Toward understanding nonstationarity in climate and hydrology through tree ring proxy records

Natural proxy records of hydroclimatic behavior, such as tree ring chronologies, are a rich source of information of past climate‐driven nonstationarities in hydrologic variables. In this study, we investigate tree ring chronologies that demonstrate significant correlations with streamflows, with th...

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Bibliographic Details
Published in:Water resources research 2015-03, Vol.51 (3), p.1813-1830
Main Authors: Razavi, Saman, Elshorbagy, Amin, Wheater, Howard, Sauchyn, David
Format: Article
Language:English
Subjects:
climate change
Hydrology
nonstationarities
paleo-hydrology
Saskatchewan River Basin
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Summary:Natural proxy records of hydroclimatic behavior, such as tree ring chronologies, are a rich source of information of past climate‐driven nonstationarities in hydrologic variables. In this study, we investigate tree ring chronologies that demonstrate significant correlations with streamflows, with the objective of identifying the spatiotemporal patterns and extents of nonstationarities in climate and hydrology, which are essentially representations of past “climate changes.” First and second‐order nonstationarities are of particular interest in this study. As a prerequisite, we develop a methodology to assess the consistency and credibility of a regional network of tree ring chronologies as proxies for hydrologic regime. This methodology involves a cluster analysis of available tree ring data to understand and evaluate their dependence structure, and a regional temporal‐consistency plot to assess the consistency of different chronologies over time. The major headwater tributaries of the Saskatchewan River basin (SaskRB), the main source of surface water in the Canadian Prairie Provinces, are used as the case study. Results indicate that stationarity might never have existed in the hydrology of the region, as the statistical properties of annual paleo‐hydrologic proxy records across the basin, i.e., the mean and autocorrelation structure, have consistently undergone significant changes (nonstationarities) at different points in the history of the region. The spatial pattern of the changes in the mean statistic has been variable with time, indicating a time‐varying cross‐correlation structure across the tributaries of the SaskRB. Conversely, the changes in the autocorrelation structure across the basin have been in harmony over time. The results demonstrate that the 89 year period of observational record in this region is a poor representation of the long‐term properties of the hydrologic regime, and shorter periods, e.g., 30 year periods, are by no means representative. This paper highlights the need to broaden the understanding of hydrologic characteristics in any basin beyond the limited observational records, as an improved understanding is essential for more reliable assessment and management of available water resources. Key Points: Significant nonstationarities exist in the mean and autocorrelation structure Unlike the mean, autocorrelation changes consistently across space A 30 year period is not representative of long‐term hydrologic properties
ISSN:0043-1397
1944-7973
DOI:10.1002/2014WR015696