Your search keyword '"Christensen, O. B."' showing total 14 results

1. Adjusting climate model bias for agricultural impact assessment : How to cut the mustard

Author

Galmarini, S., Cannon, Aj, Ceglar, A., Christensen, O. B., de Noblet-Ducoudre, N., Dentener, F., Doblas-Reyes, F. J., Dosio, A., Gutierrez, J. M., Iturbide, M., Jury, M., Lange, S., Loukos, H., Maiorano, A., Maraun, D., McGinnis, S., Nikulin, Grigory, Riccio, A., Sanchez, E., Solazzo, E., Toreti, A., Vrac, M., Zampieri, M., Galmarini, S., Cannon, Aj, Ceglar, A., Christensen, O. B., de Noblet-Ducoudre, N., Dentener, F., Doblas-Reyes, F. J., Dosio, A., Gutierrez, J. M., Iturbide, M., Jury, M., Lange, S., Loukos, H., Maiorano, A., Maraun, D., McGinnis, S., Nikulin, Grigory, Riccio, A., Sanchez, E., Solazzo, E., Toreti, A., Vrac, M., and Zampieri, M.

Published

2019

2. Adjusting climate model bias for agricultural impact assessment : How to cut the mustard

Author

Galmarini, S., Cannon, Aj, Ceglar, A., Christensen, O. B., de Noblet-Ducoudre, N., Dentener, F., Doblas-Reyes, F. J., Dosio, A., Gutierrez, J. M., Iturbide, M., Jury, M., Lange, S., Loukos, H., Maiorano, A., Maraun, D., McGinnis, S., Nikulin, Grigory, Riccio, A., Sanchez, E., Solazzo, E., Toreti, A., Vrac, M., Zampieri, M., Galmarini, S., Cannon, Aj, Ceglar, A., Christensen, O. B., de Noblet-Ducoudre, N., Dentener, F., Doblas-Reyes, F. J., Dosio, A., Gutierrez, J. M., Iturbide, M., Jury, M., Lange, S., Loukos, H., Maiorano, A., Maraun, D., McGinnis, S., Nikulin, Grigory, Riccio, A., Sanchez, E., Solazzo, E., Toreti, A., Vrac, M., and Zampieri, M.

Published

2019

3. Scalability of regional climate change in Europe for high-end scenarios

Author

Christensen, O. B., Yang, S., Boberg, F., Maule, C. Fox, Thejll, P., Olesen, M., Drews, M., Sørup, H. J.D., Christensen, J. H., Christensen, O. B., Yang, S., Boberg, F., Maule, C. Fox, Thejll, P., Olesen, M., Drews, M., Sørup, H. J.D., and Christensen, J. H.

Abstract

With the help of a simulation using the global circulation model (GCM) EC-Earth, downscaled over Europe with the regional model DMI-HIRHAM5 at a 25 km grid point distance, we investigated regional climate change corresponding to 6°C of global warming to investigate whether regional climate change generally scales with global temperature even for very high levels of global warming. Through a complementary analysis of CMIP5 GCM results, we estimated the time at which this temperature may be reached; this warming could be reached in the first half of the 22nd century provided that future emissions are close to the RCP8.5 emission scenario. We investigated the extent to which pattern scaling holds, i.e. the approximation that the amplitude of any climate change will be approximately proportional to the amount of global warming. We address this question through a comparison of climate change results from downscaling simulations over the same integration domain, but for different driving and regional models and scenarios, mostly from the EU ENSEMBLES project. For almost all quantities investigated, pattern scaling seemed to apply to the 6° simulation. This indicates that the single 6° simulation in question is not an outlier with respect to these quantities, and that conclusions based on this simulation would probably correspond to conclusions drawn from ensemble simulations of such a scenario. In the case of very extreme precipitation, the changes in the 6° simulation are larger than would be expected from a linear behaviour. Conversely, the fact that the many model results follow a linear relationship for a large number of variables and areas confirms that the pattern scaling approximation is sound for the fields investigated, with the identified possible exceptions of high extremes of e.g. daily precipitation and maximum temperature.

