Your search keyword '"Klinkhammer, Gary"' showing total 18 results

1. Linking the 8.2 ka event and its freshwater forcing in the Labrador Sea

Author

Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., Strasser, Jeffrey C., Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., and Strasser, Jeffrey C.

Abstract

The 8.2 ka event was the last deglacial abrupt climate event. A reduction in the Atlantic meridional overturning circulation (AMOC) attributed to the drainage of glacial Lake Agassiz may have caused the event, but the freshwater signature of Lake Agassiz discharge has yet to be identified in delta O-18 of foraminiferal calcite records from the Labrador Sea, calling into question the connection between freshwater discharge to the North Atlantic and AMOC strength. Using Mg/Ca-paleothermometry, we demonstrate that similar to 3 degrees C of near-surface ocean cooling masked an similar to 1.0 parts per thousand decrease in western Labrador Sea delta O-18 of seawater concurrent with Lake Agassiz drainage. Comparison with North Atlantic delta O-18 of seawater records shows that the freshwater discharge was transported to regions of deep-water formation where it could perturb AMOC and force the 8.2 ka event.

Published

2012

2. Linking the 8.2 ka event and its freshwater forcing in the Labrador Sea

Author

Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., Strasser, Jeffrey C., Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., and Strasser, Jeffrey C.

Abstract

The 8.2 ka event was the last deglacial abrupt climate event. A reduction in the Atlantic meridional overturning circulation (AMOC) attributed to the drainage of glacial Lake Agassiz may have caused the event, but the freshwater signature of Lake Agassiz discharge has yet to be identified in delta O-18 of foraminiferal calcite records from the Labrador Sea, calling into question the connection between freshwater discharge to the North Atlantic and AMOC strength. Using Mg/Ca-paleothermometry, we demonstrate that similar to 3 degrees C of near-surface ocean cooling masked an similar to 1.0 parts per thousand decrease in western Labrador Sea delta O-18 of seawater concurrent with Lake Agassiz drainage. Comparison with North Atlantic delta O-18 of seawater records shows that the freshwater discharge was transported to regions of deep-water formation where it could perturb AMOC and force the 8.2 ka event.

Published

2012

3. Evolution of the northeast Labrador Sea during the last interglaciation

Author

Winsor, Kelsey, Carlson, Anders E., Klinkhammer, Gary P., Stoner, Joseph S., Hatfield, Robert G., Winsor, Kelsey, Carlson, Anders E., Klinkhammer, Gary P., Stoner, Joseph S., and Hatfield, Robert G.

Abstract

Boreal summer insolation during the last interglaciation (LIG) generally warmed the subpolar to polar Northern Hemisphere more than during the early Holocene, yet regional climate variations between the two periods remain. We investigate northeast Labrador Sea subsurface temperature and hydrography across terminations (T) I and II and during the LIG to assess the impact of two different magnitudes of boreal summer insolation increase on the northeast Labrador Sea. We use Mg/Ca ratios in Neogloboquadrina pachyderma (sinistral) as a proxy of calcification temperature to document changes in subsurface temperatures over Eirik Drift. Our corresponding record of delta O-18 of seawater documents changes in water mass salinity. Mg/Ca calcification temperatures peak early in the Holocene coincident with peak boreal summer insolation. In contrast, LIG temperatures are relatively constant through the interglaciation, and are no warmer than peak Holocene temperatures. During the first half of the LIG, delta O-18 of seawater remains depleted, likely from southern Greenland Ice Sheet retreat and enhanced Arctic freshwater and sea-ice export to the Labrador Sea. The consequent stratification of the Labrador Sea and attendant suppressed convection explains delayed deep-ocean ventilation and a cooler subsurface in the northeast Labrador Sea during the LIG.

Published

2012

4. Linking the 8.2 ka event and its freshwater forcing in the Labrador Sea

Author

Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., Strasser, Jeffrey C., Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., and Strasser, Jeffrey C.

Abstract

The 8.2 ka event was the last deglacial abrupt climate event. A reduction in the Atlantic meridional overturning circulation (AMOC) attributed to the drainage of glacial Lake Agassiz may have caused the event, but the freshwater signature of Lake Agassiz discharge has yet to be identified in delta O-18 of foraminiferal calcite records from the Labrador Sea, calling into question the connection between freshwater discharge to the North Atlantic and AMOC strength. Using Mg/Ca-paleothermometry, we demonstrate that similar to 3 degrees C of near-surface ocean cooling masked an similar to 1.0 parts per thousand decrease in western Labrador Sea delta O-18 of seawater concurrent with Lake Agassiz drainage. Comparison with North Atlantic delta O-18 of seawater records shows that the freshwater discharge was transported to regions of deep-water formation where it could perturb AMOC and force the 8.2 ka event.

