Your search keyword '"Liddicoat, MI"' showing total 5 results

1. A Lagrangian biogeochemical study of an eddy in the Northeast Atlantic

Author

Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, deGrandpre, MD, Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, and deGrandpre, MD

Abstract

We report the results of an experiment in the Northeast Atlantic in which sulphur hexafluoride (SF6) was released within an eddy and the behaviour of trace gases, nutrients and productivity followed within a Lagrangian framework over a period of 24 days. Measurements were also made in the air above the eddy in order to estimate air–sea exchange rates for some components. The physical, biological and biogeochemical properties of the eddy resemble those of other eddies studied in this area, suggesting that the results we report may be applicable beyond the specific eddy studied. During a period of low wind speed at the start of the experiment, we are able to quantitatively describe and balance the nutrient and carbon budgets for the eddy. We also report concentrations of various trace gases in the region which are similar to those observed in other studies and we estimate exchange rates for several trace gases. We show that the importance of gas exchange over other loss terms varies with time and also varies for the different gases. We show that the various trace gases considered (CO\(_2\), dimethyl sulphide (DMS), N\(_2\)O, CH\(_4\), non-methane-hydrocarbons, methyl bromide, methyl iodide and volatile selenium species) are all influenced by physical and biological processes, but the overall distribution and temporal variability of individual gases are different to one another. A storm disrupted the stratification in the eddy during the experiment, resulting in enhanced nutrient supply to surface waters, enhanced gas exchange rates and a change in plankton community, which we quantify, although overall productivity was little changed. Emphasis is placed on the regularity of storms in the temperate ocean and the importance of these stochastic processes in such systems.

2. A Lagrangian biogeochemical study of an eddy in the Northeast Atlantic

Author

Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, deGrandpre, MD, Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, and deGrandpre, MD

Abstract

We report the results of an experiment in the Northeast Atlantic in which sulphur hexafluoride (SF6) was released within an eddy and the behaviour of trace gases, nutrients and productivity followed within a Lagrangian framework over a period of 24 days. Measurements were also made in the air above the eddy in order to estimate air–sea exchange rates for some components. The physical, biological and biogeochemical properties of the eddy resemble those of other eddies studied in this area, suggesting that the results we report may be applicable beyond the specific eddy studied. During a period of low wind speed at the start of the experiment, we are able to quantitatively describe and balance the nutrient and carbon budgets for the eddy. We also report concentrations of various trace gases in the region which are similar to those observed in other studies and we estimate exchange rates for several trace gases. We show that the importance of gas exchange over other loss terms varies with time and also varies for the different gases. We show that the various trace gases considered (CO\(_2\), dimethyl sulphide (DMS), N\(_2\)O, CH\(_4\), non-methane-hydrocarbons, methyl bromide, methyl iodide and volatile selenium species) are all influenced by physical and biological processes, but the overall distribution and temporal variability of individual gases are different to one another. A storm disrupted the stratification in the eddy during the experiment, resulting in enhanced nutrient supply to surface waters, enhanced gas exchange rates and a change in plankton community, which we quantify, although overall productivity was little changed. Emphasis is placed on the regularity of storms in the temperate ocean and the importance of these stochastic processes in such systems.

3. A Lagrangian biogeochemical study of an eddy in the Northeast Atlantic

Author

Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, deGrandpre, MD, Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, and deGrandpre, MD

