Movements of the thermocline lead to high variability in benthic mixing in the nearshore of a large lake

Chowdhury, M.R.; Wells, Mathew G.; Howell, E. Todd

doi:10.1002/2015wr017725

Cited by 21 publications

(16 citation statements)

References 83 publications

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“…In Lake Ontario, seiche-induced vertical thermocline deflections of up to 15 m have been observed, which resulted in diffusivities varying by a factor of 500. This occurred synchronously to the remarkable asymmetry in near-bed stratification, which oscillated between instability and ∼1 K m −1 (Chowdhury et al 2016). Although the details differ with the depth, slope, temperature (larger α for warmer water), and type of basin-scale waves, the common asymmetry in BBL stratification and turbulence is directly related to upslope and downslope flows, as shown in situ (Lorke et al 2008, Cossu & Wells 2013 and for models , Lorrai et al 2011.…”

Section: Shear-induced Convection Over Slopesmentioning

confidence: 72%

“…Model results indicate that convective turbulence during upflow inefficiently mixes already homogenized BBL water. During the strongly stratified downflow phase, BBL turbulence is suppressed (Chowdhury et al 2016). Hence, the question remains how efficiently the BBL water exchanges with interior water to store the potential energy generated by BBL turbulence , Lorrai et al 2011.…”

Section: Shear-induced Convection Over Slopesmentioning

confidence: 99%

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Convection in Lakes

Bouffard

Wüest

2019

Annu. Rev. Fluid Mech.

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Lakes and other confined water bodies are not exposed to tides, and their wind forcing is usually much weaker compared to ocean basins and estuaries. Hence, convective processes are often the dominant drivers for shaping mixing and stratification structures in inland waters. Due to the diverse environments of lakes—defined by local morphological, geochemical, and meteorological conditions, among others—a fascinating variety of convective processes can develop with remarkably unique signatures. Whereas the classical cooling-induced and shear-induced convections are well-known phenomena due to their dominant roles in ocean basins, other convective processes are specific to lakes and often overlooked, for example, sidearm, under-ice, and double-diffusive convection or thermobaric instability and bioconvection. Additionally, the peculiar properties of the density function at low salinities/temperatures leave distinctive traces. In this review, we present these various processes and connect observations with theories and model results.

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Section: Shear-induced Convection Over Slopesmentioning

confidence: 72%

Section: Shear-induced Convection Over Slopesmentioning

confidence: 99%

Convection in Lakes

Bouffard

Wüest

2019

Annu. Rev. Fluid Mech.

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“…During the upslope current, cold deep water flows over the warmer sediments. The resulting intermittent instability drives free convection and accelerates the fluxes at the sediment-water interface by more than 1 order of magnitude, as experimentally observed by Kirillin et al (2009), Lorke et al (2005) and Chowdhury et al (2016). In lakes with anoxic water layers, the seiche-induced oscillations can be accompanied by periodical changes in the oxygen concentration in a large internal shoreline area as described by Deemer et al (2015) for Lacamas Lake.…”

Section: Introductionmentioning

confidence: 72%

Oxycline oscillations induced by internal waves in deep Lake Iseo

Valerio

Pilotti

Lau

et al. 2019

Hydrol. Earth Syst. Sci.

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Abstract. Lake Iseo is undergoing a dramatic deoxygenation of the hypolimnion, representing an emblematic example among the deep lakes of the pre-alpine area that are, to a different extent, undergoing reduced deep-water mixing. In the anoxic deep waters, the release and accumulation of reduced substances and phosphorus from the sediments are a major concern. Because the hydrodynamics of this lake was shown to be dominated by internal waves, in this study we investigated, for the first time, the role of these oscillatory motions on the vertical fluctuations of the oxycline, currently situated at a depth of approximately 95 m, where a permanent chemocline inhibits deep mixing via convection. Temperature and dissolved oxygen data measured at moored stations show large and periodic oscillations of the oxycline, with an amplitude of up to 20 m and periods ranging from 1 to 4 days. Deep motions characterized by larger amplitudes at lower frequencies are favored by the excitation of second vertical modes in strongly thermally stratified periods and of first vertical modes in weakly thermally stratified periods, when the deep chemical gradient can support baroclinicity regardless. These basin-scale internal waves cause a fluctuation in the oxygen concentration between 0 and 3 mg L−1 in the water layer between 85 and 105 m in depth, changing the redox condition at the sediment surface. This forcing, involving approximately 3 % of the lake's sediment area, can have major implications for the biogeochemical processes at the sediment–water interface and for the internal matter cycle.

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“…Wind‐induced large amplitude internal waves are a ubiquitous feature of large thermally stratified lakes, and the resulting oscillating baroclinic flows have the potential to pump waters in and out of coastal embayments that have depths greater than the thermocline. For example, typical internal wave amplitudes are of order 10 m with periods of 1–2 d in most of the Great Lakes (Rao and Murthy ; Bouffard et al ; Austin ; Chowdhury et al ) and amplitudes of 5–10 m are observed in Lake Simcoe (Chowdhury et al ; Cossu et al ). In particular, a number of studies in long, deep, stratified lakes have discussed the importance of internal seiche pumping in the lateral transport of dissolved oxygen (DO) and suspended sediments (Lawrence et al ; Laval et al ; Valipour et al ).…”

mentioning

confidence: 99%

Internal waves pump waters in and out of a deep coastal embayment of a large lake

Flood

Wells

Dunlop

et al. 2019

Limnology & Oceanography

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Large internal waves are a ubiquitous feature of many thermally stratified lakes, and result in oscillating baroclinic flows that pump water into and out of deep coastal embayments. In the long, narrow, and deep Kempenfelt Bay of Lake Simcoe, we show that stratification and circulation were coupled, so that movements of the thermocline can effectively flush the embayment much faster than hydraulic residence time from river input alone. Internal currents were driven by long‐period internal waves and resulted in large horizontal excursion lengths of several kilometers, which could drive exchange of embayment waters with the main basin. If the embayments are long, wide, and deep, Coriolis forces also deflect the internal wave to follow the coastline on the right‐hand side in the direction of travel as a Kelvin‐type wave, resulting in a net cyclonic circulation in the embayment. This residual counterclockwise flow further facilitated flushing of Kempenfelt Bay. For the summer of 2015, we estimate that forced and free internal wave dynamics alone resulted in a seasonally averaged flushing timescale as short as 17 ± 6 d for the surface mixed layer, and of 13.5 ± 5 d for the hypolimnetic waters of Kempenfelt Bay. Kempenfelt Bay is representative of many long, deep, and narrow embayments found in the Laurentian Great Lakes and arctic fjords. The exchange processes investigated here are relevant for determining the dynamics of water quality parameters used as indicators to evaluate lake health and fish habitat.

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Movements of the thermocline lead to high variability in benthic mixing in the nearshore of a large lake

Cited by 21 publications

References 83 publications

Convection in Lakes

Convection in Lakes

Oxycline oscillations induced by internal waves in deep Lake Iseo

Internal waves pump waters in and out of a deep coastal embayment of a large lake

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