate change implications for the Murray dairy region, Australia.

Author

Nidumolu, Uday, Crimp, Steven, Gobbett, David, Laing, Alison, Howden, Mark, and Little, Stephen

Subjects

PHYSIOLOGICAL effects of heat, CLIMATE change, CLIMATOLOGY, MILK yield, HUMIDITY

Abstract

The Murray dairy region produces approximately 1.85 billion litres of milk each year, representing about 20 % of Australia's total annual milk production. An ongoing production challenge in this region is the management of the impacts of heat stress during spring and summer. An increase in the frequency and severity of extreme temperature events due to climate change may result in additional heat stress and production losses. This paper assesses the changing nature of heat stress now, and into the future, using historical data and climate change projections for the region using the temperature humidity index (THI). Projected temperature and relative humidity changes from two global climate models (GCMs), CSIRO MK3.5 and CCR-MIROC-H, have been used to calculate THI values for 2025 and 2050, and summarized as mean occurrence of, and mean length of consecutive high heat stress periods. The future climate scenarios explored show that by 2025 an additional 12-15 days (compared to 1971 to 2000 baseline data) of moderate to severe heat stress are likely across much of the study region. By 2050, larger increases in severity and occurrence of heat stress are likely (i.e. an additional 31-42 moderate to severe heat stress days compared with baseline data). This increasing trend will have a negative impact on milk production among dairy cattle in the region. The results from this study provide useful insights on the trends in THI in the region. Dairy farmers and the dairy industry could use these results to devise and prioritise adaptation options to deal with projected increases in heat stress frequency and severity. [ABSTRACT FROM AUTHOR]

Published

2014

33. Impact of urbanization on low-temperature precipitation in Beijing during 1960-2008.

Author

Han, Zuoqiang, Yan, Zhongwei, Li, Zhen, Liu, Weidong, and Wang, Yingchun

Subjects

URBANIZATION, METEOROLOGICAL precipitation, CLIMATOLOGY, GLOBAL warming, SEASONS, CITIES & towns

Abstract

Daily precipitation and temperature records at 13 stations for the period 1960-2008 were analyzed to identify climatic change and possible effects of urbanization on low-temperature precipitation [LTP, precipitation of ⩾ 0.1 mm d occurring under a daily minimum temperature (Tmin) of ⩽ 0°C] in the greater Beijing region (BJR), where a rapid process of urbanization has taken place over the last few decades. The paper provides a climatological overview of LTP in BJR. LTP contributes 61.7% to the total amount of precipitation in BJR in the cold season (November-March). There is a slight increasing trend [1.22 mm (10 yr)] in the amount of total precipitation for the cold season during 1960-2008. In contrast, the amount of LTP decreases by 0.6 mm (10 yr). The warming rate of Tmin in BJR is 0.66°C (10 yr). Correspondingly, the frequency of LTP decreases with increasing Tmin by −0.67 times per °C. The seasonal frequency and amount of LTP in southeast BJR (mostly urban sites) are 17%-20% less than those in the northwestern (rural and montane sites). The intensity of LTP for the urban sites and northeastern BJR exhibited significant enhancing trends [0.18 and 0.15 mm d (10 yr), respectively]. The frequency of slight LTP (<0.2 mm d) significantly decreased throughout BJR [by about 5.74% (10 yr) in the urban area and northeast BJR], while the contribution of the two heaviest LTP events to total LTP amount significantly increased by 3.2% (10 yr). [ABSTRACT FROM AUTHOR]

Published

2014

34. A new climate dataset for systematic assessments of climate change impacts as a function of global warming.

Author

Heinke, J., Ostberg, S., Schaphoff, S., Frieler, K., Müller, C., Gerten, D., Meinshausen, M., and Lucht, W.