Published

2015

4. Scalability of regional climate change in Europe for high-end scenarios

Author

Christensen, O. B., Yang, S., Boberg, F., Maule, C. Fox, Thejll, P, Olesen, M., Drews, Martin, Sørup, Hjalte Jomo Danielsen, Christensen, J. H., Christensen, O. B., Yang, S., Boberg, F., Maule, C. Fox, Thejll, P, Olesen, M., Drews, Martin, Sørup, Hjalte Jomo Danielsen, and Christensen, J. H.

Abstract

With the help of a simulation using the global circulation model (GCM) EC-Earth, downscaled over Europe with the regional model DMI-HIRHAM5 at a 25 km grid point distance, we investigated regional climate change corresponding to 6°C of global warming to investigate whether regional climate change generally scales with global temperature even for very high levels of global warming. Through a complementary analysis of CMIP5 GCM results, we estimated the time at which this temperature may be reached; this warming could be reached in the first half of the 22nd century provided that future emissions are close to the RCP8.5 emission scenario. We investigated the extent to which pattern scaling holds, i.e. the approximation that the amplitude of any climate change will be approximately proportional to the amount of global warming. We address this question through a comparison of climate change results from downscaling simulations over the same integration domain, but for different driving and regional models and scenarios, mostly from the EU ENSEMBLES project. For almost all quantities investigated, pattern scaling seemed to apply to the 6° simulation. This indicates that the single 6° simulation in question is not an outlier with respect to these quantities, and that conclusions based on this simulation would probably correspond to conclusions drawn from ensemble simulations of such a scenario. In the case of very extreme precipitation, the changes in the 6° simulation are larger than would be expected from a linear behaviour. Conversely, the fact that the many model results follow a linear relationship for a large number of variables and areas confirms that the pattern scaling approximation is sound for the fields investigated, with the identified possible exceptions of high extremes of e.g. daily precipitation and maximum temperature.

Published

2015

5. Identifying added value in two high-resolution climate simulations over Scandinavia

Author

Mayer, S., Fox Maule, C., Sobolowski, S., Christensen, O. B., Sørup, Hjalte Jomo Danielsen, Sunyer Pinya, Maria Antonia, Arnbjerg-Nielsen, Karsten, Barstad, I., Mayer, S., Fox Maule, C., Sobolowski, S., Christensen, O. B., Sørup, Hjalte Jomo Danielsen, Sunyer Pinya, Maria Antonia, Arnbjerg-Nielsen, Karsten, and Barstad, I.

Published

2014

6. Extreme and mean rainfall differences in observational data used as reference in climate studies

Author

Sørup, Hjalte Jomo Danielsen, Sunyer Pinya, Maria Antonia, Christensen, O. B., Arnbjerg-Nielsen, Karsten, Mikkelsen, Peter Steen, Sørup, Hjalte Jomo Danielsen, Sunyer Pinya, Maria Antonia, Christensen, O. B., Arnbjerg-Nielsen, Karsten, and Mikkelsen, Peter Steen

Published

2012

7. Extreme and mean rainfall differences in observational data used as reference in climate studies

Author

Sørup, Hjalte Jomo Danielsen, Sunyer Pinya, Maria Antonia, Christensen, O. B., Arnbjerg-Nielsen, Karsten, Mikkelsen, Peter Steen, Sørup, Hjalte Jomo Danielsen, Sunyer Pinya, Maria Antonia, Christensen, O. B., Arnbjerg-Nielsen, Karsten, and Mikkelsen, Peter Steen

Published

2012

8. Intensification of extreme European summer precipitation in a warmer climate

Author

Christensen, O. B., Christensen, J. H., Christensen, O. B., and Christensen, J. H.

