Showing total 38 results

1. High-profile ocean warming paper to get a correction.

Author

Marshall, Christa

Subjects

GREENHOUSE gases, GLOBAL warming, CLIMATE change, GLOBAL temperature changes

Published

2018

2. Greenhouse gas inventory for mines: an urge to develop clean technology.

Author

SAHU, H. B. and TIBREWAL, KUSHAL

Subjects

GREENHOUSE gases, GLOBAL warming, RENEWABLE energy industry, GLOBAL temperature changes, CLIMATE change

Abstract

As the global temperature is on the rise due to global warming, the issue of climate change is indeed a hot topic among the climate scientists and policy-makers worldwide. Claiming anthropogenic emissions as the primary cause of the prevailing climate change, every human activity is now under heavy scrutiny. Among others, mining is one of the fundamental activities which caters to the supply of raw materials to other basic industries and fulfils most of the energy needs of the human race and is believed to be a major contributor to the anthropogenic emissions. The present paper discusses a few case studies conducted in some Indian mines to estimate their respective carbon emissions. The accounting of carbon emissions due to mining activities is called as 'greenhouse gas inventory'. A brief look over the GHG inventory of some mines provides a succinct idea about contribution of mining industry to global emissions. The results highlight that emissions from mining industry are significant and cannot be overlooked. Thus it is required to develop clean technology to be implemented in mines to lower its emissions. [ABSTRACT FROM AUTHOR]

Published

2018

3. A Flexible Global Warming Index for Use in an Integrated Approach to Climate Change Assessment.

Author

Truong, Truong P. and Kemfert, Claudia

Subjects

GLOBAL warming, CLIMATE change, GREENHOUSE effect, RADIATIVE forcing, GLOBAL temperature changes, ATMOSPHERIC radiation, GREENHOUSE gases, ECONOMIC models, FORCING (Model theory)

Abstract

Global Warming Potential (GWP) is an index used to measure the cumulative radiative forcing of a tonne of greenhouse house gas (GHG) relative to that of a ‘reference’ gas (CO2). Under the Kyoto Protocol, GWP can be used as a fixed index to govern the trade-off between different GHGs in a multi-gas approach to GHGs abatement. The use of fixed GWPs has been criticized for not being very cost effective compared to the use of some flexible indices. To gain wider acceptance, however, a flexible index must also prove to be easy to use, and the economic gains from its adoption must be significant. In this paper, we develop a flexible index based on the concept of marginal rather than cumulative or average global warming potentials. These marginal global warming potentials (MGWPs) can be endogenously determined within a climate model given a particular climate objective based on radiative forcing level. The MGPWs are then linked to the marginal abatement costs of the GHGs, which are also endogenously determined within an economic model. When the two concepts are linked in this way, the result is a cost-effective way of achieving a particular climate change objective with multigas abatement. We show that the savings in costs when using this flexible MGPWs can be significant, and more importantly, they are not uniformly distributed across different regions. [ABSTRACT FROM AUTHOR]

Published

2008

4. Characterisation Factors for Greenhouse Gases at a Midpoint Level Including Indirect Effects Based on Calculations with the IMAGE Model.

Author

Brakke, Karin W., Huijbregts, Mark A. J., Eickhout, Bas, Hendriks, A. Jan, and van de Meent, Dik

Subjects

GREENHOUSE gases, GLOBAL warming, CLIMATE change, EMISSIONS (Air pollution), GREENHOUSE effect, GLOBAL temperature changes, ATMOSPHERIC chemistry, OZONE, CLIMATOLOGY

Abstract

Background, Aims and Scope. The traditional method of using Global Warming Potentials (GWPs) to assess the effects of climate change in Life Cycle Assessment (LCA) does not account for indirect atmospheric effects like saturation effects and emissions of ozone precursors. The aim of this paper is to provide GWP values for LCA purposes of the most important climate related gases including indirect effects and assess whether these values are dependent of different background conditions and size of change in emissions fluxes. Methods. In order to reflect atmospheric interactions between direct and indirect greenhouse gases, an atmospheric climate and chemistry model needs to be used to determine GWP values. Here, the IMAGE model is used to determine GWP values for a time horizon of 100 years. Different runs were performed to test the outcomes against various background emission scenarios and various sizes in emission fluxes. Results and Discussion. The GWP values for CO2, N2O and CH4 depend on the chosen scenario and are lower under scenarios with higher background emissions. The GWPs of Halons, PFCs and SF6 are scenario and emission flux independent. The GWPs of HFCs increase with higher background emissions and higher additional emission fluxes, whereas GWPs of CFC are scenario independent, but change when other emission fluxes are applied. Finally, GWPs of HCFCs are higher in scenarios with higher background emission scenarios, and decrease when larger emission fluxes are applied. The GWP values calculated with IMAGE with direct effects only are comparable with IPCC values. Inclusion of the indirect atmospheric effects changes some of the values positively or negatively. For CFCs this results in a value up to 70% lower. For Halons this results in a value up to 1000% lower, resulting in a strong negative GWP. Inclusion of indirect effects increases the GWP of CH4 by 50%. Newly introduced greenhouse gases which have only indirect effects are given here a GWP. SO2 has a negative GWP which depends on both the flux size and the chosen background scenario. CO and NMVOC have a positive flux-and-scenario dependent GWP. The GWP of NOx can, dependent on de chosen conditions, be positive or negative. Conclusions. The GWP values of this paper are a first attempt to provide a consistent set of GWP values for all direct and indirect greenhouse gases, including differences in GWP values per background scenario and flux size. The inclusion of indirect effects in GWP values causes large differences in some important greenhouse gases, which should not be ignored in LCA- analyses. We suggest for LCA purposes to use GWPs including indirect effects for marginal change and for the most realistic background scenario. However, existing uncertainties in the indirect effects of greenhouse gases demand for a better understanding of the importance of these effects. [ABSTRACT FROM AUTHOR]

Published

2008

5. The Global Warming Debate: A Review of the State of Science.

Author

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

6. The use of the land-sea warming contrast under climate change to improve impact metrics.

Author

Joshi, Manoj, Turner, Andrew, and Hope, Chris

Subjects

CLIMATE change, GLOBAL warming, CLIMATE change mitigation, EMISSION control, GREENHOUSE gases, GLOBAL temperature changes

