Climate variation, carbon flux, and bioturbation in the abyssal North Pacific
Climate variation, carbon flux, and bioturbation in the abyssal North Pacific
We hypothesized that seasonal and interannual climate-mediated changes in particulate organic carbon (POC)
flux would affect bioturbation and ultimately the sequestration of organic carbon in the deep sea. An 18-yr timeseries
photographic record from 4100-m depth in the northeast Pacific Ocean showed increased abundance of
Echinocrepis rostrata, a common epibenthic echinoid and bioturbator, since the late 1990s. Abundance, size, and
speed data were used to estimate bioturbation potential to track long-term changes in the volume of sediment
disturbed by E. rostrata. There was no secular increase in E. rostrata bioturbation over 18 yr despite increased
population size, although periodic variations in bioturbation were significantly correlated with POC flux.
Expected changes in POC flux and bioturbation rates due to climate variation could lead to altered rates of
carbon sequestration in deep-sea sediments, affecting the global carbon cycle.
2081-2088
Vardaro, Michael F.
a67f9686-a91d-44ff-a9f7-7e59b233f1bd
Ruhl, Henry A.
177608ef-7793-4911-86cf-cd9960ff22b6
Smith, Kenneth L.
c282f721-59cf-4caa-a344-f4a26f6b534c
2009
Vardaro, Michael F.
a67f9686-a91d-44ff-a9f7-7e59b233f1bd
Ruhl, Henry A.
177608ef-7793-4911-86cf-cd9960ff22b6
Smith, Kenneth L.
c282f721-59cf-4caa-a344-f4a26f6b534c
Vardaro, Michael F., Ruhl, Henry A. and Smith, Kenneth L.
(2009)
Climate variation, carbon flux, and bioturbation in the abyssal North Pacific.
Limnology and Oceanography, 54 (6), .
Abstract
We hypothesized that seasonal and interannual climate-mediated changes in particulate organic carbon (POC)
flux would affect bioturbation and ultimately the sequestration of organic carbon in the deep sea. An 18-yr timeseries
photographic record from 4100-m depth in the northeast Pacific Ocean showed increased abundance of
Echinocrepis rostrata, a common epibenthic echinoid and bioturbator, since the late 1990s. Abundance, size, and
speed data were used to estimate bioturbation potential to track long-term changes in the volume of sediment
disturbed by E. rostrata. There was no secular increase in E. rostrata bioturbation over 18 yr despite increased
population size, although periodic variations in bioturbation were significantly correlated with POC flux.
Expected changes in POC flux and bioturbation rates due to climate variation could lead to altered rates of
carbon sequestration in deep-sea sediments, affecting the global carbon cycle.
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Published date: 2009
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Local EPrints ID: 71595
URI: http://eprints.soton.ac.uk/id/eprint/71595
ISSN: 0024-3590
PURE UUID: 456dc74a-41de-4d46-a6e6-99f516d597ac
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Date deposited: 14 Dec 2009
Last modified: 22 Jul 2022 17:09
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Contributors
Author:
Michael F. Vardaro
Author:
Henry A. Ruhl
Author:
Kenneth L. Smith
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