Skeletal P/Ca tracks upwelling in Gulf of Panamá coral: Evidence for a new seawater phosphate proxy
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Date
2008-03-06
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Publisher
American Geophysical Union
Abstract
The supply of limiting nutrients to the low latitude
ocean is controlled by physical processes linked to climate
variations, but methods for reconstructing past nutrient
concentrations in the surface ocean are few and indirect.
Here, we present laser ablation mass spectrometry results
that reveal annual cycles of P/Ca in a 4-year record from the scleractinian coral Pavona gigantea (mean P/Ca =
118 μmol mol^-1). The P/Ca cycles track variations in past
seawater phosphate concentration synchronously with
skeletal Sr/Ca-derived temperature variations associated
with seasonal upwelling in the Gulf of Panama´. Skeletal
P/Ca varies seasonally by 2–3 fold, reflecting the timing
and magnitude of dissolved phosphate variations. Solution
cleaning experiments on drilled coral powders show that
over 60% of skeletal P occurs in intracrystalline organic
phases. Coral skeleton P/Ca holds promise as a proxy record
of nutrient availability on time scales of decades to
millennia.
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Citation
M. LaVigne et al, "Skeletal P/Ca tracks upwelling in Gulf of Panamá coral: Evidence for a new seawater phosphate proxy," Geophysical Research Letters 35 (2008), doi: 10.1029/2007GL031926