Abstract

A favoured method of assimilating information from state-of-the-art climate models into integrated assessment models of climate impacts is to use the transient climate response (TCR) of the climate models as an input, sometimes accompanied by a pattern matching approach to provide spatial information. More recent approaches to the problem use TCR with another independent piece of climate model output: the land-sea surface warming ratio ( φ). In this paper we show why the use of φ in addition to TCR has such utility. Multiple linear regressions of surface temperature change onto TCR and φ in 22 climate models from the CMIP3 multi-model database show that the inclusion of φ explains a much greater fraction of the inter-model variance than using TCR alone. The improvement is particularly pronounced in North America and Eurasia in the boreal summer season, and in the Amazon all year round. The use of φ as the second metric is beneficial for three reasons: firstly it is uncorrelated with TCR in state-of-the-art climate models and can therefore be considered as an independent metric; secondly, because of its projected time-invariance, the magnitude of φ is better constrained than TCR in the immediate future; thirdly, the use of two variables is much simpler than approaches such as pattern scaling from climate models. Finally we show how using the latest estimates of φ from climate models with a mean value of 1.6-as opposed to previously reported values of 1.4-can significantly increase the mean time-integrated discounted damage projections in a state-of-the-art integrated assessment model by about 15 %. When compared to damages calculated without the inclusion of the land-sea warming ratio, this figure rises to 65 %, equivalent to almost 200 trillion dollars over 200 years. [ABSTRACT FROM AUTHOR]

Published

2013

7. Uncertainty and learning: implications for the trade-off between short-lived and long-lived greenhouse gases.

Author

Johansson, Daniel J. A., Persson, U. Martin, and Azar, Christian

Subjects

CLIMATE change, GREENHOUSE gases, GLOBAL temperature changes, ENVIRONMENTAL disasters, CARBON compounds, CARBON dioxide, GLOBAL warming, GREENHOUSE effect, ECOLOGICAL disturbances

Abstract

The economic benefits of a multi-gas approach to climate change mitigation are clear. However, there is still a debate on how to make the trade-off between different greenhouse gases (GHGs). The trade-off debate has mainly centered on the use of Global Warming Potentials (GWPs), governing the trade-off under the Kyoto Protocol, with results showing that the cost-effective valuation of short-lived GHGs, like methane (CH4), should be lower than its current GWP value if the ultimate aim is to stabilize the anthropogenic temperature change. However, contrary to this, there have also been proposals that early mitigation mainly should be targeted on short-lived GHGs. In this paper we analyze the cost-effective trade-off between a short-lived GHG, CH4, and a long-lived GHG, carbon dioxide (CO2), when a temperature target is to be met, taking into consideration the current uncertainty of the climate sensitivity as well as the likelihood that this will be reduced in the future. The analysis is carried out using an integrated climate and economic model (MiMiC) and the results from this model are explored and explained using a simplified analytical economic model. The main finding is that the introduction of uncertainty and learning about the climate sensitivity increases the near-term cost-effective valuation of CH4 relative to CO2. The larger the uncertainty span, the higher the valuation of the shortlived gas. For an uncertainty span of ±1°C around an expected climate sensitivity of 3°C, CH4 is cost-effectively valued 6.8 times as high as CO2 in year 2005. This is almost twice as high as the valuation in a deterministic case, but still significantly lower than its GWP100 value. [ABSTRACT FROM AUTHOR]

Published

2008

8. The efficiency gap behind the Annex I Parties under the Kyoto Protocol.

Author

Shih-Fang Lo

Subjects

CLIMATE change, UNITED Nations Framework Convention on Climate Change (1992). Protocols, etc., 1997 December 11, GREENHOUSE gases, EMISSIONS trading, GLOBAL warming, GLOBAL temperature changes

Abstract

With the ratification of the Kyoto Protocol, an era of global efforts to combat climate change is beginning. Countries belonging to Annex I Parties are obligated to meet their target in reducing greenhouse gas (GHG) emissions. This paper broadens the scope of research to compare the performance between two groups, Annex II Parties and economies in transition (EIT) Parties (both of which are in the set of Annex I Parties), undertaking responsibilities for GHG emission reduction. This differs from the traditional application of evaluation and aims to identify inherent efficiency differences across systems, rather than separately from the potential inefficiency of individual countries. An efficiency gap was found between the group of Annex II Parties and the group of EIT Parties, by adjusting efficiency levels. Considering a reference set, efficient Annex II countries are referenced, both within their own group and within the EIT group; efficient EIT countries are only benchmarked within the group. The evidence provided can shed light on the function of joint implementation, that Annex I countries will cooperate to reduce GHG emissions, based on their common, but differentiated, responsibilities and capacity for global climate change. [ABSTRACT FROM AUTHOR]

Published

2007

9. HOW MUCH WARMING ARE WE COMMITTED TO AND HOW MUCH CAN BE AVOIDED?

Author

Hare, Bill and Meinshausen, Malte

Subjects

GLOBAL warming, GREENHOUSE gases, EMISSIONS (Air pollution), CLIMATE change, GLOBAL temperature changes, GREENHOUSE gas mitigation, EMISSION control, CARBON dioxide

Abstract

This paper examines different concepts of a 'warming commitment' which is often used in various ways to describe or imply that a certain level of warming is irrevocably committed to over time frames such as the next 50 to 100 years, or longer. We review and quantify four different concepts, namely (1) a 'constant emission warming commitment', (2) a 'present forcing warming commitment', (3) a 'zero emission (geophysical) warming commitment' and (4) a 'feasible scenario warming commitment'. While a 'feasible scenario warming commitment' is probably the most relevant one for policy making, it depends centrally on key assumptions as to the technical, economic and political feasibility of future greenhouse gas emission reductions. This issue is of direct policy relevance when one considers that the 2002 global mean temperatures were 0.8 ± 0.2°C above the pre-industrial (1861-1890) mean and the European Union has a stated goal of limiting warming to 2°C above the pre-industrial mean: What is the risk that we are committed to overshoot 2°C? Using a simple climate model (MAGICC) for probabilistic computations based on the conventional IPCC uncertainty range for climate sensitivity (1.5 to 4.5 °C), we found that (1) a constant emission scenario is virtually certain to overshoot 2°C with a central estimate of 2.0°C by 2100 (4.2°C by 2400). (2) For the present radiative forcing levels it seems unlikely that 2°C are overshoot. (central warming estimate 1.1 °C by 2100 and 1.2°C by 2400 with ∼10% probability of overshooting 2°C). However, the risk of overshooting is increasing rapidly if radiative forcing is stabilized much above 400 ppm CO2 equivalence (1.95 W/m²) in the long-term. (3) From a geophysical point of view, if all human-induced emissions were ceased tomorrow, it seems 'exceptionally unlikely' that 2°C will be overshoot (central estimate: 0.7°C by 2100; 0.4°C by 2400). (4) Assuming future emissions according to the lower end of published mitigation scenarios (350 ppm CO2eq to 450 ppm CO2eq) provides the central temperature projections are 1.5 to 2.1 °C by 2100 (1.5 to 2.0°C by 2400) with a risk of overshooting 2°C between 10 and 50% by 2100 and 1-32% in equilibrium. Furthermore, we quantify the 'avoidable warming' to be 0.16-0.26°C for every 100 GtC of avoided CO2 emissions - based on a range of published mitigation scenarios. [ABSTRACT FROM AUTHOR]

Published

2006

10. A meta-analysis of the response of soil respiration, net nitrogen mineralization, and aboveground plant growth to experimental ecosystem warming.