Published

2012

5. Evolution of the northeast Labrador Sea during the last interglaciation

Author

Winsor, Kelsey, Carlson, Anders E., Klinkhammer, Gary P., Stoner, Joseph S., Hatfield, Robert G., Winsor, Kelsey, Carlson, Anders E., Klinkhammer, Gary P., Stoner, Joseph S., and Hatfield, Robert G.

Abstract

Boreal summer insolation during the last interglaciation (LIG) generally warmed the subpolar to polar Northern Hemisphere more than during the early Holocene, yet regional climate variations between the two periods remain. We investigate northeast Labrador Sea subsurface temperature and hydrography across terminations (T) I and II and during the LIG to assess the impact of two different magnitudes of boreal summer insolation increase on the northeast Labrador Sea. We use Mg/Ca ratios in Neogloboquadrina pachyderma (sinistral) as a proxy of calcification temperature to document changes in subsurface temperatures over Eirik Drift. Our corresponding record of delta O-18 of seawater documents changes in water mass salinity. Mg/Ca calcification temperatures peak early in the Holocene coincident with peak boreal summer insolation. In contrast, LIG temperatures are relatively constant through the interglaciation, and are no warmer than peak Holocene temperatures. During the first half of the LIG, delta O-18 of seawater remains depleted, likely from southern Greenland Ice Sheet retreat and enhanced Arctic freshwater and sea-ice export to the Labrador Sea. The consequent stratification of the Labrador Sea and attendant suppressed convection explains delayed deep-ocean ventilation and a cooler subsurface in the northeast Labrador Sea during the LIG.

Published

2012

6. Linking the 8.2 ka event and its freshwater forcing in the Labrador Sea

Author

Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., Strasser, Jeffrey C., Hoffman, Jeremy S., Carlson, Anders E., Winsor, Kelsey, Klinkhammer, Gary P., Legrande, Allegra N., Andrews, John T., and Strasser, Jeffrey C.

Abstract

The 8.2 ka event was the last deglacial abrupt climate event. A reduction in the Atlantic meridional overturning circulation (AMOC) attributed to the drainage of glacial Lake Agassiz may have caused the event, but the freshwater signature of Lake Agassiz discharge has yet to be identified in delta O-18 of foraminiferal calcite records from the Labrador Sea, calling into question the connection between freshwater discharge to the North Atlantic and AMOC strength. Using Mg/Ca-paleothermometry, we demonstrate that similar to 3 degrees C of near-surface ocean cooling masked an similar to 1.0 parts per thousand decrease in western Labrador Sea delta O-18 of seawater concurrent with Lake Agassiz drainage. Comparison with North Atlantic delta O-18 of seawater records shows that the freshwater discharge was transported to regions of deep-water formation where it could perturb AMOC and force the 8.2 ka event.

Published

2012

7. Evolution of the northeast Labrador Sea during the last interglaciation

Author

Winsor, Kelsey, Carlson, Anders E., Klinkhammer, Gary P., Stoner, Joseph S., Hatfield, Robert G., Winsor, Kelsey, Carlson, Anders E., Klinkhammer, Gary P., Stoner, Joseph S., and Hatfield, Robert G.

Abstract

Boreal summer insolation during the last interglaciation (LIG) generally warmed the subpolar to polar Northern Hemisphere more than during the early Holocene, yet regional climate variations between the two periods remain. We investigate northeast Labrador Sea subsurface temperature and hydrography across terminations (T) I and II and during the LIG to assess the impact of two different magnitudes of boreal summer insolation increase on the northeast Labrador Sea. We use Mg/Ca ratios in Neogloboquadrina pachyderma (sinistral) as a proxy of calcification temperature to document changes in subsurface temperatures over Eirik Drift. Our corresponding record of delta O-18 of seawater documents changes in water mass salinity. Mg/Ca calcification temperatures peak early in the Holocene coincident with peak boreal summer insolation. In contrast, LIG temperatures are relatively constant through the interglaciation, and are no warmer than peak Holocene temperatures. During the first half of the LIG, delta O-18 of seawater remains depleted, likely from southern Greenland Ice Sheet retreat and enhanced Arctic freshwater and sea-ice export to the Labrador Sea. The consequent stratification of the Labrador Sea and attendant suppressed convection explains delayed deep-ocean ventilation and a cooler subsurface in the northeast Labrador Sea during the LIG.

