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ABSTRACT:

In situ growth stimulation of a temperate zone liana (Hedera helix) in elevated CO2

Journal Article

Zotz G; Cueni N; Korner C

2006

Functional Ecology

20

763-769

1. Lianas which arguably benefit more than other growth forms from elevated CO2 have been associated with increasing turn-over rates in tropical forests as observed in recent decades. Although rarely as prominent outside the tropics an increase in abundance of climbing plants is likely to affect forest dynamics in the temperate zone as well. Hedera helix is the most abundant climber in western Europe and previous work in controlled conditions suggested CO2 effects similar to those observed in tropical lianas. 2. Here we present an in situ test of the hypothesis that this abundant climber will benefit from increasing CO2 concentrations primarily under light limitation in the forest understorey but much less in the forest canopy. To this end we studied growth responses to elevated CO2 for an entire growing season at the Swiss Canopy Crane site on the forest floor and 20-25 m above the ground in the forest canopy. 3. The relative stimulation of length and biomass increment of shoots by elevated CO2 (about 600 μl l-1) was indeed very pronounced in deep shade (c. +60%) about twice as much as in the subcanopy (c. +30%). Given the rapid depletion of non-structural carbohydrate (NSC) pools at canopy closure in spring carbon limitation under current ambient CO2 concentrations must be substantial in the understorey. In contrast to the understorey where CO2 enrichment had no effect on NSC pools there was a sharp increase in NSC concentration in subcanopy leaves exposed to elevated CO2. 4. We conclude that rising CO2 concentrations will allow Hedera to explore light-limited understorey microhabitats more vigorously which should increase the likelihood of reaching the forest canopy. There however Hedera benefits less from elevated CO2. Our results add one more explanation to Hedera\s current success in European forests.

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The Liana Ecology Project is supported by Marquette University and funded in part by the National Science Foundation.