Author

Rustad, L. E., Campbell, J. L., Marion, G. M., Norby, R. J., Mitchell, M. J., Hartley, A. E., Cornelissen, J. H. C., and Gurevitch, J.

Subjects

CLIMATE change, GREENHOUSE gases, AIR pollution, BIOTIC communities, GLOBAL warming, GLOBAL temperature changes, GRASSLANDS

Abstract

Climate change due to greenhouse gas emissions is predicted to raise the mean global temperature by 1.0–3.5°C in the next 50–100 years. The direct and indirect effects of this potential increase in temperature on terrestrial ecosystems and ecosystem processes are likely to be complex and highly varied in time and space. The Global Change and Terrestrial Ecosystems core project of the International Geosphere-Biosphere Programme has recently launched a Network of Ecosystem Warming Studies, the goals of which are to integrate and foster research on ecosystem-level effects of rising temperature. In this paper, we use meta-analysis to synthesize data on the response of soil respiration, net N mineralization, and aboveground plant productivity to experimental ecosystem warming at 32 research sites representing four broadly defined biomes, including high (latitude or altitude) tundra, low tundra, grassland, and forest. Warming methods included electrical heat-resistance ground cables, greenhouses, vented and unvented field chambers, overhead infrared lamps, and passive night-time warming. Although results from individual sites showed considerable variation in response to warming, results from the meta-analysis showed that, across all sites and years, 2–9 years of experimental warming in the range 0.3–6.0°C significantly increased soil respiration rates by 20% (with a 95% confidence interval of 18–22%), net N mineralization rates by 46% (with a 95% confidence interval of 30–64%), and plant productivity by 19% (with a 95% confidence interval of 15–23%). The response of soil respiration to warming was generally larger in forested ecosystems compared to low tundra and grassland ecosystems, and the response of plant productivity was generally larger in low tundra ecosystems than in forest and grassland ecosystems. With the exception of aboveground plant productivity, which showed a greater positive response to warming in colder ecosystems, the magnitude of the response of these three processes to experimental warming was not generally significantly related to the geographic, climatic, or environmental variables evaluated in this analysis. This underscores the need to understand the relative importance of specific factors (such as temperature, moisture, site quality, vegetation type, successional status, land-use history, etc.) at different spatial and temporal scales, and suggests that we should be cautious in "scaling up" responses from the plot and site level to the landscape and biome level. Overall, ecosystem-warming experiments are shown to provide valuable insights on the response of terrestrial ecosystems to elevated temperature. [ABSTRACT FROM AUTHOR]

Published

2001

11. Modelling and forecasting of carbon-dioxide emissions in South Africa by using ARIMA model.

Author

Kour, M.

Subjects

GLOBAL temperature changes, CLIMATE change, GLOBAL warming, MOVING average process, GREENHOUSE gases

Abstract

The major cause of global warming is greenhouse gases (GHGs). Carbon dioxide (CO2) is the key GHG contributing to environmental pollution and global warming. Overall climatic conditions are changing with global temperatures rising and the level of greenhouse gases increase in the atmosphere. This is of serious concern as this climatic change will have dire consequences for crops, human health, ecological balance and biodiversity. Climatic changes and imbalance in ecology can be ascribed to an increase in carbon-dioxide emissions in the environment. South Africa being a developing economy is at the thirteenth position in carbon-dioxide emissions. It is also one of the developing countries that top in consumption of fossil fuels. It is important to forecast future carbon-dioxide emissions for South Africa so that suitable sustainability policies can be framed and measures can be taken at the right time. Annual time series data of South Africa from the time period 1980 to 2016, has been used in this study to develop autoregressive integrated moving average (ARIMA) model to predict CO2 emissions for the period of 2015–2027. It is forecasted by the use of the ARIMA model that carbon-dioxide emissions will rise at a constant rate in the next ten years in South Africa. This study will add a new dimension to existing literature and will provide a base for framing feasible environmental policies. [ABSTRACT FROM AUTHOR]

Published

2023

12. DIMINISHING ANY LINK BETWEEN CLIMATE CHANGE AND SEASONAL HURRICANE ACTIVITY.

Author

O'Connor, Lauraleen, Gunzelman, Mark, Samenow, Jason, and Fortune, Michael

Subjects

HURRICANES, GLOBAL temperature changes, GLOBAL warming, CLIMATE change, ATMOSPHERIC temperature, GREENHOUSE effect, GREENHOUSE gases

Abstract

This article discusses climate change and hurricanes. Papers that appeared in the scholarly journals "Nature" and "Science" during the summer of 2005 raised the question of global warming being the cause of the record-breaking hurricane season of 2005. The article examines that argument, noting that many scientists believe that human-induced climate warming is indeed real. Also discussed is the increasing intensity of hurricanes since 1975, as well as the rise in seas surface temperatures and greenhouse gases in the atmosphere.

Published

2006

13. Revisiting the Existence of the Global Warming Slowdown during the Early Twenty-First Century.

Author

Wei, Meng, Song, Zhenya, Shu, Qi, Yang, Xiaodan, Song, Yajuan, and Qiao, Fangli

Subjects

GLOBAL warming, TWENTY-first century, GLOBAL temperature changes, GREENHOUSE gases

Abstract

There are heated debates on the existence of the global warming slowdown during the early twenty-first century. Although efforts have been made to clarify or reconcile the controversy over this issue, it is not explicitly addressed, restricting the understanding of global temperature change particularly under the background of increasing greenhouse gas concentrations. Here, using extensive temperature datasets, we comprehensively reexamine the existence of the slowdown under all existing definitions during all decadal-scale periods spanning 1990–2017. Results show that the short-term linear trend–dependent definitions of slowdown make its identification severely suffer from the period selection bias, which largely explains the controversy over its existence. Also, the controversy is further aggravated by the significant impacts of the differences between various datasets on the recent temperature trend and the different baselines for measuring slowdown prescribed by various definitions. However, when the focus is shifted from specific periods to the probability of slowdown events, we find the probability is significantly higher in the 2000s than in the 1990s, regardless of which definition and dataset are adopted. This supports a slowdown during the early twenty-first century relative to the warming surge in the late twentieth century, despite higher greenhouse gas concentrations. Furthermore, we demonstrate that this decadal-scale slowdown is not incompatible with the centennial-scale anthropogenic warming trend, which has been accelerating since 1850 and never pauses or slows. This work partly reconciles the controversy over the existence of the warming slowdown and the discrepancy between the slowdown and anthropogenic warming. [ABSTRACT FROM AUTHOR]

Published

2022

14. Evaluation of the impact of climate change on hydrology and water resources in Swaziland: Part I

Author

Matondo, Jonathan I., Peter, Graciana, and Msibi, Kenneth M.

