Ice regimes, ice jams, and a changing hydroclimate, Saint John (Wolastoq) River, New Brunswick, Canada-Reference-Cited by-同舟云学术

Ice regimes, ice jams, and a changing hydroclimate, Saint John (Wolastoq) River, New Brunswick, Canada

Published:2024-06-15 Issue: Volume: Page:
ISSN:0921-030X
Container-title:Natural Hazards
language:en
Short-container-title:Nat Hazards

Author:

Newton Brent,Beltaos Spyros^ORCID,Burrell Brian C.

Abstract

AbstractIce formation, growth, and breakup along the Saint John River (SJR) affects its hydraulic and ecological regimes and leads to the potential for ice jamming that has caused severe flooding and ice runs resulting in loss of life, property damage, and loss of, or damage to, infrastructure. A synopsis of ice regimes and ice jamming along the SJR from Dickey, Maine, USA to Woodstock, New Brunswick, Canada is summarized in this paper. Trends in relevant hydroclimatic variables such as monthly mean air temperature (December to April), total winter snow (December to March), length of the ice season, rainfall, and monthly mean and peak winter and spring flows are discussed. Projections of future ice regimes under a changing climate are provided, with anticipated changes in the ice regime of the SJR explained in the wider context of changes to the cryosphere.

Funder

Environment & Climate Change Canada

Publisher

Springer Science and Business Media LLC

Link

https://link.springer.com/content/pdf/10.1007/s11069-024-06736-5.pdf

Reference62 articles.

1. Acres (1976) Saint John River. Performed for the Canada-New Brunswick flood damage reduction program. Acres consulting services limited, Niagara Falls, Ontario

2. Acres (1988) 1987 Saint John River Flooding. A report prepared for the New Brunswick Electric power commission. Acres international limited, Niagara Falls, Ontario

3. Acres (1992) Hydrotechnical studies of ice breakup in Beechwood head pond. Acres international ltd, Niagara Falls, Canada

4. Arisz H, Dalton S, Scott D, Burrell BC (2011) Trends in New Brunswick hydrometric data. In Proceedings of the annual conference of the Canadian society for civil engineering, 14–17 June 2011, Ottawa, Ontario, pp 2995–3005

5. Beltaos S (2002) Effects of climate on mid-winter ice jams. Hydrol Process 16:789–804. https://doi.org/10.1002/hyp.370