NBER WORKING PAPER SERIES UNCERTAINTY AND DECISION IN CLIMATE CHANGE ECONOMICS

... – we are in a world of ‘uncertainty’ rather than ‘risk’ in the words of Knight (1921). How then should we make policy decisions in such an informational environment? We will argue that the standard von Neumann-Morgenstern Expected Utility framework for decision making under uncertainty is of limite ...

Projected increases in near‑surface air temperature over Ontario

... Province in the context of global warming, is of great interest to local policy makers, stakeholders, and development practitioners. Therefore, in this study, high-resolution projections of near-surface air temperature outcomes including mean, maximum, and minimum daily temperature over Ontario are ...

Robust Land–Ocean Contrasts in Energy and Water Cycle Feedbacks

... Building on recent observational evidence showing disproportionate increases in temperature and aridity over land in a warming climate, this study examines simulated land–ocean contrasts in fully coupled projections from the Third Coupled Model Intercomparison Project (CMIP3) archive. In addition to ...

IEM_RWO_Proposal_PhaseIII_20160531

... were delayed due to the need to refactor the DVM-DOS-TEM codebase. Once the technical issues of the refactoring effort are complete and the Gen 2 coupling is addressed, a scientific evaluation of the model needs to be conducted to determine if the spatial and temporal dynamics of the application of ...

- Wiley Online Library

Greening of the Earth and its drivers

A New Non-oscillatory Numerical Approach for Structural Dynamics

... smoothed particle hydrodynamics (SPH) method and others. Many different numerical methods have been developed for the time integration of Eq. (1). However, for wave propagation problems, the integration of Eq. (1) leads to the appearance of spurious high-frequency oscillations. Both the spatial disc ...

REQUEST FOR CLIMATE SIMULATION LABORATORY

Assessment of climate change impact on hydrological extremes in

Chapter 6: Projections Based on Global Climate Models

The importance of ENSO phase during volcanic eruptions

... 2010], BEST [Rohde et al., 2012], and MLOST [Vose et al., 2012]); however, since the results are not dependent on the data set used (see Figure S1), we do not discuss them further. We use monthly mean 2 m air temperature from all model simulations with the tag “historical” and “historicalNat” from t ...

Pattern scaled climate change scenarios: are these useful for adaptation? - Working Paper 71 (699 kB) (opens in new window)

Baltic Sea catchment

Regional climate change and its impact on photooxidant

Downscaling climate change scenarios for apple pest and disease

Palaeoclimatic insights into future climate challenges

... temperature in East Antarctica have been correlated. The data thus indicate that the globalization of the orbital ice-age signal was achieved by CO2 . The climatic sensitivity to this forcing can then provide a test of the sensitivity of climate models. A simple way to do this was presented by Hoﬀer ...

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Abstracts of research articles focusing on the climate change and

... Abstract Regional climate model (RCM) RegCM3 with 50 km horizontal resolution driven from the lateral boundaries by the data from NCEP/NCAR re-analysis is used in a series of ten climate downscaling experiments over the eastern Mediterranean (EM) region. Results of the experiments are characterized ...

Fermionic phase-space method for exact quantum dynamics

On the tropical origin of uncertainties in the global land precipitation

... precipitation on a wide range of scales is a major obstacle for detecting trends in precipitation timeseries that show a much weaker signal to noise ratio than temperature records. The situation is particularly critical over the oceanic regions given the lack of direct measurements of precipitation. ...

6 Vegetation Responses to Climate Change in the Alps: Modeling

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... price variables are the market year prices received for the major field crops (corn, soybeans, wheat, and hay) and the mean per-capita value of inventory for the major livestock animals (cattle and swine). The latter two variables performed better than beef and pork prices and the per-capita cattle ...

Coalition formation in Integrated Assessment Models

- The University of Liverpool Repository

... Africa. While the two malaria models produce very distinct transmission patterns for the recent climate, their response to future climate change is similar in terms of sign and spatial distribution, with malaria transmission moving to higher altitudes in the East African Community (EAC) region, whil ...

Is Strange Weather in the Air? A Study of US National Network News

... Overall, Figure 6 displays rapid year-by-year fluctuations in the level of coverage. Until 1988, noticeable peaks in coverage occur at best every five or six years. But between 1992 and 1996, peak coverage is found in four of the five years. Given that the number of stories in these years exceed all ...

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Numerical weather prediction

Numerical weather prediction uses mathematical models of the atmosphere and oceans to predict the weather based on current weather conditions. Though first attempted in the 1920s, it was not until the advent of computer simulation in the 1950s that numerical weather predictions produced realistic results. A number of global and regional forecast models are run in different countries worldwide, using current weather observations relayed from radiosondes, weather satellites and other observing systems as inputs.Mathematical models based on the same physical principles can be used to generate either short-term weather forecasts or longer-term climate predictions; the latter are widely applied for understanding and projecting climate change. The improvements made to regional models have allowed for significant improvements in tropical cyclone track and air quality forecasts; however, atmospheric models perform poorly at handling processes that occur in a relatively constricted area, such as wildfires.Manipulating the vast datasets and performing the complex calculations necessary to modern numerical weather prediction requires some of the most powerful supercomputers in the world. Even with the increasing power of supercomputers, the forecast skill of numerical weather models extends to about only six days. Factors affecting the accuracy of numerical predictions include the density and quality of observations used as input to the forecasts, along with deficiencies in the numerical models themselves. Post-processing techniques such as model output statistics (MOS) have been developed to improve the handling of errors in numerical predictions.A more fundamental problem lies in the chaotic nature of the partial differential equations that govern the atmosphere. It is impossible to solve these equations exactly, and small errors grow with time (doubling about every five days). Present understanding is that this chaotic behavior limits accurate forecasts to about 14 days even with perfectly accurate input data and a flawless model. In addition, the partial differential equations used in the model need to be supplemented with parameterizations for solar radiation, moist processes (clouds and precipitation), heat exchange, soil, vegetation, surface water, and the effects of terrain. In an effort to quantify the large amount of inherent uncertainty remaining in numerical predictions, ensemble forecasts have been used since the 1990s to help gauge the confidence in the forecast, and to obtain useful results farther into the future than otherwise possible. This approach analyzes multiple forecasts created with an individual forecast model or multiple models.

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Numerical weather prediction