Lianas Reduce Tree Height With Negative Consequences for Carbon Storage and Growth Estimates

Authors

Xingyan cao, Ghent University
Frieke Van Coillie, Ghent University
Sruthi M. Krishna Moorthy, Ghent University
Kasper Coppieters, Ghent University
Barbara D'hont, Ghent University
Stefan A. Schnitzer, Marquette UniversityFollow
Geertje M. F. van der Heijden, University of Nottingham
Hans Verbeeck, Ghent University
Félicien Meunier, Ghent University

Document Type

Article

Publication Date

7-2025

Publisher

Wiley

Source Publication

Journal of Ecology

Source ISSN

0022-0477

Original Item ID

Doi: 10.1111/1365-2745.70050

Abstract

1. Current evidence suggests that liana (woody vine) competition with trees could be threatening the carbon sink by reducing carbon uptake and storage in tropical forests. Previous studies investigating forest demography in liana removal experiments have, however, assumed similar allometries for trees, regardless of the amount of lianas they support. Yet, recent observations suggest that liana load may alter tree shape and structure, including height, which could result in an underestimation of the liana effects on forest carbon stocks and tree growth.
2. In this study, we used terrestrial laser scanning (TLS) in a liana removal experiment in Gigante Peninsula, Panama, collected 11 years after removal to quantify the liana effect on tree height allometry. Furthermore, we assessed how the liana impact on tree allometry affects the estimates of carbon storage and sequestration. We fitted multiple tree height–diameter allometric relationships with a hierarchical Bayesian approach and combined the best resulting allometric model with inventories to estimate plot-level biomass stocks and their changes over time.
3. For the same diameter at breast height, we found the trees to be 1.8 m shorter on average in the control plots compared to those in the removal plots, indicating a substantial liana effect on tree height. Converting these height differences through the use of allometric models and inventory data led to a reduction in tree biomass stock estimates in the control plots of 1.8 Mg C ha,−1 while they increased by 2.5 Mg C ha−1 in removal plots 10 years after removal. TLS-derived allometries led to estimates of tree biomass growth and tree biomass increment, respectively, 27.1% and 21.8% higher than when treatment-specific height allometries were not accounted for.
4. Synthesis. The use of TLS in a unique experiment site provides strong experimental evidence that lianas change tree allometry, which has repercussions for estimating the capacity of forests to store and accumulate carbon. Our findings highlight the importance of accounting for liana-induced effects on tree shape and structure when using allometric equations to accurately estimate the impact of lianas on forest carbon dynamics.

Comments

Journal of Ecology, Vol. 113, No. 7 (July, 2025): 1647-1658. DOI.

Recommended Citation

cao, Xingyan; Coillie, Frieke Van; Krishna Moorthy, Sruthi M.; Coppieters, Kasper; D'hont, Barbara; Schnitzer, Stefan A.; van der Heijden, Geertje M. F.; Verbeeck, Hans; and Meunier, Félicien, "Lianas Reduce Tree Height With Negative Consequences for Carbon Storage and Growth Estimates" (2025). Biological Sciences Faculty Research and Publications. 981.
https://epublications.marquette.edu/bio_fac/981