The buffering of carbon dioxide in seawater and the intimate relationship between the
carbonate system, air-sea gas exchange and biological productivity in the oceans is
described. Characterisation of the carbonate system is enabled through the concurrent
measurement of any two of the variables pH, alkalinity, TCO2 and pCO2. It is identified that
to obtain the high density, high precision measurements necessary to better constrain carbon
cycle models, with respect to estimating the effect of anthropogenic carbon release to the
atmosphere, it will be necessary to develop in situ techniques for the measurement of pH
and pCO2. The theory of pH scales and both potentiometric and spectrophotometric pH
measurement is presented as well as a chronology of pH measurements at sea. The
development of automated potentiometric and spectrophotometric techniques for the
simultaneous, continuous, shipboard determination of seawater pH is documented and the
performance of the instrumentation on a cruise to the Southern Ocean is reported. The
potentiometric system was optimised for electrode response and incorporated increased
temperature control and a novel flow cell to help reduce bubble effects and maintain the
integrity of the liquid junction. Nevertheless, the technique illustrated very erratic potential
and the data was of unacceptable quality. The spectrophotometric technique used a flow
injection technique and phenol red indicator and showed a precision off 0.005 pH unit with
a sampling frequency of about 25 h-1. A comparison of calculated alkalinity from the
combinations pH and pCO2 and pCO, and TCO. 2 had a residual of 1.3 17.3 4equiv. kg-1 (n
= 79) or about 0.32 %. The theoretical precision of the comparison calculated from the
precisions of the methods used is 0.34 %. A comparison of in situ pH and that calculated
from alkalinity and TCO2 showed a standard deviation of ± 0.016 with a standard error
dependent on the choice of sulphate formation constant used to convert from the free to the
total hydrogen ion concentration scale. Surface pH(SWS) at 25°C has been shown to vary
significantly in the Southern Ocean from 7.65 in the Bransfield Strait to 7.85 in a area of
intense biological activity associated with the South Polar Front (SPF). Throughout the
majority of the cruise the surface waters were undersaturated with respect to carbon dioxide
and the main control on pH was from the hydrography, although in areas of high
chlorophyll concentrations, associated predominantly with the SPF, there existed
considerable correspondence with biological activity. A previously unknown sink for
atmospheric CO2 has been identified in the Bellingshausen Sea which has significant
implications for our understanding of the global carbon budget. The spectrophotometric
method is put forward as the method of choice for future measurements of seawater pH.
Date of Award | 1994 |
---|
Original language | English |
---|
Awarding Institution | |
---|
Sponsors | Plymouth Marine Laboratory |
---|
SEAWATER pH AND THE OCEANIC CARBON CYCLE
BELLERBY, R. G. J. (Author). 1994
Student thesis: PhD