By Charles Q. Choi
Fertilizing the oceans with iron — a tactic that
"geoengineers" have proposed to fight global warming — could
inadvertently spur the growth of toxic microbes, warn scientists who analyzed
water samples from past iron-fertilization experiments.
Toxin-producing algae that thrive on iron and can
contaminate marine life are more widespread than suspected, the researchers
said. The finding could impact proposed iron-fertilization projects.
"This work definitely reveals a wrinkle in those
plans," said researcher Kenneth Coale, director of Moss Landing Marine
Laboratories in California. "It is much easier to break
an ecosystem than it is to fix one."
To combat rising levels of carbon dioxide — a
"greenhouse gas" that traps heat from the sun — some researchers have
suggested seeding the oceans with iron. That, they say, would help spur the
growth of the marine plants known as phytoplankton that naturally suck carbon
dioxide from the air. [Should
We Geoengineer Earth's Climate?]
However, recent
findings suggest that even a massive
phytoplankton bloom would result in only a modest intake of carbon
dioxide. Now Coale and fellow researcher Mary Silver find that
iron-fertilization projects could also trigger rapid growth of harmful algae.
"Large areas of the ocean have very little iron in them
— that's why the waters there are so clear and blue, because these plants can't
live there to cloud the waters," said Silver, a biological
oceanographer at the University of California, Santa Cruz. "It's the same
as you see with plants in a garden — if they don't have enough nitrogen and
phosphorus, they can't grow. If these ocean plants don't have any iron, they
can't grow."
Algae known as Pseudo-nitschia generate toxic
domoic acid. These diatoms occur regularly in coastal waters, and when their
populations boom, the toxin can contaminate marine wildlife, poisoning the
birds and marine mammals that feed on polluted fish, and closing shellfish and
sardine fisheries.
These algae were once thought limited to coastal waters. Now
researchers find they are common in the open sea as well.
"There was nothing in the science journals suggesting
that such toxin-producing algae are so widespread in the open sea, nor
documenting that they can get very abundant," Silver told LiveScience.
Normally, Pseudo-nitschia cells are sparse in the
high seas, "so they don't have much effect," Silver said. "But
these species are incredibly responsive to iron, often becoming dominant in
algal blooms that result from iron fertilization. Any iron input might cause a
bloom of the cells that make the toxin."
In 2007, on a research cruise to study iron chemistry in the
Gulf of Alaska, Silver and her colleagues often discovered Pseudo-nitschia in
samples collected at sea. Analyses back in the lab revealed the associated
toxin was present, too.
Silver then teamed up with Coale to analyze old water
samples collected during two iron-fertilization experiments conducted in 1995
and 2002.
"We thought the toxin would have broken down, but it
was still there," Silver said.
The researchers also investigated water samples from three
expeditions in the North Pacific independent from the iron-fertilization
experiments. Their analysis indicated that waters throughout the Pacific
naturally contain Pseudo-nitschia linked with neurotoxin.
Oceanic blooms of this algae probably occur due to iron
deposited by volcanic eruptions, dust storms and other airborne sources, Silver
said.
"It is a natural phenomenon and likely has been for
millions of years," Silver said. "But those are sporadic occurrences.
To do iron enrichment on a large scale could be dangerous, because, if it
causes blooms of Pseudo-nitschia, the toxin might get into the food chain,
as it does in the coastal zone."
"We should have viable strategies to remove carbon from
the atmosphere," Coale told LiveScience. "Iron fertilization is still
one option in our toolbox, but now the label on the box must read, 'Caution,
may produce harmful algal blooms.'"
The scientists detailed their findings online Nov. 8 in the
Proceedings of the National Academy of Sciences.
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