Melting Icebergs Fertilize Ocean

In the February 25 Issue:

Melting icebergs fertilize ocean

Release of extra iron boosts carbon dioxide uptake by plankton

By Janet Raloff

Web edition : Monday, May 16th, 2011

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CASTING IRONIn iron-poor Antarctic waters, meltwater from icebergs is fertilizing the seas with the metal, fueling a proliferation of sea life — and removing carbon dioxide from the atmosphere.Debbie Nail Meyer © 2009 MBARI

Efforts to remove climate-warming carbon dioxide from Earth’s atmosphere appear to be getting a helping hand from a surprising source: the iron in meltwater from Antarctic icebergs.

Icebergs calving off of Antarctica are shedding substantial iron — the equivalent of a growth-boosting vitamin — into waters starved of the mineral, a new set of studies demonstrates. This iron is fertilizing the growth of microscopic plants and algae, transforming the waters adjacent to ice floes into teeming communities of everything from tiny shrimplike krill to fish, birds and sometimes mammals.

To grow, these plants and animals use carbon drawn into the water from carbon dioxide in the atmosphere. Some share of this carbon will eventually be excreted as wastes that fall to the ocean floor, essentially removing it as a near-term climate risk.

“Icebergs should be considered by climate modelers, because the more icebergs that develop [from the breakup of glaciers], the more carbon dioxide you’ll draw out of the atmosphere,” says Ken Smith of the Monterey Bay Aquarium Research Institute in Moss Landing, Calif.

Smith and colleagues first fingered icebergs as hotspots of biological and chemical activity in a 2007 study published in Science. New data from Antarctic cruises in 2008 and 2009 by Smith and other scientists from nine research institutions now appear as 20 papers in the June Deep Sea Research Part II.

Researchers refer to icebergs’ carbon removal as an export. “And the amount of carbon being exported near icebergs is twice as high as in areas away from them,” Smith says.

Counterbalancing icebergs’ carbon removal: No one views the sea-level rise accompanying massive ice melting as a good thing. The rate of iceberg calving — and ice loss — in recent years has increased there, as elsewhere, in response to warming of Earth’s atmosphere.

Prior to the new studies, “we didn’t know the nature of the biological communities associated with icebergs and we certainly didn’t know their direct relationship to carbon exports,” says chemist Timothy Shaw of the University of South Carolina in Columbia, who coauthored several of the new reports.

One surprise: The proliferation of phytoplankton — tiny plants at the base of the marine food chain — that were witnessed in the waters around ice floes “could only account for about half of the increased carbon export we measured,” Shaw says. His team now attributes the other half to changes in the chemistry of iron and carbon use by phytoplankton living next to and under the icebergs.

Benjamin Twining of the Bigelow Laboratory for Ocean Sciences in West Boothbay Harbor, Maine, points to another big surprise: Icebergs’ iron enrichment of southern waters could vary by a factor of 100 from one iceberg to another, or even along walls of a given berg. This patchy enrichment reflects differences in chemical reactions triggered by various organisms and to the unexpectedly complicated turbulence associated with water melting from the floes.

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Found in: Earth, Environment, Life and Molecules

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Comments 3

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The article seems to imply that melting of an iceberg affects the sea level, which is not true.

David Thomas

May. 19, 2011 at 12:12pm
This article implies that sea level rise is accelerating.

The May 2011 issue of the Journal of Coastal Research has a paper that claims sea level rise is decelerating. From the abstract:

HOUSTON, J.R. and DEAN, R.G., 2011. Sea-level acceleration based on U.S. tide gauges and extensions of previous global-gauge analyses. Journal of Coastal Research, 27(3), 409-417. West Palm Beach (Florida), ISSN 0749-0208.

Without sea-level acceleration, the 20th-century sea-level trend of 1.7 mm/y would produce a rise of only approximately 0.15 m from 2010 to 2100; therefore, sea-level acceleration is a critical component of projected sea-level rise. To determine this acceleration, we analyze monthly-averaged records for 57 U.S. tide gauges in the Permanent Service for Mean Sea Level (PSMSL) data base that have lengths of 60-156 years. Least-squares quadratic analysis of each of the 57 recordsare performed to quantify accelerations, and 25 gauge records having data spanning from 1930 to 2010 are analyzed. In both cases we obtain small average sea-level decelerations. To compare these results with worldwide data, we extend the analysis of Douglas (1992) by an additional 25 years and analyze revised data of Church and White (2006) from 1930 to 2007 and also obtain small sea-level decelerations similar to those we obtain from U.S. gauge records.

Ric Werme

May. 20, 2011 at 9:35am
@David Thomas:

Note the article says "icebergs that develop [from the breakup of glaciers]." Ice that is transported from land (glaciers) to water does raise sea level. The melting does a bit too due the interaction of fresh water from the iceberg and salty sea water, but the main rise is just from dumping ice into the ocean. Of course, precip on land lowers sea level and that is happening too.

Ric Werme

May. 20, 2011 at 9:39am

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Suggested Reading :

S. Perkins. Iron fertilization in ocean nourishes toxic algae. Science News Online, March 15, 2010. Available online: [Go to]
S. Perkins. Icebergs can be biological hot spots. Science News, Vol. 172, July 7, 2007, p. 13.
Available online: [Go to]
S. Perkins. Glaciers give major boost to sea level. Science News, Vol. 171, Jan. 6, 2007, p. 14.
Available online: [Go to]
S. Perkins. Big bergs ahoy! Science News, Vol. 159, May 12, 2001, p. 298. Available to subscribers: [Go to]
S. Perkins. Down with Carbon: Scientists work to put the greenhouse gas in its place. Science News, Vol. 173, May 10, 2008, p. 18. Available online: [Go to]
J. Raloff. Glacier melts are erasing climate record. Science News Online, Oct. 12, 2008.

Citations & References :

K.L. Smith Jr. et al. Free-drifting icebergs in the Southern Ocean: An overview. Deep-Sea Research II, Vol. 58, June 2011, p. 1277. doi: 10.1016/j.dsr2.2010.11.003 [Go to]
K.L. Smith Jr. et al. Carbon export associated with free-drifting icebergs in the Southern Ocean. Deep-Sea Research II, Vol. 58, June 2011, p. 1485. doi: 10.1016/j.dsr2.2010.11.027 [Go to]
H. Lin, T.J. Shaw and B.S. Twining. Free-drifting icebergs as sources of iron to the Weddell Sea. Deep-Sea Research II, Vol. 58, June 2011, p. 1392. doi: 10.1016/j.dsr2.2010.11.020 [Go to]
T.J. Shaw et al. 234Th-based carbon export around free-drifting icebergs in the Southern Ocean. Deep-Sea Research II, Vol. 58, June 2011, p. 1384. doi: 10.1016/j.dsr2.2010.11.0197 [Go to]
A.O. Cefarelli, M. Vernet and M.E. Ferrario. Phytoplankton composition and abundance in relation to free-floating Antarctic icebergs. Deep-Sea Research II, Vol. 58, June 2011, p. 1436. doi: 10.1016/j.dsr2.2010.11.023 [Go to]
M. Vernet et al. Impacts on phytoplankton dynamics by free-drifting icebergs in the NW Weddell Sea. Deep-Sea Research II, Vol. 58, June 2011, p. 1422. doi: 10.1016/j.dsr2.2010.11.022 [Go to]

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