-Caveat Lector-

Source: University Of Michigan (http://www.umich.edu)

Date: Posted 5/28/2001

Soil Fertility Limits Forests' Capacity To Absorb Excess CO2

ANN ARBOR -- A field study on the effects of elevated carbon dioxide
(CO2) on forest ecosystems raises doubts about the ability of trees to
absorb excess CO2 accumulating in the earth's atmosphere.

Results of the seven-year study, to be published in the May 24 issue of
Nature, show that some forests will not increase the amount of carbon they
sequester—at least not enough to compensate for increasing atmospheric
CO2. Soil fertility is a key factor in determining the long-term growth
response to elevated CO2, according to co-principal investigator David S.
Ellsworth, assistant professor of plant physiological ecology in the School
of Natural Resources and Environment at the University of Michigan.

Prof. Ram Oren of the Nicholas School of the Environment and Earth
Sciences, Duke University, also was a principal investigator on the project.

"When we exposed trees in low-nutrient soil to elevated CO2, they
maintained growth increases only with added nutrients," said Ellsworth.
"While CO2 initially acts as a stimulus to the tree's physiology, our
experiments suggest that short-term increases in growth are not
sustainable over the long-term in low-nutrient environments."

The open-air field study described in Nature is the first of its kind to
examine the effects of elevated CO2 on forests growing in nutrient-limited
environments over many years. The study included the longest running
forest-based Free Air CO2 Enrichment (FACE) experiment. By exposing
trees to elevated CO2 in an otherwise natural setting, the researchers were
able to simulate conditions predicted for 50 years from now.

"Other recent studies have shown that elevated CO2 increases growth,
measured as the amount of carbon sequestered in the tree's biomass, and
increases nutrient uptake as well," Ellsworth said. "But what happens if the
tree does not take up soil nutrients in proportion to that growth increase, or
the nutrients are not available?"

That is the case for many northern mid-latitude forests, which comprise
much land in the United States and Europe, Ellsworth noted. Forest soils
tends to be low in nutrients because most of the nutrient-rich soil has been
used for agriculture.

"The debate over how much CO2 trees will absorb should consider the
limitations of soil fertility or other key resources in low supply."

The FACE experiment was conducted on a moderately fertile site at the
Duke Forest of Duke University. A second field experiment used CO2
enrichment in chambers on an infertile site in the sandhills of North
Carolina. Both experiments exposed maturing loblolly pine trees to levels of
CO2 predicted to accumulate in the earth's atmosphere 50 years from now.


In the FACE experiment, the researchers compared growth of CO2-treated
trees with untreated trees in an adjacent plot. Averaged over the first three
years of the experiment, the elevated CO2 plot showed a 34 percent
increase in growth relative to the ambient CO2 (untreated) plot. However,
that increase dropped to 6 percent over the following four years.

To test whether nutrient limitations reduce the tree response to elevated
CO2, the researchers added a balanced fertilizer to half the FACE area.
Averaged over 1999 and 2000, trees grown under elevated CO2 without
nutrient addition increased growth at an annual rate of only 7 percent while
the fertilized trees grown in ambient CO2 increased annual growth by 15
percent.

The combination of improved nutrition and elevated CO2 increased growth
by 47 percent at the site. This clearly indicates a synergistic effect of CO2
and nutrient supply, the researchers concluded. At the infertile site, trees
without added nutrition showed virtually no growth response to elevated
CO2 in two years. Under optimal nutrition and ambient CO2, growth
increased 21 percent. In trees subjected to the combination of improved
nutrition and elevated CO2, growth was 74 percent—more than three times
the sum of separate responses.

These findings suggest that growth responses of pine forests to elevated
CO2 will be highly variable and depend on site fertility, to the point that
trees growing on nutritionally poor sites may not respond at all. Moreover,
other factors, such as water deficits, also could limit forest response to
atmospheric CO2.

"Trees can sustain increases in biomass only as long as they find enough
water and nutrients in their ecosystems," Ellsworth said. "I don't think we
can assume existing forests, with their fertility limitations, will completely
offset rising CO2 without soil amendments. We will more likely find
solutions in measures such as burning less fossil fuel and planting more
trees in high-nutrient soils." The research team included collaborators from
Brookhaven National Laboratory, Boston University, and the U.S. Forest
Service.

The study was funded primarily by the U.S. Department of Energy and the
U.S. Forest Service.

Editor's Note: The original news release can be found at
http://www.umich.edu/~newsinfo/Releases/2001/May01/r051801b.html

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