Published

2012

8. Ice-shelf collapse from subsurface warming as a trigger for Heinrich events

Author

Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, Schmittner, Andreas, Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, and Schmittner, Andreas

Abstract

Episodic iceberg-discharge events from the Hudson Strait Ice Stream (HSIS) of the Laurentide Ice Sheet, referred to as Heinrich events, are commonly attributed to internal ice-sheet instabilities, but their systematic occurrence at the culmination of a large reduction in the Atlantic meridional overturning circulation (AMOC) indicates a climate control. We report Mg/Ca data on benthic foraminifera from an intermediate-depth site in the northwest Atlantic and results from a climate-model simulation that reveal basin-wide subsurface warming at the same time as large reductions in the AMOC, with temperature increasing by approximately 2 C over a 1-2 kyr interval prior to a Heinrich event. In simulations with an ocean model coupled to a thermodynamically active ice shelf, the increase in subsurface temperature increases basal melt rate under an ice shelf fronting the HSIS by a factor of approximately 6. By analogy with recent observations in Antarctica, the resulting ice-shelf loss and attendant HSIS acceleration would produce a Heinrich event.

Published

2011

9. Ice-shelf collapse from subsurface warming as a trigger for Heinrich events

Author

Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, Schmittner, Andreas, Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, and Schmittner, Andreas

Abstract

Episodic iceberg-discharge events from the Hudson Strait Ice Stream (HSIS) of the Laurentide Ice Sheet, referred to as Heinrich events, are commonly attributed to internal ice-sheet instabilities, but their systematic occurrence at the culmination of a large reduction in the Atlantic meridional overturning circulation (AMOC) indicates a climate control. We report Mg/Ca data on benthic foraminifera from an intermediate-depth site in the northwest Atlantic and results from a climate-model simulation that reveal basin-wide subsurface warming at the same time as large reductions in the AMOC, with temperature increasing by approximately 2 C over a 1-2 kyr interval prior to a Heinrich event. In simulations with an ocean model coupled to a thermodynamically active ice shelf, the increase in subsurface temperature increases basal melt rate under an ice shelf fronting the HSIS by a factor of approximately 6. By analogy with recent observations in Antarctica, the resulting ice-shelf loss and attendant HSIS acceleration would produce a Heinrich event.

Published

2011

10. Ice-shelf collapse from subsurface warming as a trigger for Heinrich events

Author

Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, Schmittner, Andreas, Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, and Schmittner, Andreas

Abstract

Episodic iceberg-discharge events from the Hudson Strait Ice Stream (HSIS) of the Laurentide Ice Sheet, referred to as Heinrich events, are commonly attributed to internal ice-sheet instabilities, but their systematic occurrence at the culmination of a large reduction in the Atlantic meridional overturning circulation (AMOC) indicates a climate control. We report Mg/Ca data on benthic foraminifera from an intermediate-depth site in the northwest Atlantic and results from a climate-model simulation that reveal basin-wide subsurface warming at the same time as large reductions in the AMOC, with temperature increasing by approximately 2 C over a 1-2 kyr interval prior to a Heinrich event. In simulations with an ocean model coupled to a thermodynamically active ice shelf, the increase in subsurface temperature increases basal melt rate under an ice shelf fronting the HSIS by a factor of approximately 6. By analogy with recent observations in Antarctica, the resulting ice-shelf loss and attendant HSIS acceleration would produce a Heinrich event.