Subjects

CLIMATE change, CLIMATOLOGY, GLOBAL warming, ENVIRONMENTAL disasters, EARTH sciences

Abstract

In the ongoing political debate on climate change, global mean temperature change (▵Tglob) has become the yardstick by which mitigation costs, impacts from unavoided climate change, and adaptation requirements are discussed. For a scientifically informed discourse along these lines, systematic assessments of climate change impacts as a function of ▵Tglob) are required. The current availability of climate change scenarios constrains this type of assessment to a narrow range of temperature change and/or a reduced ensemble of climate models. Here, a newly composed dataset of climate change scenarios is presented that addresses the specific requirements for global assessments of climate change impacts as a function of ▵Tglob). A pattern-scaling approach is applied to extract generalised patterns of spatially explicit change in temperature, precipitation and cloudiness from 19 Atmosphere-Ocean General Circulation Models (AOGCMs). The patterns are combined with scenarios of global mean temperature increase obtained from the reducedcomplexity climate model MAGICC6 to create climate scenarios covering warming levels from 1.5 to 5 degrees above pre-industrial levels around the year 2100. The patterns are shown to sufficiently maintain the original AOGCMs' climate change properties, even though they, necessarily, utilise a simplified relationships between ▵ Tglob) and changes in local climate properties. The dataset (made available online upon final publication of this paper) facilitates systematic analyses of climate change impacts as it covers a wider and finer-spaced range of climate change scenarios than the original AOGCM simulations. [ABSTRACT FROM AUTHOR]

Published

2013

35. Estimating Central Equatorial Pacific SST Variability over the Past Millennium. Part I: Methodology and Validation.

Author

Emile-Geay, Julien, Cobb, Kimberly M., Mann, Michael E., and Wittenberg, Andrew T.

Subjects

GENERAL circulation model, OCEAN temperature, LEAST squares, OCEAN-atmosphere interaction, ATMOSPHERIC circulation, GLOBAL warming, CLIMATE change, CLIMATOLOGY

Abstract

Constraining the low-frequency (LF) behavior of general circulation models (GCMs) requires reliable observational estimates of LF variability. This two-part paper presents multiproxy reconstructions of Niño-3.4 sea surface temperature over the last millennium, applying two techniques [composite plus scale (CPS) and hybrid regularized expectation maximization (RegEM) truncated total least squares (TTLS)] to a network of tropical, high-resolution proxy records. This first part presents the data and methodology before evaluating their predictive skill using frozen network analysis (FNA) and pseudoproxy experiments. The FNA results suggest that about half of the Niño-3.4 variance can be reconstructed back to A.D. 1000, but they show little LF skill during certain intervals. More variance can be reconstructed in the interannual band where climate signals are strongest, but this band is affected by dating uncertainties (which are not formally addressed here). The CPS reliably estimates interannual variability, while LF fluctuations are more faithfully reconstructed with RegEM, albeit with inevitable variance loss. The RegEM approach is also tested on representative pseudoproxy networks derived from two millennium-long integrations of a coupled GCM. The pseudoproxy study confirms that reconstruction skill is significant in both the interannual and LF bands, provided that sufficient variance is exhibited in the target Niño-3.4 index. It also suggests that FNA severely underestimates LF skill, even when LF variability is strong, resulting in overly pessimistic performance assessments. The centennial-scale variance of the historical Niño-3.4 index falls somewhere between the two model simulations, suggesting that the network and methodology presented here would be able to capture the leading LF variations in Niño-3.4 for much of the past millennium, with the caveats noted above. [ABSTRACT FROM AUTHOR]

Published

2013

36. Households' adaptation in a warming climate. Air conditioning and thermal insulation choices.

Author

De Cian, Enrica, Pavanello, Filippo, Randazzo, Teresa, Mistry, Malcolm N., and Davide, Marinella

Subjects

THERMAL insulation, DEMOGRAPHIC characteristics, HOUSEHOLDS, PHYSIOLOGICAL adaptation, CLIMATOLOGY, GLOBAL warming

Abstract

• Air conditioning is expected to be a major adaptation option for households. • Thermal insulation requires dedicated, well-designed, properly enforced policies. • More frequent hot days and urbanization will shape adaptive behaviours in OECD countries. • Demographic, household characteristics, income, and wealth also play a major role. • Well-designed and communicated climate policies reduce reliance on air conditioning. Adjustments in the final use of energy are a critical margin of adaptation for maintaining indoor thermal comfort. This paper explores how households have been adopting air conditioning and thermal insulation to cope with different climatic conditions, and how climatic factors interact with socio-economic, demographic, and household characteristics across eight OECD countries. Changes in the cumulative number of hot and cold days over the year, urbanization, demographics and household characteristics, including attitudes towards energy efficiency, strongly affect those two margins of adaptation, along with income. If the historically-observed adaptation behaviour is maintained also under future socio-economic pathways and climate scenarios, the impact of global warming and income on air conditioning adoption will be reinforced by urbanization trends, which on the contrary will make it more difficult to improve building thermal insulation. [ABSTRACT FROM AUTHOR]

