Tracing abyssal food supply back to upper-ocean processes over a 17-year time series in the northeast Pacific
Tracing abyssal food supply back to upper-ocean processes over a 17-year time series in the northeast Pacific
Detrital aggregates episodically deposited on the seafloor represent an underestimated food source to deep-sea
communities. A 17-yr time-series study was conducted from 1990 to 2006 in the abyssal northeast Pacific (Sta. M,
4100 m in depth) to evaluate the importance of this food source and its temporal relationship to water column
and surface ocean processes. Detrital aggregates appeared on the seafloor from June through December, with the
highest peaks in 1990, 1994, 2001, and 2002 reaching a maximum density of 23 m22 in fall 2001. A total of 15,816
aggregates were measured, most less than 20 cm2 in area and with a mode of 9 cm2. Density of detrital aggregates
was highly correlated with particulate organic carbon (POC) flux at 600 and 50 m above the bottom (p , 0.001)
with no time lag. Export flux of organic carbon from the euphotic zone was significantly correlated with aggregate
density, lagged earlier by 1–4 months (p # 0.001). Zooplankton displacement volume was significantly correlated
with POC flux (p 5 0.023) and with detrital aggregate density (p 5 0.028) on the seafloor when lagged earlier by
#1 month. The Bakun upwelling index computed for the region around Sta. M was significantly correlated with
detrital aggregate density when lagged earlier by 2–5 months (p , 0.001). A strong correlation exists between
surface ocean processes and abyssal food supply, including POC flux and detrital aggregates. This direct coupling
through the entire water column must be considered in resolving the marine carbon cycle.
2655-2667
Smith, K.L.
a5d7bde4-722a-4989-92dc-86dd85d26786
Ruhl, H.A.
177608ef-7793-4911-86cf-cd9960ff22b6
Kaufmann, R.S.
63be976e-b20d-449b-aa69-c253a84366b2
Kahru, M.
46c497c2-2322-46c2-b6f2-9ed620012e5e
2008
Smith, K.L.
a5d7bde4-722a-4989-92dc-86dd85d26786
Ruhl, H.A.
177608ef-7793-4911-86cf-cd9960ff22b6
Kaufmann, R.S.
63be976e-b20d-449b-aa69-c253a84366b2
Kahru, M.
46c497c2-2322-46c2-b6f2-9ed620012e5e
Smith, K.L., Ruhl, H.A., Kaufmann, R.S. and Kahru, M.
(2008)
Tracing abyssal food supply back to upper-ocean processes over a 17-year time series in the northeast Pacific.
Limnology and Oceanography, 53 (6), .
(doi:10.4319/lo.2008.53.6.2655).
Abstract
Detrital aggregates episodically deposited on the seafloor represent an underestimated food source to deep-sea
communities. A 17-yr time-series study was conducted from 1990 to 2006 in the abyssal northeast Pacific (Sta. M,
4100 m in depth) to evaluate the importance of this food source and its temporal relationship to water column
and surface ocean processes. Detrital aggregates appeared on the seafloor from June through December, with the
highest peaks in 1990, 1994, 2001, and 2002 reaching a maximum density of 23 m22 in fall 2001. A total of 15,816
aggregates were measured, most less than 20 cm2 in area and with a mode of 9 cm2. Density of detrital aggregates
was highly correlated with particulate organic carbon (POC) flux at 600 and 50 m above the bottom (p , 0.001)
with no time lag. Export flux of organic carbon from the euphotic zone was significantly correlated with aggregate
density, lagged earlier by 1–4 months (p # 0.001). Zooplankton displacement volume was significantly correlated
with POC flux (p 5 0.023) and with detrital aggregate density (p 5 0.028) on the seafloor when lagged earlier by
#1 month. The Bakun upwelling index computed for the region around Sta. M was significantly correlated with
detrital aggregate density when lagged earlier by 2–5 months (p , 0.001). A strong correlation exists between
surface ocean processes and abyssal food supply, including POC flux and detrital aggregates. This direct coupling
through the entire water column must be considered in resolving the marine carbon cycle.
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Published date: 2008
Organisations:
National Oceanography Centre,Southampton
Identifiers
Local EPrints ID: 64127
URI: http://eprints.soton.ac.uk/id/eprint/64127
ISSN: 0024-3590
PURE UUID: 84108438-637e-4871-a409-3055ee5a3f14
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Date deposited: 01 Dec 2008
Last modified: 15 Mar 2024 11:46
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Contributors
Author:
K.L. Smith
Author:
H.A. Ruhl
Author:
R.S. Kaufmann
Author:
M. Kahru
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