Pelagic phosphorus accumulation in the Pacific Ocean

As a limiting nutrient to marine life, phosphorus (P) is an effective tracer of today's marine productivity. The distribution of P in marine sediments likewise tracks the history of marine productivity because of its relative insolubility in seawater. CaCO3, biogenic opal, terrigenous sediment,...

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Bibliographic Details
Main Authors: Moody, Judith, Chaboudy, Louis R, Worsley, Thomas R
Format: Dataset
Language:English
Published: PANGAEA 1988
Subjects:
28-266
32-310
62-463
7-62A
7-65
7-66A
85-572
89-586
9-77
Antarctic Ocean/RIDGE
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
GPC-3
Leg28
Leg32
Leg62
Leg7
Leg85
Leg89
Leg9
LL44-GPC-3
North Pacific
North Pacific/BASIN
North Pacific/CONT RISE
North Pacific/HILL
North Pacific/RIDGE
North Pacific/SEAMOUNT
PC
Piston corer
Silicon Cycling in the World Ocean
SINOPS
South Pacific
Antarctic
Antarctic Ocean
Pacific
Antarc*
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.726936
https://doi.org/10.1594/PANGAEA.726936
Description
Summary:As a limiting nutrient to marine life, phosphorus (P) is an effective tracer of today's marine productivity. The distribution of P in marine sediments likewise tracks the history of marine productivity because of its relative insolubility in seawater. CaCO3, biogenic opal, terrigenous sediment, and total P have been measured in cores from nine Pacific sites (Deep Sea Drilling Project (DSDP) 65, 66, 310, 77, 62, 572, 463, 586, and GPC-3) and one subantarctic (DSDP 266) site. These sites were specifically chosen to provide information on biota burial flux changes with time for sedimentary sinks that represent key oceanographic variables, i.e., rate of upwelling, water depth, and carbonate dissolution gradient. The accumulation rates of these components for the last 10 Ma were then calculated from determined core age versus depth plots, core bulk density, and porosity data. The accumulation of P weakly correlates with that of CaCO3, moderately with that of total sediment, and very strongly with carbonate-free accumulation. Two prominent peaks for all components occur at 2-3 Ma and 5-6 Ma, and record the chemical loading of dissolved CaCO3, SiO2, and P from glacially emergent continental shelves. These results indicate that continental shelf phosphorites form during interglacially high sea levels and correspond to low deep-sea P accumulation rates, whereas glacially lowered sea levels allow for shelf bypassing and greater deep-sea P accumulation rates.

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