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In the course of his presentation entitled Water Security and the Perfect Storm on United Nations World Water Day, March 22nd, Canada Excellence Research Chair Professor Howard Wheater announced the establishment of a new Global Institute for Water Security, to be based at the University of Saskatchewan.
Full details are available here
Two hydrology-related presentations from the University of Saskatchewan's Water Week are now available for online viewing:
March 25th - The Saskatoon Star Phoenix published an article highlighting planning by Professors John Pomeroy and Howard Wheater for a major Prairie research project this spring.
With near-record snowpacks persisting later than usual this year throughout much of the West, it's envisaged that the imminent melt season may well provide a "once-in-a-lifetime" opportunity to observe and document a runoff - and potentially flood - event of the scale currently thought to be likely.
The article is available here.
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Dr Dennis Lettenmaier of the University of Washington will speak on the topic of 'Unanswered questions in predicting the hydrologic impacts of climate change', on Wednesday, March 23, 2011, from 10:30 to 11:30 am, in the Convocation Hall.
Here is an abstract of Dr Lettenmaier's presentation:
From a societal perspective, changes in the land surface water cycle, perhaps aside from sea level rise, represent the most pervasive impacts of climate change. It is well established that increases in concentrations of greenhouse gases, most notably CO2 and CH4, will lead to increases in surface temperatures globally, and these effects are now evidenced in global observations. Furthermore, from first principles, increases in air temperature lead to higher atmospheric moisture, and in turn precipitation. Unfortunately, the implications of these global changes are much more difficult to unravel on a regional level, a problem that is compounded, from the standpoint of land surface hydrology, by the low skill of current generation climate models in representing precipitation. However, even absent these uncertainties, there remain key issues in our ability to represent land surface hydrologic sensitivities to a changing climate. Dr Lettenmaier will discuss three of these areas of uncertainty:
- In hydrologic model predictions of the precipitation and temperature sensitivities of annual runoff
- In the sensitivity of floods to changes in precipitation
- In the coupled interaction of atmospheric circulation and river runoff
Centre for Hydrology PhD Student Robert Armstrong will present details of his work on 'Spatial Variability of Actual Evaporation in a Prairie Landscape' on Monday 28 March, 2011 at 2:30pm, 144 Kirk Hall.
The following abstract provides an overview of his work;
Actual evaporation has considerable spatial variability that is not captured by point scale estimates from meteorological station data. Physically-based point scale evaporation models were found to provide reasonable estimates of evaporation for temporal scales from several days to seasonal periods but provided poorer estimates for daily and sub-daily periods. Remote sensing was valuable for deriving key variables needed for distributing point scale models for direct estimates over a larger area. A method was developed for distributing net radiation at the field scale which can be used to obtain the spatial variability of evaporation estimates. There was no evidence that spatial covariance between surface variables driving the Granger feedback evaporation model influenced upscaled evaporation estimates which can be attributed to offsetting interactions between model parameters. The variability of point scales estimates obtained from long term hydrological simulations during drought and non-drought periods was further considered across the Canadian Prairie region. The structure of drought was dynamic and there was no consistent spatial pattern of actual evaporation. The variability of evaporation increased as the drought progressed and declined sharply with ensuing wetter conditions.
The results contribute to a better understanding of the effects of spatial associations of key factors on evaporation estimates in a Prairie landscape. The methodology developed for distributing net radiation from assimilated visible and thermal images could potentially be used in regional scale modelling applications for improving evaporation estimates using point scale estimation techniques. The modelling algorithms applied to derive point estimates of evaporation from surface reference data may be useful for operational purposes that require estimates of evaporation (e.g. agriculture, hydrology, ecology, etc.).
MSc student Ross Phillips of the Centre for Hydrology, supervised by Prof John Pomeroy and Dr Chris Spence, has received approval for his Master's thesis on 'Connectivity and runoff dynamics in heterogeneous drainage basins'.
Ross's thesis was based largely on fieldwork in the Baker Creek research basin, in the Northwest Territories, and contributed to the findings of the IP3 network.
Details of the thesis are available here.