Published

2011

11. Ice-shelf collapse from subsurface warming as a trigger for Heinrich events

Author

Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, Schmittner, Andreas, Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, and Schmittner, Andreas

Abstract

Episodic iceberg-discharge events from the Hudson Strait Ice Stream (HSIS) of the Laurentide Ice Sheet, referred to as Heinrich events, are commonly attributed to internal ice-sheet instabilities, but their systematic occurrence at the culmination of a large reduction in the Atlantic meridional overturning circulation (AMOC) indicates a climate control. We report Mg/Ca data on benthic foraminifera from an intermediate-depth site in the northwest Atlantic and results from a climate-model simulation that reveal basin-wide subsurface warming at the same time as large reductions in the AMOC, with temperature increasing by approximately 2 C over a 1-2 kyr interval prior to a Heinrich event. In simulations with an ocean model coupled to a thermodynamically active ice shelf, the increase in subsurface temperature increases basal melt rate under an ice shelf fronting the HSIS by a factor of approximately 6. By analogy with recent observations in Antarctica, the resulting ice-shelf loss and attendant HSIS acceleration would produce a Heinrich event.

Published

2011

12. Methane sources, distributions, and fluxes from cold vent sites at Hydrate Ridge, Cascadia Margin

Author

Heeschen, Katja U., Collier, Robert W., de Angelis, Marie A., Suess, Erwin, Rehder, Gregor, Linke, Peter, Klinkhammer, Gary P., Heeschen, Katja U., Collier, Robert W., de Angelis, Marie A., Suess, Erwin, Rehder, Gregor, Linke, Peter, and Klinkhammer, Gary P.

Published

2005

13. Carbon and Manganese Transformations at the Continent-Ocean Margin Quantified with the ZAPS Instrument Package

Author

OREGON STATE UNIV CORVALLIS COLL OF OCEANIC AND ATMOSPHERIC SCIENCES, Klinkhammer, Gary, OREGON STATE UNIV CORVALLIS COLL OF OCEANIC AND ATMOSPHERIC SCIENCES, and Klinkhammer, Gary

Abstract

We use innovative experimental approaches to measure the extent of biogeochemical interaction driven by the input of terrestrial organic carbon to the coastal oceans. The evolution of organic carbon from continents to oceans is not well understood. Remineralization of this carbon plays an unknown but apparently important role in stimulating productivity. This process and associated phenomena also affect ocean color, turbidity, and elemental recycling. Our long range goal is to quantify these processes in space and time. Quantification of biogeochemical change at the land-ocean boundary requires that we gain better insights into fundamental relationships between dissolved organic carbon and other parameters, such as total suspended particulate matter and dissolved metals., See also ADM002252.

Published

1998

14. Hydrography above the mid-atlantic ridge (33-degrees-40-degrees-n) and within the lucky-strike segment

Author

Wilson, Cara, Speer, Kevin, Charlou, Jean-luc, Bougault, Henri, Klinkhammer, Gary, Wilson, Cara, Speer, Kevin, Charlou, Jean-luc, Bougault, Henri, and Klinkhammer, Gary

Abstract

As part of the French-American Ridge Atlantic program the French-American Zero-Angle Photon Spectrometer and Rocks (FAZAR) cruise conducted water column studies between 33 and 40 degrees N along the Mid-Atlantic Ridge (MAR)) to detect hydrothermal activity and map its influence, This paper describes the large-scale hydrography within the axial valley, with particular emphasis on the hydrothermally active Lucky Strike segment (37 degrees 17'N). The FAZAR study area is affected be the presence of the Azores Current and Mediterranean Water (MW). Although the MW core has been mapped as far north as 50 degrees N off the ridge; the northern boundary Of the MW within the MAR in the FAZAR study area exists as a strong front south of the Azores platform. This front is most likely caused by the shallower ridge crest becoming a physical barrier to the MW. The Lucky Strike segment lies within this front and, as a result, has complicated hydrography which can obscure hydrothermal temperature and salinity anomalies.

Published

1995

15. Hydrography above the mid-atlantic ridge (33-degrees-40-degrees-n) and within the lucky-strike segment

Author

Wilson, Cara, Speer, Kevin, Charlou, Jean-luc, Bougault, Henri, Klinkhammer, Gary, Wilson, Cara, Speer, Kevin, Charlou, Jean-luc, Bougault, Henri, and Klinkhammer, Gary

Abstract

As part of the French-American Ridge Atlantic program the French-American Zero-Angle Photon Spectrometer and Rocks (FAZAR) cruise conducted water column studies between 33 and 40 degrees N along the Mid-Atlantic Ridge (MAR)) to detect hydrothermal activity and map its influence, This paper describes the large-scale hydrography within the axial valley, with particular emphasis on the hydrothermally active Lucky Strike segment (37 degrees 17'N). The FAZAR study area is affected be the presence of the Azores Current and Mediterranean Water (MW). Although the MW core has been mapped as far north as 50 degrees N off the ridge; the northern boundary Of the MW within the MAR in the FAZAR study area exists as a strong front south of the Azores platform. This front is most likely caused by the shallower ridge crest becoming a physical barrier to the MW. The Lucky Strike segment lies within this front and, as a result, has complicated hydrography which can obscure hydrothermal temperature and salinity anomalies.

