Abstract
Abstract. Ecosystem-level estimates of the effect of lianas on tree growth in mature tropical forests are needed to evaluate the functional impact of lianas and their potential to affect the ability of tropical forests to sequester carbon, but these are currently lacking. Using data collected on tree growth rates, local growing conditions and liana competition in five permanent sampling plots in Amazonian Peru, we present the first ecosystem-level estimates of the effect of lianas on above-ground productivity of trees. By first constructing a multi-level linear mixed effect model to predict individual-tree diameter growth model using individual-tree growth conditions, we were able to then estimate stand-level above-ground biomass (AGB) increment in the absence of lianas. We show that lianas, mainly by competing above-ground with trees, reduce tree annual above-ground stand-level biomass increment by ~10%, equivalent to 0.51 Mg dry weight ha−1 yr−1 or 0.25 Mg C ha−1 yr−1. AGB increment of lianas themselves was estimated to be 0.15 Mg dry weight ha−1 yr−1 or 0.07 Mg C ha−1 yr−1, thus only compensating ~29% of the liana-induced reduction in ecosystem AGB increment. Increasing liana pressure on tropical forests will therefore not only tend to reduce their carbon storage capacity, by indirectly promoting tree species with low-density wood, but also their rate of carbon uptake, with potential consequences for the rate of increase in atmospheric carbon dioxide.
Highlights
Lianas are woody climbers that are important and characteristic components of tropical forests (Gentry, 1991)
Of all variables included in the model, only below-ground competition with lianas did not significantly contribute to explaining variance in tree diameter growth (χ 2=1.1, P =0.29) nor did inclusion improve the Akaike Information Criterion (AIC) (3477 vs. 3477)
We conclude that the liana-induced reductions we report in combined tree and liana above-ground biomass (AGB) productivity (0.36 Mg dry weight ha−1 yr−1) and carbon gain (0.18 Mg C ha−1 yr−1) are probably conservative estimates
Summary
Lianas are woody climbers that are important and characteristic components of tropical forests (Gentry, 1991). Few studies have attempted to disentangle the effects of aboveand below-ground liana competition These generally indicate that below-ground competition for water and nutrients is the dominant mechanism by which lianas affect tree growth (Dillenburg et al, 1993a, b, 1995; Perez-Salicrup and Barker, 2000; Schnitzer et al, 2005; Toledo-Aceves and Swaine, 2008), and this forms bans for a theory on liana success (Schnitzer, 2005). No attempt has been made to separate the relative importance of aboveand below-ground liana competition on tree growth for trees ≥10 cm diameter, which contribute >90% of forest biomass (Baker et al, 2004a)
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