Norikazu Nakashiki scite author profile

Norikazu Nakashiki

5Publications

171Citation Statements Received

46Citation Statements Given

How they've been cited

200

157

How they cite others

Affiliations

Central Research Institute of Electric Power Industry, Seiko Holdings (Japan)

Publications

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Response of the North Atlantic Thermohaline Circulation and Ventilation to Increasing Carbon Dioxide in CCSM3

Bryan

Danabasoglu

Nakashiki

et al. 2006

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The response of the North Atlantic thermohaline circulation to idealized climate forcing of 1% per year compound increase in CO 2 is examined in three configurations of the Community Climate System Model version 3 that differ in their component model resolutions. The strength of the Atlantic overturning circulation declines at a rate of 22%-26% of the corresponding control experiment maximum overturning per century in response to the increase in CO 2 . The mean meridional overturning and its variability on decadal time scales in the control experiments, the rate of decrease in the transient forcing experiments, and the rate of recovery in periods of CO 2 stabilization all increase with increasing component model resolution. By examining the changes in ocean surface forcing with increasing CO 2 in the framework of the water-mass transformation function, we show that the decline in the overturning is driven by decreasing density of the subpolar North Atlantic due to increasing surface heat fluxes. While there is an intensification of the hydrologic cycle in response to increasing CO 2 , the net effect of changes in surface freshwater fluxes on those density classes that are involved in deep-water formation is to increase their density; that is, changes in surface freshwater fluxes act to maintain a stronger overturning circulation. The differences in the control experiment overturning strength and the response to increasing CO 2 are well predicted by the corresponding differences in the water-mass transformation rate. Reduction of meridional heat transport and enhancement of meridional salt transport from mid-to high latitudes with increasing CO 2 also act to strengthen the overturning circulation. Analysis of the trends in an ideal age tracer provides a direct measure of changes in ocean ventilation time scale in response to increasing CO 2 . In the subpolar North Atlantic south of the Greenland-Scotland ridge system, there is a significant increase in subsurface ages as open-ocean deep convection is diminished and ventilation switches to a predominance of overflow waters. In middle and low latitudes there is a decrease in age within and just below the thermocline in response to a decrease in the upwelling of old deep waters. However, when considering ventilation within isopycnal layers, age increases for layers in and below the thermocline due to the deepening of isopycnals in response to global warming.

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Density change of water due to dissolution of carbon dioxide and near-field behavior of CO2 from a source on deep-sea floor

Ohsumi

Nakashiki

Shitashima

et al. 1992

Energy Conversion and Management

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Long-term climate response to stabilized and overshoot anthropogenic forcings beyond the twenty-first century

et al. 2006

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Lake-type storage concepts for CO2 disposal option

Nakashiki

1998

Waste Management

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Dispersion of CO2 injected into the ocean at the intemediate depth

Nakashiki

Ohsumi

1997

Energy Conversion and Management

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