Taylor M. Hughlett scite author profile

Taylor M. Hughlett

5Publications

13Citation Statements Received

80Citation Statements Given

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Affiliations

The University of Texas at Arlington

Publications

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Response of export production and dissolved oxygen concentrations in oxygen minimum zones to <i>p</i>CO<sub>2</sub> and temperature stabilization scenarios in the biogeochemical model HAMOCC 2.0

et al. 2017

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Abstract. Dissolved oxygen (DO) concentration in the ocean is an important component of marine biogeochemical cycles and will be greatly altered as climate change persists. In this study a global oceanic carbon cycle model (HAMOCC 2.0) is used to address how mechanisms of oxygen minimum zone (OMZ) expansion respond to changes in CO 2 radiative forcing. Atmospheric pCO 2 is increased at a rate of 1 % annually and the model is stabilized at 2 ×, 4 ×, 6 ×, and 8 × preindustrial pCO 2 levels. With an increase in CO 2 radiative forcing, the OMZ in the Pacific Ocean is controlled largely by changes in particulate organic carbon (POC) export, resulting in increased remineralization and thus expanding the OMZs within the tropical Pacific Ocean. A potential decline in primary producers in the future as a result of environmental stress due to ocean warming and acidification could lead to a substantial reduction in POC export production, vertical POC flux, and thus increased DO concentration particularly in the Pacific Ocean at a depth of 600-800 m. In contrast, the vertical expansion of the OMZs within the Atlantic is linked to increases POC flux as well as changes in oxygen solubility with increasing seawater temperature. Changes in total organic carbon and increase sea surface temperature (SST) also lead to the formation of a new OMZ in the western subtropical Pacific Ocean. The development of the new OMZ results in dissolved oxygen concentration of ≤ 50 µmol kg −1 throughout the equatorial Pacific Ocean at 4 times preindustrial pCO 2 . Total ocean volume with dissolved oxygen concentrations of ≤ 50 µmol kg −1 increases by 2.4, 5.0, and 10.5 % for the 2 ×, 4 ×, and 8 × CO 2 simulations, respectively.

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Climate Change of the Southern Ocean in Response to Topographic Forcing During the Paleocene-Eocene Thermal Maximum

Brown¹,

Hughlett²,

Winguth³

2018

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Simulated Eocene Hothouse Climate - A Deepmip Study

Winguth¹,

Brown²,

Hughlett³

et al. 2018

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Climatic and Oceanic Response to Younger Dryas Age Forcings in the Community Earth System Model Version 1.2

Hughlett¹,

Winguth²,

Rosenbloom³

et al. 2018

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Climate Reconstruction Utilizing Climate-Sensitive Sediments at the Permian-Triassic Boundary

Hullum¹,

Gautum²,

Hughlett³

et al. 2018

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