Subjects

*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

15. Global Warming: When to Bite the Bullet.

Author

Conrad, Jon M.

Subjects

GLOBAL warming, OPTION value, ENVIRONMENTAL degradation, GREENHOUSE gases, GREENHOUSE effect, GLOBAL temperature changes, CLIMATE change, CLIMATOLOGY, VALUE (Economics)

Abstract

An option-value (or stopping-rule) model is developed to determine the optimal timing and expected value of policies (bullets) to slow global warming. The model and policies are calibrated to reflect current estimates or predictions of temperature drift, variance, damage, and the cost of slowing global warming. The ‘basic’ and ‘asymptotic’ bullets have option values of between $600 and $700 billion dollars for a discount rate of 5 percent. The most effective (platinum) bullet is not adopted until mean global temperature reaches a trigger value of 15.54°C, which is not likely to be reached during the next two decades. [ABSTRACT FROM AUTHOR]

Published

1997

16. Global warming: Stop worrying, start panicking?

Author

Schellnhuber, Hans Joachim

Subjects

*CLIMATE change, *GLOBAL temperature changes, *GLOBAL warming, *GREENHOUSE effect, *GREENHOUSE gases

Abstract

The article comments on paper published in the issue on global warming. The author discusses that findings showed that greenhouse gases in the earth's atmosphere are already enough to cause global calamity. He questions the plans by the United Nations Framework Convention on Climate Change and comments on the findings of the paper.

Published

2008

17. Warning issued on connection between global warming, health.

Author

Martens, Debra

Subjects

GLOBAL warming, GLOBAL temperature changes, CLIMATE change, GREENHOUSE gases

Abstract

Discusses a report from the U.S. National Academies' National Research Council warning of sudden, catastrophic effects from global warming. Details of the report, 'Abrupt Climate Change: Inevitable Surprises,' written by the Committee on Abrupt Climate Change; Suggestion for policies to reduce emissions of greenhouse gases and improve water, land and air quality; Thoughts of global warming expert Dr. Paul Epstein.

Published

2002

18. Pattern scaling: Its strengths and limitations, and an update on the latest model simulations.

Author

Tebaldi, Claudia and Arblaster, Julie

Subjects

GLOBAL temperature changes, CLIMATE change, GLOBAL warming, EARTH sciences, ANALYTICAL mechanics, GREENHOUSE gases

Abstract

We review the ideas behind the pattern scaling technique, and focus on its value and limitations given its use for impact assessment and within integrated assessment models. We present estimates of patterns for temperature and precipitation change from the latest transient simulations available from the Coupled Model Inter-comparison Project Phase 5 (CMIP5), focusing on multi-model mean patterns, and characterizing the sources of variability of these patterns across models and scenarios. The patterns are compared to those obtained from the previous set of experiments, under CMIP3. We estimate the significance of the emerging differences between CMIP3 and CMIP5 results through a bootstrap exercise, while also taking into account the fundamental differences in scenario and model ensemble composition. All in all, the robustness of the geographical features in patterns of temperature and precipitation, when computed as multi-model means, is confirmed by this comparison. The intensity of the change (in both the warmer and cooler areas with respect to global temperature change, and the drier and wetter regions) is overall heightened per degree of global warming in the ensemble mean of the new simulations. The presence of stabilized scenarios in the new set of simulations allows investigation of the performance of the technique once the system has gotten close to equilibrium. Overall, the well established validity of the technique in approximating the forced signal of change under increasing concentrations of greenhouse gases is confirmed. [ABSTRACT FROM AUTHOR]

Published

2014

19. No increase in global temperature variability despite changing regional patterns.

Author

Huntingford, Chris, Jones, Philip D., Livina, Valerie N., Lenton, Timothy M., and Cox, Peter M.

Subjects

GLOBAL temperature changes, PATTERN recognition systems, GLOBAL warming, ATMOSPHERIC models, CLIMATE change, GREENHOUSE gases

Abstract

Evidence from Greenland ice cores shows that year-to-year temperature variability was probably higher in some past cold periods, but there is considerable interest in determining whether global warming is increasing climate variability at present. This interest is motivated by an understanding that increased variability and resulting extreme weather conditions may be more difficult for society to adapt to than altered mean conditions. So far, however, in spite of suggestions of increased variability, there is considerable uncertainty as to whether it is occurring. Here we show that although fluctuations in annual temperature have indeed shown substantial geographical variation over the past few decades, the time-evolving standard deviation of globally averaged temperature anomalies has been stable. A feature of the changes has been a tendency for many regions of low variability to experience increases, which might contribute to the perception of increased climate volatility. The normalization of temperature anomalies creates the impression of larger relative overall increases, but our use of absolute values, which we argue is a more appropriate approach, reveals little change. Regionally, greater year-to-year changes recently occurred in much of North America and Europe. Many climate models predict that total variability will ultimately decrease under high greenhouse gas concentrations, possibly associated with reductions in sea-ice cover. Our findings contradict the view that a warming world will automatically be one of more overall climatic variation. [ABSTRACT FROM AUTHOR]

Published

2013

20. Global warming, human-induced carbon emissions, and their uncertainties.

Author

Fang, JingYun, Zhu, JiangLing, Wang, ShaoPeng, Yue, Chao, and Shen, HaiHua

Subjects

CLIMATE change, GLOBAL warming, GLOBAL temperature changes, GREENHOUSE gases, CARBON monoxide

Abstract

In recent decades, there have been a number of debates on climate warming and its driving forces. Based on an extensive literature review, we suggest that (1) climate warming occurs with great uncertainty in the magnitude of the temperature increase; (2) both human activities and natural forces contribute to climate change, but their relative contributions are difficult to quantify; and (3) the dominant role of the increase in the atmospheric concentration of greenhouse gases (including CO) in the global warming claimed by the Intergovernmental Panel on Climate Change (IPCC) is questioned by the scientific communities because of large uncertainties in the mechanisms of natural factors and anthropogenic activities and in the sources of the increased atmospheric CO concentration. More efforts should be made in order to clarify these uncertainties. [ABSTRACT FROM AUTHOR]

Published

2011

21. Benchmarking the War Against Global Warming.

Author

Sherman, DouglasJ., Li, Bailiang, Quiring, StevenM., and Farrell, EugeneJ.

