Your search keyword '"Rivington, M."' showing total 3 results

1. Evaluating regional climate model estimates against site-specific observed data in the UK

Author

Rivington, M., Miller, D., Matthews, K. B., Russell, G., Bellocchi, G., and Buchan, K.

Subjects

Climate -- Models, Earth sciences

Abstract

Byline: M. Rivington (1), D. Miller (1), K. B. Matthews (1), G. Russell (2), G. Bellocchi (3), K. Buchan (1) Abstract: This paper compares precipitation, maximum and minimum air temperature and solar radiation estimates from the Hadley Centre's HadRM3 regional climate model (RCM), (50x50 km grid cells), with observed data from 15 meteorological station in the UK, for the period 1960--90. The aim was to investigate how well the HadRM3 is able to represent weather characteristics for a historical period (hindcast) for which validation data exist. The rationale was to determine if the HadRM3 data contain systematic errors and to investigate how suitable the data are for use in climate change impact studies at particular locations. Comparing modelled and observed data helps assess and quantify the uncertainty introduced to climate impact studies. The results show that the model performs very well for some locations and weather variable combinations, but poorly for others. Maximum temperature estimations are generally good, but minimum temperature is overestimated and extreme cold events are not represented well. For precipitation, the model produces too many small events leading to a serious under estimation of the number of dry days (zero precipitation), whilst also over- or underestimating the mean annual total. Estimates represent well the temporal distribution of precipitation events. The model systematically over-estimates solar radiation, but does produce good quality estimates at some locations. It is concluded that the HadRM3 data are unsuitable for detailed (i.e. daily time step simulation model based) site-specific impacts studies in their current form. However, the close similarity between modelled and observed data for the historical case raises the potential for using simple adjustment methods and applying these to future projection data. Author Affiliation: (1) Macaulay Institute, Craigiebuckler, Aberdeen, AB15 8QH, UK (2) School of Geosciences, The Crew Building, University of Edinburgh, West Mains Road, Edinburgh, EH9 3JN, UK (3) Agrichiana Farming, Montepulciano, Siena, Italy Article History: Registration Date: 27/11/2007 Received Date: 27/06/2006 Accepted Date: 06/11/2007 Online Date: 19/02/2008

Published

2008

2. “Agro-meteorological indices and climate model uncertainty over the UK”

Author

Harding, A. E., primary, Rivington, M., additional, Mineter, M. J., additional, and Tett, S. F. B., additional

Published

2014

3. 'Agro-meteorological indices and climate model uncertainty over the UK'.

Author

Harding, A., Rivington, M., Mineter, M., and Tett, S.

Subjects

ATMOSPHERIC models, METEOROLOGICAL observations, PHYSIOLOGICAL effects of heat, UNCERTAINTY, CLIMATE change

Abstract

Five stakeholder-relevant indices of agro-meteorological change were analysed for the UK, over past (1961-1990) and future (2061-2090) periods. Accumulated Frosts, Dry Days, Growing Season Length, Plant Heat Stress and Start of Field Operations were calculated from the E-Obs (European Observational) and HadRM3 (Hadley Regional Climate Model) PPE (perturbed physics ensemble) data sets. Indices were compared directly and examined for current and future uncertainty. Biases are quantified in terms of ensemble member climate sensitivity and regional aggregation. Maps of spatial change then provide an appropriate metric for end-users both in terms of their requirements and statistical robustness. A future UK is described with fewer frosts, fewer years with a large number of frosts, an earlier start to field operations (e.g., tillage), fewer occurrences of sporadic rainfall, more instances of high temperatures (in both the mean and upper range), and a much longer growing season. [ABSTRACT FROM AUTHOR]

Published

2015