Published

2019

37. The Occurrence of Cold Spells in the Alps Related to Climate Change.

Author

Galli, Marco, Oh, Seungmin, Cassardo, Claudio, and Seon Ki Park

Subjects

CLIMATE change, GLOBAL warming, COLD (Temperature), WATER balance (Hydrology), CLIMATOLOGY, COLD adaptation, SOIL temperature, EARTH temperature -- Remote sensing

Abstract

Climate change is not only a likely prospect for the end of this century, but it is already occurring. Part of the changes will include global warming and increasing temperature variability, both at global and regional scales. This increased variability was investigated in this paper from the point of view of the occurrence of cold spells in the Alps in the future climate (2071-2100), compared with the present climate (1961-1990). For this purpose, a regionalisation of the climate change effects was performed within the Alps. To avoid possible errors in the estimate of the 2m air temperature, the analysis was performed on the soil surface temperature. To get realistic values for this variable, a land surface scheme, UTOPIA, has been run on the selected domain, using the output of the Regional Climate Model (RegCM3) simulations as the driving force. The results show that, in general, the number of cold breaks is decreasing over the Alps, due to the temperature increment. However, there are certain zones where the behaviour is more complicated. The analysis of the model output also allowed a relationship to be found between the number of cold breaks and their duration. The significance of these results over the whole area was assessed. [ABSTRACT FROM AUTHOR]

Published

2010

38. Quantifying Carbon Cycle Feedbacks.

Author

Gregory, J. M., Jones, C. D., Cadule, P., and Friedlingstein, P.

Subjects

ECOLOGICAL disturbances, CARBON cycle, CLIMATE change, BIOGEOCHEMICAL cycles, EMISSIONS (Air pollution), CLIMATOLOGY, ACCLIMATIZATION, GLOBAL warming, INNER planets

Abstract

Perturbations to the carbon cycle could constitute large feedbacks on future changes in atmospheric CO2 concentration and climate. This paper demonstrates how carbon cycle feedback can be expressed in formally similar ways to climate feedback, and thus compares their magnitudes. The carbon cycle gives rise to two climate feedback terms: the concentration–carbon feedback, resulting from the uptake of carbon by land and ocean as a biogeochemical response to the atmospheric CO2 concentration, and the climate–carbon feedback, resulting from the effect of climate change on carbon fluxes. In the earth system models of the Coupled Climate–Carbon Cycle Model Intercomparison Project (C4MIP), climate–carbon feedback on warming is positive and of a similar size to the cloud feedback. The concentration–carbon feedback is negative; it has generally received less attention in the literature, but in magnitude it is 4 times larger than the climate–carbon feedback and more uncertain. The concentration–carbon feedback is the dominant uncertainty in the allowable CO2 emissions that are consistent with a given CO2 concentration scenario. In modeling the climate response to a scenario of CO2 emissions, the net carbon cycle feedback is of comparable size and uncertainty to the noncarbon–climate response. To quantify simulated carbon cycle feedbacks satisfactorily, a radiatively coupled experiment is needed, in addition to the fully coupled and biogeochemically coupled experiments, which are referred to as coupled and uncoupled in C4MIP. The concentration–carbon and climate–carbon feedbacks do not combine linearly, and the concentration–carbon feedback is dependent on scenario and time. [ABSTRACT FROM AUTHOR]

Published

2009

39. Understanding Land–Sea Warming Contrast in Response to Increasing Greenhouse Gases. Part I: Transient Adjustment.

Author

Dong, Buwen, Gregory, Jonathan M., and Sutton, Rowan T.

Subjects

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

40. Climate change and wildlife diseases: When does the host matter the most?

Author

Harvell, Drew, Altizer, Sonia, Cattadori, Isabella M., Harrington, Laura, and Well, Ernesto

Subjects

*CLIMATOLOGY, *CLIMATE change, *GLOBAL warming, *COMMUNICABLE diseases, *PARASITES, *GLOBAL temperature changes, *EPIDEMICS, *FOCAL infection

Abstract

The article presents an analysis on the focal Concepts and Synthesis paper of Kevin D. Lafferty on climate change impacts on infectious diseases. Lafferty's paper strongly summarizes the impact of climate change on mosquito--transmitted human infectious disease, as well as the inability of the people to detect climate drivers. The paper also failed to discuss the importance of climate warming and changes in host migratory in the spread of infectious diseases, the impact of climate change on disease dynamics, and the interaction between wildlife hosts and their communities of parasites.