Subjects

GLOBAL temperature changes, CLIMATE change, TEMPERATURE, GLOBAL warming, CLIMATOLOGY, EFFECT of human beings on weather, TRENDS, FORECASTING

Abstract

Copyright of Annals of the Association of American Geographers is the property of Taylor & Francis Ltd 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

2010

22. The Effect of Local Circulation Variability on the Detection and Attribution of New Zealand Temperature Trends.

Author

Dean, S. M. and Stott, P. A.

Subjects

ATMOSPHERIC circulation, ATMOSPHERIC turbulence, GLOBAL warming, GLOBAL temperature changes, GREENHOUSE gases, GREENHOUSE gas mitigation, CLIMATE change, CLIMATOLOGY

Abstract

A representative temperature record for New Zealand based on station data from 1853 onward is used in conjunction with four coupled climate models to investigate the causes of recent warming over this small midlatitude country. The observed variability over interannual and decadal time scales is simulated well by the models. The variability of simulated 50-yr trends is consistent with the very short observational record. For a simple detection analysis it is not possible to separate the observed 30- and 50-yr temperature trends from the distribution created by internal variability in the model control simulations. A pressure index that is representative of meridional flow (M1) is used to show that the models fail to simulate an observed trend to more southerly flows in the region. The strong relationship between interannual temperature variability and the M1 index in both the observations and the models is used to remove the influence of this circulation variability from the temperature records. Recent 50-yr trends in the residual temperature record cannot be explained by natural climate variations, but they are consistent with the combined climate response to anthropogenic greenhouse gas emissions, ozone depletion, and sulfate aerosols, demonstrating a significant human influence on New Zealand warming. This result highlights the effect of circulation variability on regional detection and attribution analyses. Such variability can either mask or accelerate human-induced warming in observed trends, underscoring the importance of determining the underlying forced trend, and the need to adequately capture regional circulation effects in climate models. [ABSTRACT FROM AUTHOR]

Published

2009

23. Changes in mixed layer depth under climate change projections in two CGCMs.

Author

Sang-Wook Yeh, Bo Young Yim, Yign Noh, and Dewitte, Boris

Subjects

CLIMATE change, GREENHOUSE gases, GLOBAL warming, GLOBAL temperature changes, GREENHOUSE effect, CLIMATOLOGY

Abstract

Two coupled general circulation models, i.e., the Meteorological Research Institute (MRI) and Geophysical Fluid Dynamics Laboratory (GFDL) models, were chosen to examine changes in mixed layer depth (MLD) in the equatorial tropical Pacific and its relationship with ENSO under climate change projections. The control experiment used pre-industrial greenhouse gas concentrations whereas the 2 × CO2 experiment used doubled CO2 levels. In the control experiment, the MLD simulated in the MRI model was shallower than that in the GFDL model. This resulted in the tropical Pacific’s mean sea surface temperature (SST) increasing at different rates under global warming in the two models. The deeper the mean MLD simulated in the control simulation, the lesser the warming rate of the mean SST simulated in the 2 × CO2 experiment. This demonstrates that the MLD is a key parameter for regulating the response of tropical mean SST to global warming. In particular, in the MRI model, increased stratification associated with global warming amplified wind-driven advection within the mixed layer, leading to greater ENSO variability. On the other hand, in the GFDL model, wind-driven currents were weak, which resulted in mixed-layer dynamics being less sensitive to global warming. The relationship between MLD and ENSO was also examined. Results indicated that the non-linearity between the MLD and ENSO is enhanced from the control run to the 2 × CO2 run in the MRI model, in contrast, the linear relationship between the MLD index and ENSO is unchanged despite an increase in CO2 concentrations in the GFDL model. [ABSTRACT FROM AUTHOR]

Published

2009

24. A Comparison of Climate Feedback Strength between CO2 Doubling and LGM Experiments.

Author

Yoshimori, Masakazu, Yokohata, Tokuta, and Abe-Ouchi, Ayako

Subjects

FORCING (Model theory), ASTROPHYSICAL radiation, GENERAL circulation model, GREENHOUSE gases, CLIMATE change, SOLAR radiation, SOLAR neutrinos, GLOBAL warming, GLOBAL temperature changes

Abstract

Studies of the climate in the past potentially provide a constraint on the uncertainty of climate sensitivity, but previous studies warn against a simple scaling to the future. Climate sensitivity is determined by a number of feedback processes, and they may vary according to climate states and forcings. In this study, the similarities and differences in feedbacks for CO2 doubling, a Last Glacial Maximum (LGM), and LGM greenhouse gas (GHG) forcing experiments are investigated using an atmospheric general circulation model coupled to a slab ocean model. After computing the radiative forcing, the individual feedback strengths of water vapor, lapse-rate, albedo, and cloud feedbacks are evaluated explicitly. For this particular model, the difference in the climate sensitivity between the experiments is attributed to the shortwave cloud feedback, in which there is a tendency for it to become weaker or even negative in cooling experiments. No significant difference is found in the water vapor feedback between warming and cooling experiments by GHGs. The weaker positive water vapor feedback in the LGM experiment resulting from a relatively weaker tropical forcing is compensated for by the stronger positive lapse-rate feedback resulting from a relatively stronger extratropical forcing. A hypothesis is proposed that explains the asymmetric cloud response between the warming and cooling experiments associated with a displacement of the region of mixed-phase clouds. The difference in the total feedback strength between the experiments is, however, relatively small compared to the current intermodel spread, and does not necessarily preclude the use of LGM climate as a future constraint. [ABSTRACT FROM AUTHOR]

Published

2009

25. Impacts of thermohaline circulation shutdown in the twenty-first century.

Author

Vellinga, Michael and Wood, Richard A.

