95 research outputs found
A secondary ionization mass spectrometry calibration of Cibicidoides pachyderma Mg/Ca with temperature
Author Posting. © American Geophysical Union, 2008. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geochemistry Geophysics Geosystems 9 (2008): Q04009, doi:10.1029/2007GC001620.An evaluation of C. pachyderma Mg/Ca using a new suite of warm water multicores from the Florida Straits shows that the slope of Mg/Ca with temperature is shallower than previously thought. Using secondary ionization mass spectrometry, we have documented that the distribution of magnesium within the polished walls of foraminiferal tests is Gaussian, suggesting that the Mg/Ca in these samples is not affected by the addition of a secondary high-magnesium calcite in the walls. The Mg/Ca within a typical C. pachyderma test varies by about ±20% (1Ï/ÎŒ · 100), and the variability increases slightly in tests with higher Mg/Ca. The regression of C. pachyderma Mg/Ca with temperature has a slope of 0.13 ± 0.05 mmol molâ1 per °C, indistinguishable from the slope observed in inductively coupled plasmaâmass spectrometry measurements from a different subset of the same multicores, but about one half the slope of previously published calibrations. The largest differences between the calibrations comes at the warm water end of the regression, where previously published C. pachyderma Mg/Ca values from Little Bahama Bank are at least 3 mmol molâ1 higher than observed in these new cores. The reasons for this difference are not fully known but are most likely related to diagenesis at Little Bahama Bank.This
research was supported by several grants from the National
Science Foundation: OCE0096469 to W.B.C. for cruise support
to collect the Florida Straits cores; ATM0502428 and
OCE0550271 to W. B. C. for support to obtain the Mg/Ca data
on the ion probe; and OCE0425522 and OCE0550150 to T. M.
for the core top calibration study using ICP-MS
Southern Ocean source of 14C-depleted carbon in the North Pacific Ocean during the last deglaciation
Paleophysical Oceanography with an Emphasis on Transport Rates
Paleophysical oceanography is the study of the behavior of the fluid ocean of the past, with a specific emphasis on its climate implications, leading to a focus on the general circulation. Even if the circulation is not of primary concern, heavy reliance on deep-sea cores for past climate information means that knowledge of the oceanic state when the sediments were laid down is a necessity. Like the modern problem, paleoceanography depends heavily on observations, and central difficulties lie with the very limited data types and coverage that are, and perhaps ever will be, available. An approximate separation can be made into static descriptors of the circulation (e.g., its water-mass properties and volumes) and the more difficult problem of determining transport rates of mass and other properties. Determination of the circulation of the Last Glacial Maximum is used to outline some of the main challenges to progress. Apart from sampling issues, major difficulties lie with physical interpretation of the proxies, transferring core depths to an accurate timescale (the âage-model problemâ), and understanding the accuracy of time-stepping oceanic or coupled-climate models when run unconstrained by observations. Despite the existence of many plausible explanatory scenarios, few features of the paleocirculation in any period are yet known with certainty.National Science Foundation (U.S.) (grant OCE-0645936
Biogeochemical cycling of dissolved zinc along the GEOTRACES South Atlantic transect GA10 at 40°S
The biogeochemical cycle of zinc (Zn) in the South Atlantic, at 40°S, was investigated as part of the UK
GEOTRACES program. To date there is little understanding of the supply of Zn, an essential requirement for
phytoplankton growth, to this highly productive region. Vertical Zn profiles displayed nutrient-like distributions
with distinct gradients associated with the watermasses present. Surface Zn concentrations are among the lowest
reported for theworldâs oceans (<50 pM). A strong Zn-Si linear relationshipwas observed (Zn (nM)= 0.065 Si (ÎŒM),
r2=0.97, n = 460). Our results suggest that the use of a global Zn-Si relationship would lead to an underestimation
of dissolved Zn in deeper waters of the South Atlantic. By utilizing Si* and a new tracer Zn* our data indicate that
the preferential removal of Zn in the Southern Ocean prevented a direct return path for dissolved Zn to the surface
waters of the South Atlantic at 40°S and potentially the thermocline waters of the South Atlantic subtropical gyre.
The importance of Zn for phytoplankton growth was evaluated using the Zn-soluble reactive phosphorus (SRP)
relationship. We hypothesize that the low Zn concentrations in the South Atlantic may select for phytoplankton
cells with a lower Zn requirement. In addition, a much deeper kink at ~ 500m in the Zn:SRP ratio was observed
compared to other oceanic regions
Rapid interhemispheric climate links via the Australasian monsoon during the last deglaciation
Recent studies have proposed that millennial-scale reorganization of the ocean-atmosphere circulation drives increased upwelling in the Southern Ocean, leading to rising atmospheric carbon dioxide levels and ice age terminations. Southward migration of the global monsoon is thought to link the hemispheres during deglaciation, but vital evidence from the southern sector of the vast Australasian monsoon system is yet to emerge. Here we present a 230thorium-dated stalagmite oxygen isotope record of millennial-scale changes in AustralianâIndonesian monsoon rainfall over the last 31,000 years. The record shows that abrupt southward shifts of the AustralianâIndonesian monsoon were synchronous with North Atlantic cold intervals 17,600â11,500 years ago. The most prominent southward shift occurred in lock-step with Heinrich Stadial 1 (17,600â14,600 years ago), and rising atmospheric carbon dioxide. Our findings show that millennial-scale climate change was transmitted rapidly across Australasia and lend support to the idea that the 3,000-year-long Heinrich 1 interval could have been critical in driving the last deglaciation
O Antigen Allows B. parapertussis to Evade B. pertussis VaccineâInduced Immunity by Blocking Binding and Functions of Cross-Reactive Antibodies
Although the prevalence of Bordetella parapertussis varies dramatically among studies in different populations with different vaccination regimens, there is broad agreement that whooping cough vaccines, composed only of B. pertussis antigens, provide little if any protection against B. parapertussis. In C57BL/6 mice, a B. pertussis whole-cell vaccine (wP) provided modest protection against B. parapertussis, which was dependent on IFN-Îł. The wP was much more protective against an isogenic B. parapertussis strain lacking O-antigen than its wild-type counterpart. O-antigen inhibited binding of wPâinduced antibodies to B. parapertussis, as well as antibody-mediated opsonophagocytosis in vitro and clearance in vivo. aPâinduced antibodies also bound better in vitro to the O-antigen mutant than to wild-type B. parapertussis, but aP failed to confer protection against wild-type or O antigenâdeficient B. parapertussis in mice. Interestingly, B. parapertussisâspecific antibodies provided in addition to either wP or aP were sufficient to very rapidly reduce B. parapertussis numbers in mouse lungs. This study identifies a mechanism by which one pathogen escapes immunity induced by vaccination against a closely related pathogen and may explain why B. parapertussis prevalence varies substantially between populations with different vaccination strategies
Potential origins of 400-500 kyr periodicities in the ocean carbon cycle: A box model approach
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