Heat exposure of corals: investigating the "other" diffusive boundary layer

Research output: Contribution to conferencePosterResearch

Standard

Heat exposure of corals: investigating the "other" diffusive boundary layer. / Jimenez, Isabel M.; Kühl, Michael; Larkum, Anthony W. D.; Ralph, Peter J.

2009. Poster session presented at ASLO Aquatic Sciences Meeting 2009, Nice, France.

Research output: Contribution to conferencePosterResearch

Harvard

Jimenez, IM, Kühl, M, Larkum, AWD & Ralph, PJ 2009, 'Heat exposure of corals: investigating the "other" diffusive boundary layer', ASLO Aquatic Sciences Meeting 2009, Nice, France, 25/01/2009 - 30/01/2009.

APA

Jimenez, I. M., Kühl, M., Larkum, A. W. D., & Ralph, P. J. (2009). Heat exposure of corals: investigating the "other" diffusive boundary layer. Poster session presented at ASLO Aquatic Sciences Meeting 2009, Nice, France.

Vancouver

Jimenez IM, Kühl M, Larkum AWD, Ralph PJ. Heat exposure of corals: investigating the "other" diffusive boundary layer. 2009. Poster session presented at ASLO Aquatic Sciences Meeting 2009, Nice, France.

Author

Jimenez, Isabel M. ; Kühl, Michael ; Larkum, Anthony W. D. ; Ralph, Peter J. / Heat exposure of corals: investigating the "other" diffusive boundary layer. Poster session presented at ASLO Aquatic Sciences Meeting 2009, Nice, France.

Bibtex

@conference{b4d8bff0ebd811ddbf70000ea68e967b,
title = "Heat exposure of corals: investigating the {"}other{"} diffusive boundary layer",
abstract = "HEAT EXPOSURE OF CORALS: INVESTIGATING THE {"}OTHER{"} DIFFUSIVE BOUNDARY LAYERRadiant energy reaching shallow water corals can cause their temperature to increase above that of the surrounding water, an effect which is reduced as flow increases. In order to better understand the thermal exposure of corals under bleaching conditions, we used temperature microsensors to investigate the thermal boundary layer (TBL) of a branching and a hemispherical coral species (Stylophora pistillata and Porites lobata). The TBL thickness for both species was 2 mm at quasi stagnant flow (0.3 cm/s), and declined exponentially at increasing flow. Dimensionless analysis of heat transfer (Nusselt-Reynolds number plots) resulted in a heat exponent of approx. 0.5, indicative of a laminar boundary layer and consistent with predictions from engineering theory for simple geometrical objects. However, additional measurements of oxygen transfer across the diffusive boundary layer (DBL) and a dimensionless analysis (Sherwood-Reynolds number plots) resulted in a greater exponent for mass transfer (~0.7) thus suggesting that heat and mass transfer at the surface of corals should not be treated as analogous processes.",
author = "Jimenez, {Isabel M.} and Michael K{\"u}hl and Larkum, {Anthony W. D.} and Ralph, {Peter J.}",
year = "2009",
language = "English",
note = "null ; Conference date: 25-01-2009 Through 30-01-2009",

}

RIS

TY - CONF

T1 - Heat exposure of corals: investigating the "other" diffusive boundary layer

AU - Jimenez, Isabel M.

AU - Kühl, Michael

AU - Larkum, Anthony W. D.

AU - Ralph, Peter J.

PY - 2009

Y1 - 2009

N2 - HEAT EXPOSURE OF CORALS: INVESTIGATING THE "OTHER" DIFFUSIVE BOUNDARY LAYERRadiant energy reaching shallow water corals can cause their temperature to increase above that of the surrounding water, an effect which is reduced as flow increases. In order to better understand the thermal exposure of corals under bleaching conditions, we used temperature microsensors to investigate the thermal boundary layer (TBL) of a branching and a hemispherical coral species (Stylophora pistillata and Porites lobata). The TBL thickness for both species was 2 mm at quasi stagnant flow (0.3 cm/s), and declined exponentially at increasing flow. Dimensionless analysis of heat transfer (Nusselt-Reynolds number plots) resulted in a heat exponent of approx. 0.5, indicative of a laminar boundary layer and consistent with predictions from engineering theory for simple geometrical objects. However, additional measurements of oxygen transfer across the diffusive boundary layer (DBL) and a dimensionless analysis (Sherwood-Reynolds number plots) resulted in a greater exponent for mass transfer (~0.7) thus suggesting that heat and mass transfer at the surface of corals should not be treated as analogous processes.

AB - HEAT EXPOSURE OF CORALS: INVESTIGATING THE "OTHER" DIFFUSIVE BOUNDARY LAYERRadiant energy reaching shallow water corals can cause their temperature to increase above that of the surrounding water, an effect which is reduced as flow increases. In order to better understand the thermal exposure of corals under bleaching conditions, we used temperature microsensors to investigate the thermal boundary layer (TBL) of a branching and a hemispherical coral species (Stylophora pistillata and Porites lobata). The TBL thickness for both species was 2 mm at quasi stagnant flow (0.3 cm/s), and declined exponentially at increasing flow. Dimensionless analysis of heat transfer (Nusselt-Reynolds number plots) resulted in a heat exponent of approx. 0.5, indicative of a laminar boundary layer and consistent with predictions from engineering theory for simple geometrical objects. However, additional measurements of oxygen transfer across the diffusive boundary layer (DBL) and a dimensionless analysis (Sherwood-Reynolds number plots) resulted in a greater exponent for mass transfer (~0.7) thus suggesting that heat and mass transfer at the surface of corals should not be treated as analogous processes.

M3 - Poster

Y2 - 25 January 2009 through 30 January 2009

ER -

ID: 9948715