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

J.P. van der Sleen; P. Groenendijk; M. Vlam; N.P.R. Anten; A. Boom; F. Bongers; T.L. Pons; G. Terburg; P.A. Zuidema

doi:10.1038/NGEO2313

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

J.P. van der Sleen^*, P. Groenendijk, M. Vlam, N.P.R. Anten, A. Boom, F. Bongers, T.L. Pons, G. Terburg, P.A. Zuidema^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

303 Citations (Scopus)

Abstract

The biomass of undisturbed tropical forests has likely increased in the past few decades (1, 2), probably as a result of accelerated tree growth. Higher CO2 levels are expected to raise plant photosynthetic rates (3) and enhance water-use efficiency (4), 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 efficiency 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.

Original language	English
Pages (from-to)	24-28
Journal	Nature Geoscience
Volume	8
DOIs	https://doi.org/10.1038/NGEO2313
Publication status	Published - 2015

Keywords

rising atmospheric co2
carbon-dioxide
climate-change
elevated co2
forest trees
responses
ecosystems
vegetation
feedbacks
lessons

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/NGEO2313

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DendroLab
Project: Other
TROFOCLIM: Tropical forests and climate change: understanding links to predict future responses
1/02/10 → 31/01/15
Project: EU research project

Cite this

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

abstract = "The biomass of undisturbed tropical forests has likely increased in the past few decades (1, 2), probably as a result of accelerated tree growth. Higher CO2 levels are expected to raise plant photosynthetic rates (3) and enhance water-use efficiency (4), 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 efficiency 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.",

keywords = "rising atmospheric co2, carbon-dioxide, climate-change, elevated co2, forest trees, responses, ecosystems, vegetation, feedbacks, lessons",

author = "{van der Sleen}, J.P. and P. Groenendijk and M. Vlam and N.P.R. Anten and A. Boom and F. Bongers and T.L. Pons and G. Terburg and P.A. Zuidema",

year = "2015",

doi = "10.1038/NGEO2313",

language = "English",

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pages = "24--28",

journal = "Nature Geoscience",

issn = "1752-0894",

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TY - JOUR

T1 - No growth stimulation of tropical trees by 150 years of CO2 fertilization but water-use efficiency increased

AU - van der Sleen, J.P.

AU - Groenendijk, P.

AU - Vlam, M.

AU - Anten, N.P.R.

AU - Boom, A.

AU - Bongers, F.

AU - Pons, T.L.

AU - Terburg, G.

AU - Zuidema, P.A.

PY - 2015

Y1 - 2015

N2 - The biomass of undisturbed tropical forests has likely increased in the past few decades (1, 2), probably as a result of accelerated tree growth. Higher CO2 levels are expected to raise plant photosynthetic rates (3) and enhance water-use efficiency (4), 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 efficiency 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.

AB - The biomass of undisturbed tropical forests has likely increased in the past few decades (1, 2), probably as a result of accelerated tree growth. Higher CO2 levels are expected to raise plant photosynthetic rates (3) and enhance water-use efficiency (4), 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 efficiency 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.

KW - rising atmospheric co2

KW - carbon-dioxide

KW - climate-change

KW - elevated co2

KW - forest trees

KW - responses

KW - ecosystems

KW - vegetation

KW - feedbacks

KW - lessons

U2 - 10.1038/NGEO2313

DO - 10.1038/NGEO2313

M3 - Article

VL - 8

SP - 24

EP - 28

JO - Nature Geoscience

JF - Nature Geoscience

SN - 1752-0894

ER -

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

Abstract

Keywords

UN SDGs

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Projects

DendroLab

TROFOCLIM: Tropical forests and climate change: understanding links to predict future responses

Cite this