Published

2009

41. THE INFLUENCE OF INTERNATIONAL TRADE ON THE ENVIRONMENT.

Author

RAMRATTAN, LALL and SZENBERG, MICHAEL

Subjects

INTERNATIONAL trade, INTERNATIONAL economic relations, INTERNATIONAL markets, GLOBAL warming, CLIMATE change, GLOBAL temperature changes, CLIMATOLOGY, ECONOMETRIC models, CARBON dioxide

Abstract

This paper builds an econometric model that attempts to explain the effect of global trade on the environment from data provided by the Global Trade Analysis Project (GTAP) at Purdue University. We estimated stable parameters for econometric models to forecast the impact of doubling carbon dioxide (2 × CO2) levels in the atmosphere. Robustness is checked against the Specific Factor Model in trade theory. The overall and zonal predictions for the lower and higher latitudes and the Northern and Southern Hemispheres are compared with the norms. The estimates of the model are also used as inputs into several computable general equilibrium (CGE) models to explore regional welfare impacts by climate change scenarios. The model's prediction comes within range of the norms and therefore, should be an important addition to the stock of pedagogic tools explaining the relationship between trade and the environment. [ABSTRACT FROM AUTHOR]

Published

2007

42. The South Asian Summer Monsoon and Its Relationship with ENSO in the IPCC AR4 Simulations.

Author

Annamalai, H., Hamilton, K., and Sperber, K. R.

Subjects

CLIMATOLOGY, MONSOONS, GLOBAL warming, OCEAN circulation, OCEAN-atmosphere interaction, CLIMATE change, GLOBAL temperature changes, WINDS

Abstract

In this paper the extensive integrations produced for the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report (AR4) are used to examine the relationship between ENSO and monsoons at interannual and decadal time scales. The study begins with an analysis of the monsoon simulation in the twentieth-century integrations. Six of the 18 models were found to have a reasonably realistic representation of monsoon precipitation climatology. For each of these six models SST and anomalous precipitation evolution along the equatorial Pacific during El Niño events display considerable differences when compared to observations. Out of these six models only four [Geophysical Fluid Dynamics Laboratory Climate Model versions 2.0 and 2.1 (GFDL_CM_2.0 and GFDL_CM_2.1), Meteorological Research Institute (MRI) model, and Max Planck Institute ECHAM5 (MPI_ECHAM5)] exhibit a robust ENSO–monsoon contemporaneous teleconnection, including the known inverse relationship between ENSO and rainfall variations over India. Lagged correlations between the all-India rainfall (AIR) index and Niño-3.4 SST reveal that three models represent the timing of the teleconnection, including the spring predictability barrier, which is manifested as the transition from positive to negative correlations prior to the monsoon onset. Furthermore, only one of these three models (GFDL_CM_2.1) captures the observed phase lag with the strongest anticorrelation of SST peaking 2–3 months after the summer monsoon, which is partially attributable to the intensity of the simulated El Niño itself. The authors find that the models that best capture the ENSO–monsoon teleconnection are those that correctly simulate the timing and location of SST and diabatic heating anomalies in the equatorial Pacific and the associated changes to the equatorial Walker circulation during El Niño events. The strength of the AIR-Niño-3.4 SST correlation in the model runs waxes and wanes to some degree on decadal time scales. The overall magnitude and time scale for this decadal modulation in most of the models is similar to that seen in observations. However, there is little consistency in the phase among the realizations, suggesting a lack of predictability of the decadal modulation of the monsoon–ENSO relationship. The analysis was repeated for each of the four models using results from integrations in which the atmospheric CO2 concentration was raised to twice preindustrial values. From these “best” models in the double CO2 simulations there are increases in both the mean monsoon rainfall over the Indian subcontinent (by 5%–25%) and in its interannual variability (5%–10%). For each model the ENSO–monsoon correlation in the global warming runs is very similar to that in the twentieth-century runs, suggesting that the ENSO–monsoon connection will not weaken as global climate warms. This result, though plausible, needs to be taken with some caution because of the diversity in the simulation of ENSO variability in the coupled models that have been analyzed. Implications of the present results for monsoon prediction are discussed. [ABSTRACT FROM AUTHOR]

