| Engineering Risk in Natural Resources Management: With Special References to Hydrosystems Under Changes of Physical or Climatic Environment 1994 Edition Contributor(s): Duckstein, L. (Editor), Parent, E. (Editor) |
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ISBN: 0792330102 ISBN-13: 9780792330103 Publisher: Springer OUR PRICE: $313.49 Product Type: Hardcover - Other Formats Published: September 1994 Annotation: Special References to Hydrosystems Under Changes of Physical or Climatic Environment Proceedings of the NATO Advanced Study Institute on Engineering Risk and Reliability in a Changing Phys ical Environment, New Developments in Resources Management with Applications to Non-Stead y Conditions', Deauville, France, May 24--June 4, 1993 |
| Additional Information |
| BISAC Categories: - Technology & Engineering | Environmental - General - Science | Environmental Science (see Also Chemistry - Environmental) - Science | Earth Sciences - Geology |
| Dewey: 628.1 |
| LCCN: 94028193 |
| Series: NATO Science Series E: |
| Physical Information: 1.06" H x 6.14" W x 9.21" (1.90 lbs) 474 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: The purpose of this paper is to present a methodology for estimating space-time stochastic properties of local climatic factors reflecting global climate change. Specifically, daily precipitation amount and daily mean temperature are considered and illustrated with application to the state of Nebraska, U. S. A. Furthermore, a drought index with and without global climate change is examined. The magnitude and consequences of regional response to anticipated climatic changes are uncertain (Houghton et al., 1990). Typical questions to be answered are: can time series of hydrological events or 10cal climatic variables such as daily temperature be conditioned in scenarios of future climate change and if so, how can this be utilized ? Can extreme historical drought events be reproduced by a stochastic hydroc1imatological model ? Can such a model be used with General Circu1ation Model (GCM) outputs to evaluate the regional/local effects of climate change scenarios? The approach presented in this paper is an extension of the usual analysis of regional hydrometeorological impacts of climate change: we propose to examine time series of GCM- produced daily atmospheric circulation patterns (CP), thought to be relatively accurate GCM output to estimate local climatic factors. The paper is organized as follows. First, daily CPs are classified and analyzed statistically, first for historical and then for GCM produced data. Next, the height of the 500 hPa pressure field is introduced as an additional physically relevant variable influencing local climatic factors within each CP type. |