Published

1995

16. Hydrography above the Mid-Atlantic Ridge (33°–40°N) and within the Lucky Strike segment

Author

Wilson, Cara, Speer, Kevin, Charlou, Jean-Luc, Bougault, Henri, Klinkhammer, Gary, Wilson, Cara, Speer, Kevin, Charlou, Jean-Luc, Bougault, Henri, and Klinkhammer, Gary

Abstract

As part of the French-American Ridge Atlantic program the French-American Zero-Angle Photon Spectrometer and Rocks (FAZAR) cruise conducted water column studies between 33 and 40 degrees N along the Mid-Atlantic Ridge (MAR)) to detect hydrothermal activity and map its influence, This paper describes the large-scale hydrography within the axial valley, with particular emphasis on the hydrothermally active Lucky Strike segment (37 degrees 17'N). The FAZAR study area is affected be the presence of the Azores Current and Mediterranean Water (MW). Although the MW core has been mapped as far north as 50 degrees N off the ridge; the northern boundary Of the MW within the MAR in the FAZAR study area exists as a strong front south of the Azores platform. This front is most likely caused by the shallower ridge crest becoming a physical barrier to the MW. The Lucky Strike segment lies within this front and, as a result, has complicated hydrography which can obscure hydrothermal temperature and salinity anomalies.

Published

1995

17. Hydrography above the mid-atlantic ridge (33-degrees-40-degrees-n) and within the lucky-strike segment

Author

Wilson, Cara, Speer, Kevin, Charlou, Jean-luc, Bougault, Henri, Klinkhammer, Gary, Wilson, Cara, Speer, Kevin, Charlou, Jean-luc, Bougault, Henri, and Klinkhammer, Gary

Abstract

As part of the French-American Ridge Atlantic program the French-American Zero-Angle Photon Spectrometer and Rocks (FAZAR) cruise conducted water column studies between 33 and 40 degrees N along the Mid-Atlantic Ridge (MAR)) to detect hydrothermal activity and map its influence, This paper describes the large-scale hydrography within the axial valley, with particular emphasis on the hydrothermally active Lucky Strike segment (37 degrees 17'N). The FAZAR study area is affected be the presence of the Azores Current and Mediterranean Water (MW). Although the MW core has been mapped as far north as 50 degrees N off the ridge; the northern boundary Of the MW within the MAR in the FAZAR study area exists as a strong front south of the Azores platform. This front is most likely caused by the shallower ridge crest becoming a physical barrier to the MW. The Lucky Strike segment lies within this front and, as a result, has complicated hydrography which can obscure hydrothermal temperature and salinity anomalies.

Published

1995

18. Hydrography above the Mid-Atlantic Ridge (33°–40°N) and within the Lucky Strike segment

Author

Wilson, Cara, Speer, Kevin, Charlou, Jean-Luc, Bougault, Henri, Klinkhammer, Gary, Wilson, Cara, Speer, Kevin, Charlou, Jean-Luc, Bougault, Henri, and Klinkhammer, Gary

Abstract

As part of the French-American Ridge Atlantic program the French-American Zero-Angle Photon Spectrometer and Rocks (FAZAR) cruise conducted water column studies between 33 and 40 degrees N along the Mid-Atlantic Ridge (MAR)) to detect hydrothermal activity and map its influence, This paper describes the large-scale hydrography within the axial valley, with particular emphasis on the hydrothermally active Lucky Strike segment (37 degrees 17'N). The FAZAR study area is affected be the presence of the Azores Current and Mediterranean Water (MW). Although the MW core has been mapped as far north as 50 degrees N off the ridge; the northern boundary Of the MW within the MAR in the FAZAR study area exists as a strong front south of the Azores platform. This front is most likely caused by the shallower ridge crest becoming a physical barrier to the MW. The Lucky Strike segment lies within this front and, as a result, has complicated hydrography which can obscure hydrothermal temperature and salinity anomalies.

Published

1995