Abstract

We report the results of an experiment in the Northeast Atlantic in which sulphur hexafluoride (SF6) was released within an eddy and the behaviour of trace gases, nutrients and productivity followed within a Lagrangian framework over a period of 24 days. Measurements were also made in the air above the eddy in order to estimate air–sea exchange rates for some components. The physical, biological and biogeochemical properties of the eddy resemble those of other eddies studied in this area, suggesting that the results we report may be applicable beyond the specific eddy studied. During a period of low wind speed at the start of the experiment, we are able to quantitatively describe and balance the nutrient and carbon budgets for the eddy. We also report concentrations of various trace gases in the region which are similar to those observed in other studies and we estimate exchange rates for several trace gases. We show that the importance of gas exchange over other loss terms varies with time and also varies for the different gases. We show that the various trace gases considered (CO\(_2\), dimethyl sulphide (DMS), N\(_2\)O, CH\(_4\), non-methane-hydrocarbons, methyl bromide, methyl iodide and volatile selenium species) are all influenced by physical and biological processes, but the overall distribution and temporal variability of individual gases are different to one another. A storm disrupted the stratification in the eddy during the experiment, resulting in enhanced nutrient supply to surface waters, enhanced gas exchange rates and a change in plankton community, which we quantify, although overall productivity was little changed. Emphasis is placed on the regularity of storms in the temperate ocean and the importance of these stochastic processes in such systems.

4. A Lagrangian biogeochemical study of an eddy in the Northeast Atlantic

Author

Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, deGrandpre, MD, Jickells, TD, Liss, PS, Broadgate, W, Turner, S, Kettle, AJ, Read, JF, Baker, J, Cardenas, LM, Carse, F, Hamren-Larssen, M, Spokes, L, Steinke, M, Thompson, A, Watson, A, Archer, SD, Bellerby, RGJ, Law, CS, Nightingale, PD, Liddicoat, MI, Widdicombe, CE, Bowie, AR, Gilpin, LC, Moncoiffe, G, Savidge, G, Preston, T, Hadziabdic, P, Frost, T, Upstill-Goddard, R, Pedros-Alio, C, Simo, R, Jackson, AW, Allen, A, and deGrandpre, MD

Abstract

We report the results of an experiment in the Northeast Atlantic in which sulphur hexafluoride (SF6) was released within an eddy and the behaviour of trace gases, nutrients and productivity followed within a Lagrangian framework over a period of 24 days. Measurements were also made in the air above the eddy in order to estimate air–sea exchange rates for some components. The physical, biological and biogeochemical properties of the eddy resemble those of other eddies studied in this area, suggesting that the results we report may be applicable beyond the specific eddy studied. During a period of low wind speed at the start of the experiment, we are able to quantitatively describe and balance the nutrient and carbon budgets for the eddy. We also report concentrations of various trace gases in the region which are similar to those observed in other studies and we estimate exchange rates for several trace gases. We show that the importance of gas exchange over other loss terms varies with time and also varies for the different gases. We show that the various trace gases considered (CO\(_2\), dimethyl sulphide (DMS), N\(_2\)O, CH\(_4\), non-methane-hydrocarbons, methyl bromide, methyl iodide and volatile selenium species) are all influenced by physical and biological processes, but the overall distribution and temporal variability of individual gases are different to one another. A storm disrupted the stratification in the eddy during the experiment, resulting in enhanced nutrient supply to surface waters, enhanced gas exchange rates and a change in plankton community, which we quantify, although overall productivity was little changed. Emphasis is placed on the regularity of storms in the temperate ocean and the importance of these stochastic processes in such systems.

5. Safety considerations regarding the use of propane and other liquefied gases as coolants for rapid freezing purposes.

Author

Ryan KP and Liddicoat MI

Subjects

Freezing methods, Equipment Safety, Ethane, Freezing instrumentation, Nitrogen, Propane

Abstract

Liquid propane and similar coolants are used in the rapid freezing of biological specimens. These coolants form explosive gas mixtures with air, with a 14,000-fold increase in volume over that of the liquid. The liquefied gases have high vapour pressures and, unless they are maintained below their flashpoint, the vapour above them will reach ignitable concentrations. The flashpoint of liquid propane is -104 degrees C. Ethane has a higher vapour pressure, and vapour mixed with air above liquid ethane can be ignited at a coolant temperature of -130 degrees C. The danger is minimized if the coolant is maintained near its freezing point and under a nitrogen atmosphere, in a fume cupboard. Liquid nitrogen evaporates to a 690-fold increase in volume at room temperature. It is important to ventilate the working area, especially when cryo-sectioning in a small room, otherwise there is a possibility of asphyxiation.

Published

1987