Published

2007

43. Twentieth-Century Surface Air Temperature over China and the Globe Simulated by Coupled Climate Models.

Author

Tianjun Zhou and Rucong Yu

Subjects

ATMOSPHERIC temperature, ATMOSPHERIC models, SIMULATION methods & models, CLIMATOLOGY, ATMOSPHERE, GLOBAL warming, FORCING (Model theory), CLIMATE change, EARTH (Planet)

Abstract

This paper examines variations of the surface air temperature (SAT) over China and the globe in the twentieth century simulated by 19 coupled climate models driven by historical natural and anthropogenic forcings. Most models perform well in simulating both the global and the Northern Hemispheric mean SAT evolutions of the twentieth century. The inclusion of natural forcings improves the simulation, in particular for the first half of the century. The reproducibility of the SAT averaged over China is lower than that of the global and hemispheric averages, but it is still acceptable. The contribution of natural forcings to the SAT over China in the first half of the century is not as robust as that to the global and hemispheric averages. No model could successfully produce the reconstructed warming over China in the 1920s. The prescribed natural and anthropogenic forcings in the coupled climate models mainly produce the warming trends and the decadal- to interdecadal-scale SAT variations with poor performances at shorter time scales. The prominent warming trend in the last half of the century over China and its acceleration in recent decades are weakly simulated. There are discrepancies between the simulated and observed regional features of the SAT trend over China. Few models could produce the summertime cooling over the middle part of eastern China (27°–36°N), while two models acceptably produce the meridional gradients of the wintertime warming trends, with north China experiencing larger warming. Limitations of the current state-of-the-art coupled climate models in simulating spatial patterns of the twentieth-century SAT over China cast a shadow upon their capability toward projecting credible geographical distributions of future climate change through Intergovernmental Panel on Climate Change (IPCC) scenario simulations. [ABSTRACT FROM AUTHOR]

Published

2006

44. The Annual Cycle of Heat Content in the Peru Current Region.

Author

Takahashi, Ken

Subjects

CLIMATE change, ATMOSPHERIC temperature, ATMOSPHERIC radiation, CLIMATOLOGY, ATMOSPHERIC circulation, METEOROLOGY, GLOBAL warming, TEMPERATE climate, GLOBAL temperature changes

Abstract

The relative importance of the processes responsible for the annual cycle in the upper-ocean heat content in the Peru Current, in the southeastern tropical Pacific, was diagnosed from an oceanic analysis dataset. It was found that the annual cycle of heat content is forced mainly by insolation. However, the ocean dynamical processes play an important role in producing different regional budget characteristics. In a band 500 km from the coast of Peru, the annual heat content changes in this region are relatively large and can be approximated as sea surface temperature (SST) changes in a fixed-depth mixed layer. The annual cycle of the albedo associated with low-level clouds enhances the annual cycle in insolation, which explains the relatively strong annual cycle of heat content. These clouds, to a large extent, act as a feedback to SST, but a small additional forcing, which is proposed to be cold air advection in this paper, is needed to explain the fact that the maximum cloudiness leads the lowest SST by around a month. Ocean dynamics is important closer to the coast, where upwelling acts partly as damping of the heat content changes and forces it to peak earlier than farther offshore. In a band farther to the southwest, locally wind-forced thermocline motions, which become shallower (deeper) in the warm (cool) season, partially cancel the effect of net surface heat fluxes, whose annual cycle is comparable to that in the region previously mentioned, producing a relatively small annual cycle of heat content. The local forcing appears to be associated with the annual meridional displacements of the South Pacific anticyclone. The annual cycle in SST is also relatively small, which is probably due to the changes in the temperature of the water entrained into the mixed layer associated with the thermocline motions, but also to a mixed layer deeper than that closer to the coast. [ABSTRACT FROM AUTHOR]

Published

2005

45. Hurricanes and Global Warming.

Author

Pielke, R. A., Landsea, C., Mayfield, M., Laver, J., and Pasch, R.

