No growth stimulation of tropical trees by 150 years of CO2 fertilization but water-use efficiency increased

Publication date

2015

Authors

van der Sleen, P.
Groenendijk, PeterISNI 0000000390313790
Vlam, MartISNI 0000000395259383
Anten, NielsISNI 0000000393431688
Boom, A.
Bongers, F.
Pons, T.L.ISNI 0000000109943548
Terburg, G.
Zuidema, PieterISNI 000000039110400X

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Article
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Abstract

The biomass of undisturbed tropical forests has likely increased in the past few decades1,2, probably as a result of accelerated tree growth. Higher CO2 levels are expected to raise plant photosynthetic rates3 and enhance water-use eciency4, that is, the ratio of carbon assimilation through photosynthesis to water loss through transpiration. However, there is no evidence that these physiological responses do indeed stimulate tree growth in tropical forests. Here we present measurements of stable carbon isotopes and growth rings in the wood of 1,100 trees from Bolivia, Cameroon and Thailand. Measurements of carbon isotope fractions in the wood indicate that intrinsic water-use eciency in both understorey and canopy trees increased by 30–35% over the past 150 years as atmospheric CO2 concentrations increased. However, we found no evidence for the suggested concurrent acceleration of individual tree growth when analysing the width of growth rings. We conclude that the widespread assumption of a CO2-induced stimulation of tropical tree growth may not be valid.

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Citation

van der Sleen, P, Groenendijk, P, Vlam, M, Anten, N, Boom, A, Bongers, F, Pons, T, Terburg, G & Zuidema, P 2015, 'No growth stimulation of tropical trees by 150 years of CO2 fertilization but water-use efficiency increased', Nature Geoscience, vol. 8, pp. 24-28. https://doi.org/10.1038/NGEO2313