Abstract

Heavy and/or extended precipitation episodes with subsequent surface runoff can inflict catastrophic property damage and loss of human life. Thus, it is important to determine how the character of such events could change in response to greenhouse gas-induced global warming. Impacts of climate warming on severe precipitation events in Europe on a diurnal time scale were investigated with a high-resolution regional climate model for two of the greenhouse gas emission scenarios constructed by the Intergovernmental Panel on Climate Change (IPCC; Nakicenovic, N., et al., 2000, IPCC special report on emission scenarios, 599 pp., Cambridge University Press, Cambridge, UK). A series of 30-year time slice experiments were conducted for periods representing the present (1961-1990) and the future (2071-2100). The large-scale initial and lateral boundary conditions were imposed from two different global models both originating from fully transient climate change simulations. Here, we show that although the summer time precipitation decreases over a substantial part of Europe in the scenarios analysed, an increase in the amount of precipitation exceeding the present-day 99th and in most cases even the 95th percentile is found for large areas. An analysis of daily precipitation over the entire European river catchments confirms this observation.

Published

2004

9. Intensification of extreme European summer precipitation in a warmer climate

Author

Christensen, O. B., Christensen, J. H., Christensen, O. B., and Christensen, J. H.

Abstract

Heavy and/or extended precipitation episodes with subsequent surface runoff can inflict catastrophic property damage and loss of human life. Thus, it is important to determine how the character of such events could change in response to greenhouse gas-induced global warming. Impacts of climate warming on severe precipitation events in Europe on a diurnal time scale were investigated with a high-resolution regional climate model for two of the greenhouse gas emission scenarios constructed by the Intergovernmental Panel on Climate Change (IPCC; Nakicenovic, N., et al., 2000, IPCC special report on emission scenarios, 599 pp., Cambridge University Press, Cambridge, UK). A series of 30-year time slice experiments were conducted for periods representing the present (1961-1990) and the future (2071-2100). The large-scale initial and lateral boundary conditions were imposed from two different global models both originating from fully transient climate change simulations. Here, we show that although the summer time precipitation decreases over a substantial part of Europe in the scenarios analysed, an increase in the amount of precipitation exceeding the present-day 99th and in most cases even the 95th percentile is found for large areas. An analysis of daily precipitation over the entire European river catchments confirms this observation.

Published

2004

10. Regional climate scenarios for use in Nordic water resources studies

Author

Rummukainen, Markku, Räisänen, J., Bjørge, D., Christensen, J. H., Christensen, O. B., Iversen, T., Jylhä, K., Ólafsson, H., Tuomenvirta, H., Rummukainen, Markku, Räisänen, J., Bjørge, D., Christensen, J. H., Christensen, O. B., Iversen, T., Jylhä, K., Ólafsson, H., and Tuomenvirta, H.

Abstract

According to global climate projections, a substantial global climate change will occur during the next decades, under the assumption of continuous anthropogenic climate forcing. Global models, although fundamental in simulating the response of the climate system to anthropogenic forcing are typically geographically too coarse to well represent many regional or local features. In the Nordic region, climate studies are conducted in each of the Nordic countries to prepare regional climate projections with more detail than in global ones. Results so far indicate larger temperature changes in the Nordic region than in the global mean, regional increases and decreases in net precipitation, longer growing season, shorter snow season etc. These in turn affect runoff, snowpack, groundwater, soil frost and moisture, and thus hydropower production potential, flooding risks etc. Regional climate models do not yet fully incorporate hydrology. Water resources studies are carried out off-line using hydrological models. This requires archived meteorological output from climate models. This paper discusses Nordic regional climate scenarios for use in regional water resources studies. Potential end-users of water resources scenarios are the hydropower industry, dam safety instances and planners of other lasting infrastructure exposed to precipitation, river flows and flooding.

Published

2003

11. Regional climate scenarios for use in Nordic water resources studies

Author

Rummukainen, Markku, Räisänen, J., Bjørge, D., Christensen, J. H., Christensen, O. B., Iversen, T., Jylhä, K., Ólafsson, H., Tuomenvirta, H., Rummukainen, Markku, Räisänen, J., Bjørge, D., Christensen, J. H., Christensen, O. B., Iversen, T., Jylhä, K., Ólafsson, H., and Tuomenvirta, H.