Subjects

*TROPICAL cyclones, *CLIMATE change, *CLIMATOLOGY, *METEOROLOGICAL research, *GLOBAL warming, *HURRICANES, *STORMS, *NATURAL disasters, *SCIENTISTS

Abstract

This paper reviews recent research on tropical cyclones and climate change from the perspective of event risk—the physical behavior of storms; vulnerability—the characteristics of a system that create the potential for impacts, but are independent of event risk; and also outcome risk—the integration of considerations of vulnerability with event risk to characterize an event that causes losses. The paper concludes that with no trend identified in various metrics of hurricane damage over the twentieth century, it is exceedingly unlikely that scientists will identify large changes in historical storm behavior that have significant societal implications, though scientists may identify discernible changes in storm behavior. Looking to the future, until scientists conclude a) that there will be changes to storms that are significantly larger than observed in the past, b) that such changes are correlated to measures of societal impact, and c) that the effects of such changes are significant in the context of inexorable growth in population and property at risk, then it is reasonable to conclude that the significance of any connection of human-caused climate change to hurricane impacts necessarily has been and will continue to be exceedingly small. [ABSTRACT FROM AUTHOR]

Published

2005

46. Increase of carbon cycle feedback with climate sensitivity: results from a coupled climate and carbon cycle model.

Author

Govindasamy, B., Thompson, S., Mirin, A., Wickett, M., Caldeira, K., and Delire, C.

Subjects

CARBON cycle, CLIMATOLOGY, GLOBAL warming, CLIMATE change, MATHEMATICAL models

Abstract

Coupled climate and carbon cycle modelling studies have shown that the feedback between global warming and the carbon cycle, in particular the terrestrial carbon cycle, could accelerate climate change and result in greater warming. In this paper we investigate the sensitivity of this feedback for year 2100 global warming in the range of 0 to 8 K. Differing climate sensitivities to increased CO2 content are imposed on the carbon cycle models for the same emissions. Emissions from the SRES A2 scenario are used. We use a fully coupled climate and carbon cycle model, the INtegrated Climate and CArbon model (INCCA), the NCAR/DOE Parallel Climate Model coupled to the IBIS terrestrial biosphere model and a modified OCMIP ocean biogeochemistry model. In our integrated model, for scenarios with year 2100 global warming increasing from 0 to 8 K, land uptake decreases from 47% to 29% of total CO2 emissions. Due to competing effects, ocean uptake (16%) shows almost no change at all. Atmospheric CO2 concentration increases are 48% higher in the run with 8 K global climate warming than in the case with no warming. Our results indicate that carbon cycle amplification of climate warming will be greater if there is higher climate sensitivity to increased atmospheric CO2 content; the carbon cycle feedback factor increases from 1.13 to 1.48 when global warming increases from 3.2 to 8 K. [ABSTRACT FROM AUTHOR]

Published

2005

47. ORIGINAL ARTICLE Recent spread of Dracophyllum scrub on subantarctic Campbell Island, New Zealand: climatic or anthropogenic origins?

Author

Wilmshurst, Janet M., Bestic, Kim L., Meurk, Colin D., and McGlone, Matt S.

Subjects

CLIMATE change, ECOLOGICAL disturbances, GLOBAL warming, CLIMATOLOGY, AGRICULTURE

Abstract

The vegetation of subantarctic Campbell Island consists mainly of lowland Dracophyllum scrub and upland tussock grassland and tundra. Soon after the island was discovered in 1810, occupation by sealers and whalers led to localized burning and cutting of scrub. Further burning and cutting took place as a result of sheep farming between 1894 and 1931. Since the earliest photographs and vegetation descriptions of the island in the late nineteenth century, scrub cover has expanded markedly. Also, since the 1960s, the island has become warmer and drier. The aim of this paper is to quantify scrub changes as depicted in photo-sequences from the island, and to establish if the spread of scrub is a result of the cessation of anthropogenic activities or a response to global warming. Campbell Island, an isolated island 600 km south of New Zealand mainland (52°33.7′S, 169°09′E). Changes in scrub cover in the island were established through analysis of 33 photographic sequences in the island, the earliest photos dating back to 1888. Visual estimates were made of percentage woody cover in matching areas of repeat photographs, and of changes in scrub distribution with altitude and landscape type. Dracophyllum scrub was restricted at the time of the first photographs (1888) relative to its present extent, and earlier written observations suggest that there had been little change from the 1840s. Scrub cover has subsequently increased in most areas. Most of the spread occurred after the cessation of farming. Change has mostly consisted of a thickening and expansion of pre-existing scrub patches. There is no indication that the upper elevational limit of scrub has increased. Initial reduction of scrub was probably due to anthropogenic fire in the early nineteenth century, although it is possible that less favourable climates had also restricted its distribution. Failure of the scrub to regenerate significantly between 1840 and c. 1895 may also have been a consequence of generally cooler, wetter climates at this time. Rapid scrub expansion began between the end of farming and burning in 1931 and 1988 when the remaining feral sheep were removed. Sheep grazing in the absence of fire reduced competition, and encouraged regeneration and growth of woody scrub. Spread was probably assisted by a pronounced shift to warmer, drier climates in the second half of the twentieth century. Upper elevational limits of scrub have not increased, suggesting that factors other than summer temperature are controlling scrub line in this superoceanic environment. [ABSTRACT FROM AUTHOR]

