Changes in the timing of high river flows in New England over the 20th Century

Hodgkins, Glenn A.; Dudley, Robert W.; Huntington, Thomas G.

doi:10.1016/s0022-1694(03)00155-0

Cited by 220 publications

(194 citation statements)

References 27 publications

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“…Although the intent of the authors was to utilize the relatively similar climate in northern Maine as a point of comparison to southern Maine, Hodgkins et al (2003) found that the timing of peak streamflows in northern Maine over a similar study period changed significantly, while those in southern and coastal Maine, and much of southern New England did not. Peak streamflows, measured as winter/spring centre of volume, were found to occur earlier in northern Maine and these changes were correlated with warmer temperatures and earlier snowmelt.…”

Section: Discussionmentioning

confidence: 99%

Has urbanization changed ecological streamflow characteristics in Maine (USA)?

Martin

Kelleher

Wagener

2012

Hydrological Sciences Journal

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This paper examines the potential effects of urbanization on streamflow in Maine, USA, from 1950 to 2000. The study contrasts nine watersheds in southern Maine, which has seen steady urban growth over the study period, with nine rural watersheds from northern Maine. Historical population data and current land cover data are used to develop an urbanization score for each watershed. Trends in watershed urbanization over the study period are compared to trends in ecologically relevant streamflow characteristics. The results indicate that trends in northern, rural watersheds are much more consistent than the trends in the southern watersheds. Additionally, trends in the southern watersheds are inconsistent with the hydrological characteristics observed in urban watersheds elsewhere, likely due to the comparatively low level of current urban development in Maine's urban watersheds. Our study suggests that urban areas in Maine have not yet reached an urbanization threshold where streamflow impacts become consistently detectable.Key words urbanization; streamflow; land use; land cover; hydrology; Maine L'urbanisation a-t-elle changé les caractéristiques des débits écologiques dans le Maine (USA)?Résumé Cet article présente une étude des effets potentiels de l'urbanisation sur les écoulements dans le Maine, aux États-Unis, de 1950 à 2000. La comparaison concerne neuf bassins versants du sud du Maine, qui ont connu une urbanisation continue au cours de la période d'étude, et neuf bassins versants ruraux du nord de Maine. Des données démographiques historiques et des données actuelles d'occupation du sol ont été utilisées pour définir un indice d'urbanisation pour chaque bassin versant. Les tendances de l'urbanisation des bassins versants au cours de la période d'étude ont été comparées à l'évolution des caractéristiques des débits écologiquement pertinents. Les résultats indiquent que les tendances dans les bassins versants ruraux du Nord sont beaucoup plus cohérentes que les tendances dans les bassins versants du Sud. En outre, les tendances dans les bassins versants du Sud sont incompatibles avec les caractéristiques hydrologiques observées dans d'autres bassins versants urbains, probablement en raison du niveau relativement faible de développement urbain en cours dans les bassins versants urbains du Maine. Notre étude suggère que les zones urbaines dans le Maine n'ont pas encore atteint un seuil d'urbanisation où les impacts sur les débits deviennent significativement détectables.

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Section: Discussionmentioning

confidence: 99%

Has urbanization changed ecological streamflow characteristics in Maine (USA)?

Martin

Kelleher

Wagener

2012

Hydrological Sciences Journal

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“…Higher temperatures mean that a greater proportion of the winter precipitation falls as rain rather than snow, and the snowmelt season begins earlier. Snowmelt in parts of New England shifted forward by 1 to 2 weeks between 1936 and 2000 (Hodgkins et al, 2003), although this has had little discernible effect on summer flows (Hodgkins et al, 2005). [WGII 1.3.2]…”

Section: Runoff and River Dischargementioning

confidence: 99%

Resistance and Resilience of A Stream Salamander To Supraseasonal Drought

2012

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“…Despite this broad attention to annual streamflow and its connections to global climate processes and precursors, there has been relatively little attention paid to the intra-annual timing of streamflow, emphasizing the need for analysis of seasonal streamflow patterns to further improve understanding of large-scale hydrology and atmospheric behaviors in the main (flood) streamflow season globally (Dettinger and Diaz, 2000). Moreover, better assessment of streamflow timing and seasonality is important for addressing frequency and trend analyses, flood protection and preparedness, climate-related changes, and other hydrological applications that possess important sub-annual characteristics (Burn and Arnell, 1993;Burn and Hag Elnur, 2002;Cunderlik and Ouarda, 2009;Hodgkins et al, 2003). This motivates further investigation of intra-annual temporal streamflow patterns globally.…”

Section: Introductionmentioning

confidence: 99%

Defining high-flow seasons using temporal streamflow patterns from a global model

Lee

Ward

Block

2015

Hydrol. Earth Syst. Sci.

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Abstract. Globally, flood catastrophes lead all natural hazards in terms of impacts on society, causing billions of dollars of damages annually. Here, a novel approach to defining high-flow seasons (3-month) globally is presented by identifying temporal patterns of streamflow. The main high-flow season is identified using a volume-based threshold technique and the PCR-GLOBWB model. In comparison with observations, 40 % (50 %) of locations at a station (subbasin) scale have identical peak months and 81 % (89 %) are within 1 month, indicating fair agreement between modeled and observed high-flow seasons. Minor high-flow seasons are also defined for bi-modal flow regimes. Identified major and minor high-flow seasons together are found to well represent actual flood records from the Dartmouth Flood Observatory, further substantiating the model's ability to reproduce the appropriate high-flow season. These high-spatial-resolution high-flow seasons and associated performance metrics allow for an improved understanding of temporal characterization of streamflow and flood potential, causation, and management. This is especially attractive for regions with limited observations and/or little capacity to develop early warning flood systems.

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Changes in the timing of high river flows in New England over the 20th Century

Cited by 220 publications

References 27 publications

Has urbanization changed ecological streamflow characteristics in Maine (USA)?

Has urbanization changed ecological streamflow characteristics in Maine (USA)?

Resistance and Resilience of A Stream Salamander To Supraseasonal Drought

Defining high-flow seasons using temporal streamflow patterns from a global model

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