Subjects

CLIMATE change, GLOBAL temperature changes, GLOBAL warming, GREENHOUSE gases, MERIDIONAL overturning circulation, OCEAN circulation, TWENTY-first century

Abstract

We discuss climate impacts of a hypothetical shutdown of the thermohaline circulation (‘THC’) in the 2050s, using the climate model HadCM3. Previous studies have generally focussed on the effects on pre-industrial climate. Here we take into account increased greenhouse gas concentrations according to an IS92a emissions scenario. THC shutdown causes cooling of the Northern Hemisphere of -1.7˚C, locally stronger. Over western Europe cooling is strong enough for a return to pre-industrial conditions and a significant increase in the occurrence of frost and snow cover. Global warming restricts the increase in sea ice cover after THC shutdown. This lessens the amount of cooling over NW Europe, but increases it over North America, compared to pre-industrial shutdown. This reflects a non-linearity in the local temperature response to THC shutdown. Precipitation change after THC shutdown is generally opposite to that caused by global warming, except in western and southern Europe, where summer drying is enhanced, and in Central America and southeast Asia, where precipitation is also further reduced. Local rise in sea level after THC shutdown can be large along Atlantic coasts (pm; 25,cm), which would add to the rise caused by global warming. Potentially rapid THC shutdown adds to the range of uncertainty of projected future climate change. [ABSTRACT FROM AUTHOR]

Published

2008

26. THE ECO-INDUSTRIAL COMPLEX IN USA--GLOBAL WARMING AND RENT-SEEKING COALITIONS.

Author

Jankovic, Ivan

Subjects

ECONOMICS, AMERICAN business enterprises, CLIMATE change, GREENHOUSE gases, ENVIRONMENTALISTS, RENEWABLE energy sources, GLOBAL temperature changes, GLOBAL warming

Abstract

The public choice model of rent-seeking economics is used to analyze the behaviour of firms, interest groups and scientists participating in efforts to impose climate change cap-and-trade regulations of greenhouse gasses in the USA. This may serve as a case study for the entire world. Yandle's "Bootleggers and Baptists" model and McChesney's model "money for nothing" are used to explain the formation, motives and interests of the groups lobbying for or against this type of regulation. The eco-industrial complex includes firms seeking favorable treatment under cap-and-trade regime, scientists relying on the global warming panic to keep research funds flowing and environmentalist NGOs interested in setting the public agenda and attracting grants and donations. According to our analysis nuclear and renewable energy firms are acting as bootleggers (who profit from legally restricted energy market), while the oil firms are behaving as agents paying protection money) to politicians and NGOs for not demanding harmful public regulation (legal extortion, i.e. "money for nothing"). [ABSTRACT FROM AUTHOR]

Published

2008

27. Attributing physical and biological impacts to anthropogenic climate change.

Author

Rosenzweig, Cynthia, Karoly, David, Vicarelli, Marta, Neofotis, Peter, Qigang Wu, Casassa, Gino, Menzel, Annette, Root, Terry L., Estrella, Nicole, Seguin, Bernard, Tryjanowski, Piotr, Chunzhen Liu, Rawlins, Samuel, and Imeson, Anton

Subjects

CLIMATE change, GREENHOUSE gases, GLOBAL warming, RADIATIVE forcing, CLIMATOLOGY, GLOBAL temperature changes, GREENHOUSE effect

Abstract

Significant changes in physical and biological systems are occurring on all continents and in most oceans, with a concentration of available data in Europe and North America. Most of these changes are in the direction expected with warming temperature. Here we show that these changes in natural systems since at least 1970 are occurring in regions of observed temperature increases, and that these temperature increases at continental scales cannot be explained by natural climate variations alone. Given the conclusions from the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report that most of the observed increase in global average temperatures since the mid-twentieth century is very likely to be due to the observed increase in anthropogenic greenhouse gas concentrations, and furthermore that it is likely that there has been significant anthropogenic warming over the past 50 years averaged over each continent except Antarctica, we conclude that anthropogenic climate change is having a significant impact on physical and biological systems globally and in some continents. [ABSTRACT FROM AUTHOR]

Published

2008

28. Global Warming and the Weakening of the Tropical Circulation.

Author

Vecchi, Gabriel A. and Soden, Brian J.

Subjects

GLOBAL temperature changes, GLOBAL warming, CLIMATE change, OCEAN circulation, OCEANOGRAPHY, WATER levels, GREENHOUSE gases, TEMPERATURE measurements, TEMPERATURE

Abstract

This study examines the response of the tropical atmospheric and oceanic circulation to increasing greenhouse gases using a coordinated set of twenty-first-century climate model experiments performed for the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report (AR4). The strength of the atmospheric overturning circulation decreases as the climate warms in all IPCC AR4 models, in a manner consistent with the thermodynamic scaling arguments of Held and Soden. The weakening occurs preferentially in the zonally asymmetric (i.e., Walker) rather than zonal-mean (i.e., Hadley) component of the tropical circulation and is shown to induce substantial changes to the thermal structure and circulation of the tropical oceans. Evidence suggests that the overall circulation weakens by decreasing the frequency of strong updrafts and increasing the frequency of weak updrafts, although the robustness of this behavior across all models cannot be confirmed because of the lack of data. As the climate warms, changes in both the atmospheric and ocean circulation over the tropical Pacific Ocean resemble “El Niño–like” conditions; however, the mechanisms are shown to be distinct from those of El Niño and are reproduced in both mixed layer and full ocean dynamics coupled climate models. The character of the Indian Ocean response to global warming resembles that of Indian Ocean dipole mode events. The consensus of model results presented here is also consistent with recently detected changes in sea level pressure since the mid–nineteenth century. [ABSTRACT FROM AUTHOR]

Published

2007

29. Detection of Human Influence on a New, Validated 1500-Year Temperature Reconstruction.

Author

Hegerl, Gabriele C., Crowley, Thomas J., Allen, Myles, Hyde, William T., Pollack, Henry N., Smerdon, Jason, and Zorita, Eduardo

Subjects

TEMPERATURE, CLIMATE change, CALIBRATION, GREENHOUSE gases, ANTHROPOGENIC effects on nature, GLOBAL warming, CLIMATOLOGY, EMISSIONS (Air pollution), GLOBAL temperature changes

Abstract

Climate records over the last millennium place the twentieth-century warming in a longer historical context. Reconstructions of millennial temperatures show a wide range of variability, raising questions about the reliability of currently available reconstruction techniques and the uniqueness of late-twentieth-century warming. A calibration method is suggested that avoids the loss of low-frequency variance. A new reconstruction using this method shows substantial variability over the last 1500 yr. This record is consistent with independent temperature change estimates from borehole geothermal records, compared over the same spatial and temporal domain. The record is also broadly consistent with other recent reconstructions that attempt to fully recover low-frequency climate variability in their central estimate. High variability in reconstructions does not hamper the detection of greenhouse gas–induced climate change, since a substantial fraction of the variance in these reconstructions from the beginning of the analysis in the late thirteenth century to the end of the records can be attributed to external forcing. Results from a detection and attribution analysis show that greenhouse warming is detectable in all analyzed high-variance reconstructions (with the possible exception of one ending in 1925), and that about a third of the warming in the first half of the twentieth century can be attributed to anthropogenic greenhouse gas emissions. The estimated magnitude of the anthropogenic signal is consistent with most of the warming in the second half of the twentieth century being anthropogenic. [ABSTRACT FROM AUTHOR]

Published

2007

30. Robust Responses of the Hydrological Cycle to Global Warming.

Author

Held, Isaac M. and Soden, Brian J.

