Microthermal gradients and ecological implications in Dorset rivers

Clark, Elyse; Webb, B.; Ladle, M.

doi:10.1002/(sici)1099-1085(19990228)13:3<423::aid-hyp747>3.0.co;2-#

Cited by 55 publications

(46 citation statements)

References 24 publications

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“…The consideration of streambed heat flux in 1998 at Catamaran Brook, where limited data were available, showed that an improvement of less than 0.1°C could be achieved with the consideration of streambed fluxes. Groundwater and geothermal contributions have been observed to modify the thermal regime of rivers as reported in other studies (Clark et al, 1999). Heat flux at the sediment water interface has also been shown to be a contributing factor (Comer and Grenney, 1977;Hondzo and Stefan, 1994).…”

Section: Discussionsupporting

confidence: 66%

Predicting water temperatures using a deterministic model: Application on Miramichi River catchments (New Brunswick, Canada)

Caissie

Satish

El‐Jabi

2007

Journal of Hydrology

154

146

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Section: Discussionsupporting

confidence: 66%

Predicting water temperatures using a deterministic model: Application on Miramichi River catchments (New Brunswick, Canada)

Caissie

Satish

El‐Jabi

2007

Journal of Hydrology

154

146

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“…The influence of substrate type on diel temperature fluctuations is very dramatic in WS 3 because of the homogeneity of each reach type and the volume of water exposed to each substrate type. Most streams have high heterogeneity of substrate conditions, which may explain why the influence of specific substrates on in-stream temperature dynamics is not broadly recognized (i.e., Clark et al 1999).…”

Section: Substrate Influences On Stream Temperaturesmentioning

confidence: 99%

“…Dampening of subsurface diurnal water temperatures has been documented as a function of depth into subsurface gravels (Ringler and Hall 1975;Evans et al 1998;Malcolm et al 2002). Influences of hyporheic exchange flows on surface stream temperatures have generally been observed only at microscales, such as upwelling locations or within small side channels (White et al 1987;Evans et al 1998;Clark et al 1999), creating important thermal refugia for biota.…”

Section: Substrate Influences On Stream Temperaturesmentioning

confidence: 99%

Factors influencing stream temperatures in small streams: substrate effects and a shading experiment

Johnson¹

2004

Can. J. Fish. Aquat. Sci.

324

346

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The temperature of stream water is an important control of many in-stream processes. To better understand the processes and consequences of solar energy inputs to streams, stream temperature dynamics were examined before, during, and after experimental shading of a 150-m reach of a second-order stream in the Oregon Cascade Range. Maximum water temperatures declined significantly in the shaded reach, but minimum and mean temperatures were not modified. Heat budget calculations before shading show the dominance of solar energy as an influence of stream temperature. The influence of substrate type on stream temperature was examined separately where the water flowed first over bedrock and then through alluvial substrates. Maximum temperatures in the upstream bedrock reach were up to 8.6°C higher and 3.4°C lower than downstream in the alluvial reach. Better understanding of factors that influence not only maximum but minimum temperatures as well as diurnal temperature variation will highlight types of reaches in which stream temperature would be most responsive to changes in shading. Many apparent discrepancies in stream temperature literature can be explained by considering variation in the relative importance of different stream temperature drivers within and among streams and over time.Résumé : Dans les cours d'eau, la température de l'eau est un important facteur de contrôle de plusieurs processus internes. Afin de mieux comprendre les processus reliés à l'apport d'énergie solaire dans les cours d'eau et d'en éva-luer les conséquences, nous avons examiné la dynamique thermique avant, pendant et après une expérience dans laquelle nous avons ombragé expérimentalement une section de 150 m d'un ruisseau d'ordre deux dans la chaîne des monts Cascades en Oregon. Les températures maximales de l'eau ont décru significativement dans la section ombragée, mais les températures minimales et moyennes sont restées inchangées. Les calculs de bilans thermiques avant l'expérience ont montré que l'énergie solaire a une influence dominante sur la température du cours d'eau. L'effet du type de substrat sur la température du cours d'eau a pu être examiné séparément là où l'eau coule d'abord sur la roche-mère pour ensuite traverser des substrats alluviaux. Les températures maximales dans la section de roche-mère d'amont sont jusqu'à 8,6°C supérieures et 3,4°C inférieures à celles de la section alluviale d'aval. Une meilleure compréhension des facteurs qui influencent non seulement les températures maximales et minimales, mais aussi la variation journalière de la température, permettra d'identifier les sections dans lesquelles la température du cours d'eau est plus susceptible d'être affectée par les changements d'ombrage. Plusieurs contradictions apparentes dans la littéra-ture scientifique concernant la température des cours d'eau peuvent s'expliquer en considérant les variations dans le temps, ainsi que dans un même cours d'eau et d'un cours d'eau à un autre, de l'importance relative des différents facteurs qui régissent la températu...

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“…Another factor explaining the coincidence of the temperature and net shortwave radiation peaks is the shallowness of Fryxell Basin streams, typically less than 0.3 m. Vugts reported the rapid response of a small stream to meteorological conditions [53], and a study by Clark et al showed that water in shallow areas along the channel margins reached maximum and minimum daily temperatures an average of 180 and 100 min earlier, respectively, than water in the main channel [9]. Shallow depths may play a role in localized areas of heat gain in Von Guerard Stream.…”

Section: Processes and Factors Influencing Streamwater Warming: Radiamentioning

confidence: 99%

Experimental investigations into processes controlling stream and hyporheic temperatures, Fryxell Basin, Antarctica

Cozzetto

McKnight

Nylen

et al. 2006

Advances in Water Resources

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Microthermal gradients and ecological implications in Dorset rivers

Cited by 55 publications

References 24 publications

Predicting water temperatures using a deterministic model: Application on Miramichi River catchments (New Brunswick, Canada)

Predicting water temperatures using a deterministic model: Application on Miramichi River catchments (New Brunswick, Canada)

Factors influencing stream temperatures in small streams: substrate effects and a shading experiment

Experimental investigations into processes controlling stream and hyporheic temperatures, Fryxell Basin, Antarctica

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