Publication Date:
2022-05-25
Description:
Author Posting. © American Geophysical Union, 2006. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Water Resources Research 42 (2006): W03426, doi:10.1029/2005WR004131.
Description:
We assessed the effects of historical (1931-1998) changes in both land-use and climate on the
water budget of a rapidly urbanizing watershed, Ipswich River basin (IRB), in northeastern
Massachusetts. Water diversions and extremely low flow during summer are major issues in the IRB.
Our study centers on a detailed analysis of diversions and a combined empirical/modeling treatment of
evapotranspiration (ET) response to changes in climate and land-use. A detailed accounting of
diversions showed that net diversions increased due to increases in water withdrawals (primarily
ground water pumping) and export of sewage. Net diversions constitute a major component of runoff
(20% of streamflow). Using a combination of empirical analysis and physically based modeling we
related an increase in precipitation (2.7 mm/yr) and changes in other climate variables to an increase in
ET (1.7 mm/yr). Simulations with a physically based water-balance model showed that the increase in
ET could be attributed entirely to a change in climate, while the effect of land-use change was
negligible. The land-use change effect was different from ET and runoff trends commonly associated
with urbanization. We generalized these and other findings to predict future streamflow using climate
change scenarios. Our study could serve as a framework for studying suburban watersheds, being the
first study of a suburban watershed that addresses long-term effects of changes in both land-use and
climate, and accounts for diversions and other unique aspects of suburban hydrology.
Description:
This research was partially supported by NSF grants (DEB-9726862,
OCE-9726921 and OCE-0423565).
Keywords:
Water budgets
;
Evapotranspiration
;
Climate change
;
Land-use change
;
Urbanization
;
Water-balance model
;
Ipswich River
Repository Name:
Woods Hole Open Access Server
Type:
Article
Format:
application/pdf
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