Subjects

CLIMATE change, HYDROLOGIC cycle, GLOBAL temperature changes, GLOBAL warming, EVAPORATION (Meteorology), METEOROLOGICAL precipitation, ATMOSPHERIC water vapor, GREENHOUSE gases, MOISTURE

Abstract

Using the climate change experiments generated for the Fourth Assessment of the Intergovernmental Panel on Climate Change, this study examines some aspects of the changes in the hydrological cycle that are robust across the models. These responses include the decrease in convective mass fluxes, the increase in horizontal moisture transport, the associated enhancement of the pattern of evaporation minus precipitation and its temporal variance, and the decrease in the horizontal sensible heat transport in the extratropics. A surprising finding is that a robust decrease in extratropical sensible heat transport is found only in the equilibrium climate response, as estimated in slab ocean responses to the doubling of CO2, and not in transient climate change scenarios. All of these robust responses are consequences of the increase in lower-tropospheric water vapor. [ABSTRACT FROM AUTHOR]

Published

2006

31. INTEGRATED REGIONAL CHANGES IN ARCTIC CLIMATE FEEDBACKS: Implications for the Global Climate System.

Author

McGuire, A. David, Chapin III, F. S., Walsh, John E., and Wirth, Christian

Subjects

GLOBAL temperature changes, CLIMATE change, GLOBAL warming, GREENHOUSE effect

Abstract

The Arctic is a key part of the global climate system because the net positive energy input to the tropics must ultimately be resolved through substantial energy losses in high-latitude regions. The Arctic influences the global climate system through both positive and negative feedbacks that involve physical, ecological, and human systems of the Arctic. The balance of evidence suggests that positive feedbacks to global warming will likely dominate in the Arctic during the next 50 to 100 years. However, the negative feedbacks associated with changing the freshwater balance of the Arctic Ocean might abruptly launch the planet into another glacial period on longer timescales. In light of uncertainties and the vulnerabilities of the climate system to responses in the Arctic, it is important that we improve our understanding of how integrated regional changes in the Arctic will likely influence the evolution of the global climate system. [ABSTRACT FROM AUTHOR]

Published

2006

32. Transient Climate Simulations with the HadGEM1 Climate Model: Causes of Past Warming and Future Climate Change.

Author

Stott, Peter A., Jones, Gareth S., Lowe, Jason A., Thorne, Peter, Durman, Chris, Johns, Timothy C., and Thelen, Jean-Claude

Subjects

CLIMATE change, GLOBAL temperature changes, METEOROLOGICAL observations, CLIMATOLOGY, WEATHER, FORCING (Model theory), MODEL theory, GREENHOUSE gases, GLOBAL warming

Abstract

The ability of climate models to simulate large-scale temperature changes during the twentieth century when they include both anthropogenic and natural forcings and their inability to account for warming over the last 50 yr when they exclude increasing greenhouse gas concentrations has been used as evidence for an anthropogenic influence on global warming. One criticism of the models used in many of these studies is that they exclude some forcings of potential importance, notably from fossil fuel black carbon, biomass smoke, and land use changes. Herein transient simulations with a new model, the Hadley Centre Global Environmental Model version 1 (HadGEM1), are described, which include these forcings in addition to other anthropogenic and natural forcings, and a fully interactive treatment of atmospheric sulfur and its effects on clouds. These new simulations support previous work by showing that there was a significant anthropogenic influence on near-surface temperature change over the last century. They demonstrate that black carbon and land use changes are relatively unimportant for explaining global mean near-surface temperature changes. The pattern of warming in the troposphere and cooling in the stratosphere that has been observed in radiosonde data since 1958 can only be reproduced when the model includes anthropogenic forcings. However, there are some discrepancies between the model simulations and radiosonde data, which are largest where observational uncertainty is greatest in the Tropics and high latitudes. Predictions of future warming have also been made using the new model. Twenty-first-century warming rates, following policy-relevant emissions scenarios, are slightly greater in HadGEM1 than in the Third Hadley Centre Coupled Ocean–Atmosphere General Circulation Model (HadCM3) as a result of the extra forcing in HadGEM1. An experiment in which greenhouse gases and other anthropogenic forcings are stabilized at 2100 levels and held constant until 2200 predicts a committed twenty-second-century warming of less than 1 K, whose spatial distribution resembles that of warming during the twenty-first century, implying that the local feedbacks that determine the pattern of warming do not change significantly. [ABSTRACT FROM AUTHOR]

Published

2006

33. ABATEMENT OF GREENHOUSE GASES: DOES LOCATION MATTER?

Author

Berntsen, Terje, Fuglestvedt, Jan, Myhre, Gunnar, Stordal, Frode, and Berglen, Tore F.

Subjects

GREENHOUSE gases, CLIMATE change, EMISSIONS (Air pollution), AEROSOLS, GLOBAL warming, AIR pollution, GLOBAL temperature changes, ENVIRONMENTAL degradation, GASES, CLIMATOLOGY

