Direct Observations of Basin-wide Acidification of the North Pacific Ocean

Robert H. Byrne; Sabine Mecking; Richard A. Feely; Xuewu Liu

doi:10.1029/2009GL040999

Direct Observations of Basin-wide Acidification of the North Pacific Ocean

Robert H. Byrne, Sabine Mecking, Richard A. Feely, Xuewu Liu

College of Marine Science

Research output: Contribution to journal › Article › peer-review

Abstract

Global ocean acidification is a prominent, inexorable change associated with rising levels of atmospheric CO ₂ . Here we present the first basin-wide direct observations of recently declining pH, along with estimates of anthropogenic and non-anthropogenic contributions to that signal. Along 152°W in the North Pacific Ocean (22–56°N), pH changes between 1991 and 2006 were essentially zero below about 800 m depth. However, in the upper 500 m, significant pH changes, as large as −0.06, were observed. Anthropogenic and non-anthropogenic contributions over the upper 800 m are estimated to be of similar magnitude. In the surface mixed layer (depths to ∼100 m), the extent of pH change is consistent with that expected under conditions of seawater/atmosphere equilibration, with an average rate of change of −0.0017/yr. Future mixed layer changes can be expected to closely mirror changes in atmospheric CO ₂ , with surface seawater pH continuing to fall as atmospheric CO ₂ rises.

Original language	American English
Journal	Geophysical Research Letters
Volume	37
DOIs	https://doi.org/10.1029/2009GL040999
State	Published - Jan 1 2010

Keywords

seawater pH
ocean acidification rates
pH variability

Disciplines

Life Sciences

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title = "Direct Observations of Basin-wide Acidification of the North Pacific Ocean",

abstract = " Global ocean acidification is a prominent, inexorable change associated with rising levels of atmospheric CO 2 . Here we present the first basin-wide direct observations of recently declining pH, along with estimates of anthropogenic and non-anthropogenic contributions to that signal. Along 152°W in the North Pacific Ocean (22–56°N), pH changes between 1991 and 2006 were essentially zero below about 800 m depth. However, in the upper 500 m, significant pH changes, as large as −0.06, were observed. Anthropogenic and non-anthropogenic contributions over the upper 800 m are estimated to be of similar magnitude. In the surface mixed layer (depths to ∼100 m), the extent of pH change is consistent with that expected under conditions of seawater/atmosphere equilibration, with an average rate of change of −0.0017/yr. Future mixed layer changes can be expected to closely mirror changes in atmospheric CO 2 , with surface seawater pH continuing to fall as atmospheric CO 2 rises.",

keywords = "seawater pH, ocean acidification rates, pH variability",

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TY - JOUR

T1 - Direct Observations of Basin-wide Acidification of the North Pacific Ocean

AU - Byrne, Robert H.

AU - Mecking, Sabine

AU - Feely, Richard A.

AU - Liu, Xuewu

PY - 2010/1/1

Y1 - 2010/1/1

N2 - Global ocean acidification is a prominent, inexorable change associated with rising levels of atmospheric CO 2 . Here we present the first basin-wide direct observations of recently declining pH, along with estimates of anthropogenic and non-anthropogenic contributions to that signal. Along 152°W in the North Pacific Ocean (22–56°N), pH changes between 1991 and 2006 were essentially zero below about 800 m depth. However, in the upper 500 m, significant pH changes, as large as −0.06, were observed. Anthropogenic and non-anthropogenic contributions over the upper 800 m are estimated to be of similar magnitude. In the surface mixed layer (depths to ∼100 m), the extent of pH change is consistent with that expected under conditions of seawater/atmosphere equilibration, with an average rate of change of −0.0017/yr. Future mixed layer changes can be expected to closely mirror changes in atmospheric CO 2 , with surface seawater pH continuing to fall as atmospheric CO 2 rises.

AB - Global ocean acidification is a prominent, inexorable change associated with rising levels of atmospheric CO 2 . Here we present the first basin-wide direct observations of recently declining pH, along with estimates of anthropogenic and non-anthropogenic contributions to that signal. Along 152°W in the North Pacific Ocean (22–56°N), pH changes between 1991 and 2006 were essentially zero below about 800 m depth. However, in the upper 500 m, significant pH changes, as large as −0.06, were observed. Anthropogenic and non-anthropogenic contributions over the upper 800 m are estimated to be of similar magnitude. In the surface mixed layer (depths to ∼100 m), the extent of pH change is consistent with that expected under conditions of seawater/atmosphere equilibration, with an average rate of change of −0.0017/yr. Future mixed layer changes can be expected to closely mirror changes in atmospheric CO 2 , with surface seawater pH continuing to fall as atmospheric CO 2 rises.

KW - seawater pH

KW - ocean acidification rates

KW - pH variability

UR - https://digitalcommons.usf.edu/msc_facpub/1590

U2 - 10.1029/2009GL040999

DO - 10.1029/2009GL040999

M3 - Article

VL - 37

JO - Geophysical Research Letters

JF - Geophysical Research Letters

ER -

Direct Observations of Basin-wide Acidification of the North Pacific Ocean

Abstract

Keywords

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