Published

2004

48. Resources.

Author

Evans, Ruth

Subjects

BOOKS, CLIMATE change, GLOBAL warming, CLIMATOLOGY, GLOBAL temperature changes, AIR pollution

Abstract

This article presents information on various books related to climatic changes. In the book "Responding to Global Warming: The Technology, Economics and Politics of Sustainable Energy," taking a multi-disciplinary policy perspective that integrates engineering, economics, and decision theory, the writer proposes an innovative strategy in global efforts to limit climate change, linking energy and forestry, North and South. The book "Survival Emissions: A Perspective From the South on Global Climate Change Negotiations," gives background information on the negotiations, as well as the writer's analysis and understanding of the negotiations from a Southern perspective. Taking a cross-disciplinary assessment of fairness and equity issues in the context of global climate change, the book "Fair Weather? Equity Concerns in Climate Change," explores the policy dimensions and analytical needs of the negotiation process. The book "The Way Forward: Beyond Agenda," outlines the successes and failures of the first five years following the Earth Summit in Rio de Janeiro in 1992.

Published

2002

49. The Relative Importance of Sources of Greenhouse-Gas Emissions: Comparison of Global Through Subnational Perspectives.

Author

CUSHMAN, ROBERT M. and JONES, SONJA B.

Subjects

GREENHOUSE gases, AIR pollution, GLOBAL warming, CLIMATOLOGY, GREENHOUSE effect, CLIMATE change

Abstract

Increasing atmospheric concentrations of greenhouse gases are widely expected to cause global warming and other climatic changes. It is important to establish priorities for reducing greenhouse-gas emissions, so that resources can be allocated efficiently and effectively. This is a global problem, and it is possible, on a global scale, to identify those activities whose emissions have the greatest potential for enhancing the greenhouse effect. However, perspectives from smaller scales must be appreciated, because it is on scales down to the local level that response measures will be implemented. This paper analyzes the relative importance of emissions from the many individual sources, on scales ranging from global to national to subnational. Individual country perspectives and proposed policy measures and those of subnational political entities exhibit some commonalities but differ among themselves and from a global-scale perspective in detail. [ABSTRACT FROM AUTHOR]

Published

2002

50. ADAPTATION AND MITIGATION OF CLIMATE CHANGE IN MAINTAINING FOOD SECURITY BY TRADITIONAL COMMUNITIES.

Author

UTAMA, Gemilang Lara and BALIA, Roostita L.

Subjects

CLIMATE change, GLOBAL warming, CLIMATOLOGY, FOOD security, INDIGENOUS peoples

Abstract

Ongoing climate change has affected individuals' lives in different parts of the world including the traditional communities. The accessibility of natural resources regularly utilized as a wellspring of occupation is so vulnerable against climate change. Alongside the event of an unnatural weather change that brought about outrageous climate change, different regular marvels that happen presently isn't the same any longer. Traditional communities may not comprehend the ideas of a global warming and climate change, yet they watch and feel their impact. Different saw impacts, for example, diminished precipitation, increment in air temperature, expanding the force of the sun and precipitation which isn't balanced out. Mostly food production is declining alongside different climatic changes. In a few simulation of climate change demonstrates of synthetic manure utilization, heat stress and water shortage can prompt a decrease in rice production up to 3.8% in Asia toward the finish of the 21st century. Adjustment and relief to climate change are done with different acclimations to decrease vulnerability or increase resilience to the climate change. Oblivious adaptation and mitigation practices of climate change have been honed by traditional communities through the cultivating frameworks they work. Different systems are completed not exclusively to address nourishment issues and to support their lives. Different discoveries demonstrate that the conventional cultivating framework keep running by the group is plainly ready to keep up their food security in the midst of the danger of dry season, heat stress and different interruptions caused by climate change. [ABSTRACT FROM AUTHOR]

Published

2018