Abstract

According to global climate projections, a substantial global climate change will occur during the next decades, under the assumption of continuous anthropogenic climate forcing. Global models, although fundamental in simulating the response of the climate system to anthropogenic forcing are typically geographically too coarse to well represent many regional or local features. In the Nordic region, climate studies are conducted in each of the Nordic countries to prepare regional climate projections with more detail than in global ones. Results so far indicate larger temperature changes in the Nordic region than in the global mean, regional increases and decreases in net precipitation, longer growing season, shorter snow season etc. These in turn affect runoff, snowpack, groundwater, soil frost and moisture, and thus hydropower production potential, flooding risks etc. Regional climate models do not yet fully incorporate hydrology. Water resources studies are carried out off-line using hydrological models. This requires archived meteorological output from climate models. This paper discusses Nordic regional climate scenarios for use in regional water resources studies. Potential end-users of water resources scenarios are the hydropower industry, dam safety instances and planners of other lasting infrastructure exposed to precipitation, river flows and flooding.

Published

2003

12. A synthesis of regional climate change simulations - A Scandinavian perspective

Author

Christensen, J. H., Räinsänen, J., Iversen, T., Bjørge, D., Christensen, O. B., Rummukainen, M., Christensen, J. H., Räinsänen, J., Iversen, T., Bjørge, D., Christensen, O. B., and Rummukainen, M.

Abstract

Four downscaling experiments of regional climate change for the Nordic countries have been conducted with three different regional climate models (RCMs). A short synthesis of the outcome of the suite of experiments is presented as an ensemble, reflecting the different driving atmosphere-ocean general circulation model (AOGCM) conditions, RCM model resolution and domain size, and choice of emission scenarios. This allows the sources of uncertainties in the projections to be assessed. At the same time analysis of the climate change signal for temperature and precipitation over the period 1990-2050 reveals strong similarities. In particular, all experiments in the suite simulate changes in the precipitation distribution towards a higher frequency of heavy precipitation.

Published

2001

13. A synthesis of regional climate change simulations - A Scandinavian perspective

Author

Christensen, J. H., Räinsänen, J., Iversen, T., Bjørge, D., Christensen, O. B., Rummukainen, M., Christensen, J. H., Räinsänen, J., Iversen, T., Bjørge, D., Christensen, O. B., and Rummukainen, M.

Abstract

Four downscaling experiments of regional climate change for the Nordic countries have been conducted with three different regional climate models (RCMs). A short synthesis of the outcome of the suite of experiments is presented as an ensemble, reflecting the different driving atmosphere-ocean general circulation model (AOGCM) conditions, RCM model resolution and domain size, and choice of emission scenarios. This allows the sources of uncertainties in the projections to be assessed. At the same time analysis of the climate change signal for temperature and precipitation over the period 1990-2050 reveals strong similarities. In particular, all experiments in the suite simulate changes in the precipitation distribution towards a higher frequency of heavy precipitation.

Published

2001

14. H-H interactions in Pd

Author

Christensen, O. B., Ditlevsen, Peter, Jacobsen, Karsten Wedel, Stoltze, Per, Nielsen, Ole Holm, Nørskov, Jens Kehlet, Christensen, O. B., Ditlevsen, Peter, Jacobsen, Karsten Wedel, Stoltze, Per, Nielsen, Ole Holm, and Nørskov, Jens Kehlet

Abstract

A discussion of the H-H interactions in a metal is given. Based on self-consistent total-energy calculations within the local-density approximation for H2 in a homogeneous electron gas, we show that metallic electrons make the H-H interaction more repulsive than in vacuum. Using effective-medium theory to calculate total energies we show the same tendency for the short-range part of the H-H interaction when two H atoms are squeezed into a single site in Pd or PdH. At longer range (of the order a lattice constant) there is an attractive, lattice-mediated H-H interaction. On the basis of the calculated energetics, the thermodynamical properties of various palladium hydrides are modeled.

Published

1989