Abstract

Today's climate policy is based on the assumption that the location of emissions reductions has no impact on the overall climate effect. However, this may not be the case since reductions of greenhouse gases generally will lead to changes in emissions of short-lived gases and aerosols. Abatement measures may be primarily targeted at reducing CO2, but may also simultaneously reduce emissions of NOx, CO, CH4 and SO2 and aerosols. Emissions of these species may cause significant additional radiative forcing. We have used a global 3-D chemical transport model and a radiative transfer model to study the impact on climate in terms of radiative forcing for a realistic change in location of the emissions from large-scale sources. Based on an assumed 10% reduction in CO2 emissions, reductions in the emissions of other species have been estimated. Climate impact for the SRES A1B scenario is compared to two reduction cases, with the main focus on a case with emission reductions between 2010 and 2030, but also a case with sustained emission reductions. The emission reductions are applied to four different regions (Europe, China, South Asia, and South America). In terms of integrated radiative forcing (over 100 yr), the total effect (including only the direct effect of aerosols) is always smaller than for CO2 alone. Large variations between the regions are found (53-86% of the CO2 effect). Inclusion of the indirect effects of sulphate aerosols reduces the net effect of measures towards zero. The global temperature responses, calculated with a simple energy balance model, show an initial additional warming of different magnitude between the regions followed by a more uniform reduction in the warming later. A major part of the regional differences can be attributed to differences related to aerosols, while ozone and changes in methane lifetime make relatively small contributions. Emission reductions in a different sector (e.g. transportation instead of large-scale sources) might change this conclusion since the NOx to SO2 ratio in the emissions is significantly higher for transportation than for large-scale sources. The total climate effect of abatement measures thus depends on (i) which gases and aerosols are affected by the measure, (ii) the lifetime of the measure implemented, (iii) time horizon over which the effects are considered, and (iv) the chemical, physical and meteorological conditions in the region. There are important policy implications of the results. Equal effects of a measure cannot be assumed if the measure is implemented in a different region and if several gases are affected. Thus, the design of emission reduction measures should be considered thoroughly before implementation. [ABSTRACT FROM AUTHOR]

Published

2006

34. Mechanisms Affecting the Overturning Response in Global Warming Simulations.

Author

Schweckendiek, U. and Willebrand, J.

Subjects

GLOBAL warming, CLIMATOLOGY, GLOBAL temperature changes, GREENHOUSE effect, ATMOSPHERIC temperature, GREENHOUSE gases, CLIMATE change, METEOROLOGY, METEOROLOGICAL precipitation

Abstract

Climate models used to produce global warming scenarios exhibit widely diverging responses of the thermohaline circulation (THC). To investigate the mechanisms responsible for this variability, a regional Atlantic Ocean model driven with forcing diagnosed from two coupled greenhouse gas simulations has been employed. One of the coupled models (MPI) shows an almost constant THC, the other (GFDL) shows a declining THC in the twenty-first century. The THC evolution in the regional model corresponds rather closely to that of the respective coupled simulation, that is, it remains constant when driven with the forcing from the MPI model, and declines when driven with the GFDL forcing. These findings indicate that a detailed representation of ocean processes in the region covered by the Atlantic model may not be critical for the simulation of the overall THC changes in a global warming scenario, and specifically that the coupled model’s rather coarse representation of water mass formation processes in the subpolar North Atlantic is unlikely to be the primary cause for the large differences in the THC evolution. Sensitivity experiments have confirmed that a main parameter governing the THC response to global warming is the density of the intermediate waters in the Greenland–Iceland–Norwegian Seas, which in turn influences the density of the North Atlantic Deep Water, whereas changes in the air–sea heat and freshwater fluxes over the subpolar North Atlantic are only of moderate importance, and mainly influence the interannual–decadal variability of THC. Finally, as a consequence of changing surface fluxes, the Labrador Sea convection ceases by about 2030 under both forcings (i.e., even in a situation where the overall THC is stable) indicating that the eventual breakdown of the convection is likely but need not coincide with substantial THC changes. [ABSTRACT FROM AUTHOR]

Published

2005

35. High-resolution simulations of global climate, part 2: effects of increased greenhouse cases.

Author

Govindasamy, B., Duffy, P. B., and Coquard, J.

Subjects

GLOBAL warming, CLIMATOLOGY, GLOBAL temperature changes, GREENHOUSE gases, GREENHOUSE effect, CLIMATE change

Abstract

We report results from the highest-resolution simulations of global warming yet performed with an atmospheric general circulation model. We compare the climatic response to increased greenhouse gases of the National Center for Atmospheric Research (NCAR) climate model, CCM3, at T42 and T170 resolutions (horizontal grid spacing of 300 and 75 km respectively). All simulations use prescribed sea surface temperatures (SST). Simulations of the climate of 2100 ad use SSTs based on those from NCAR coupled model, Climate System Model (CSM). We find that the global climate sensitivity and large-scale patterns of climate change are similar at T42 and T170. However, there are important regional scale differences that arise due to better representation of topography and other factors at high resolution. Caution should be exercised in interpreting specific features in our results both because we have performed climate simulations using a single atmospheric general circulation model and because we used with prescribed sea surface temperatures rather than interactive ocean and sea-ice models. [ABSTRACT FROM AUTHOR]

Published

2003

36. ANTHROPOGENIC CLIMATE CHANGE AND A NEW PARADIGM OF NATURAL RESOURCE PLANNING.

Author

Riebsame, William E.

Subjects

GREENHOUSE gases, INTERNATIONAL obligations, GLOBAL temperature changes, CLIMATOLOGY, CLIMATE change, GLOBAL warming

Abstract

Heightened public concerts, pending federal legislation, and calls for an international treaty to reduce emissions of greenhouse gases have placed pressure on resource planners to mitigate the causes and impacts of anthropogenic climate change despite uncertainly over its timing and magnitude. Traditional resource planning. however, as predicated on the assumption that future environmental conditions will emulate the past, and is based on total and national, rather than global, objectives, The threat of global warming calls for a new paradigm of resource planning, including expanded sensitivity analysis, incremental response as the threat evolves, an expanded range unadjustments and planning in a global context. [ABSTRACT FROM AUTHOR]

Published

1990

37. STATE OF THE CLIMATE 2014 -- SUMMARY.

Author

Ancelet, Travis

Subjects

ENVIRONMENTAL monitoring, CRYOSPHERE, GREENHOUSE gases, GLOBAL temperature changes, GLOBAL warming, CLIMATE change

Abstract

The article discusses the highlights of the Australian Bureau of Meteorology (BOM) and Commonwealth Scientific and Industrial Research Organisation's (CSIRO) "State of the Climate 2014" report. Some key points include the effects of the global warming in Australia, observations and monitoring covering Australia's climate, the global atmosphere and cryosphere, oceans, greenhouse gases and future climate scenarios.

Published

2014

38. The Anthropocene, global change and sleeping giants: where on Earth are we going?

Author

Steffen, Will

Subjects

GREENHOUSE gases, GLOBAL warming, CLIMATE change, SOIL moisture, AIR pollution, GLOBAL temperature changes

Abstract

The article discusses some of the most important aspects of the carbon cycle that have the potential to accelerate the rate of global warming beyond that attributed to human emissions of greenhouse gases. It discusses the impact of rising temperature and changing soil moisture on soil respiration. It also mentions the increase in disturbance in terrestrial ecosystems often linked with pulses of carbon to the atmosphere.

Published

2006