Lianas account for a small fraction of forest biomass, but contribute significantly to the dynamics of tropical and subtropical forests. However, our understanding of their contribution to food webs and biochemical cycling remains limited. 

In a study published in Journal of Ecology, researchers from Xishuangbanna Tropical Botanical Garden (XTBG) investigated the decomposition of liana and tree litter at community level across three forest types (limestone forest, evergreen broadleaved forest, and tropical seasonal forest) in Xishuangbanna. The researchers collected community level data of 40 species (20 lianas and 20 trees), using mixed species bags as well as single species bags, to get a comprehensive understanding of liana and tree litter decomposition. 

To distinguish mesofaunal and microfaunal effects, the researchers incubated the litter in bags with coarse and fine mesh. They then used single-species litter bags to compare decomposition rates of lianas and trees, and tested which functional traits best explained decomposition, and whether those traits differed between lianas and trees, and among forest types. 

Afterwards, they tested whether liana litter enhances decomposition in litter mixtures by using mixed-species litter bags, and evaluated how leaf litter nutrients decayed in relation to litter mass. 

They found that liana decayed faster than tree litter in single species bags with mesofauna access and in mixed bags (liana-only mix, tree-only mix) without mesofauna. Even though mesofauna generally accelerated the decomposition process, it did not change the pattern already present in bags excluding mesofauna (i.e. no interaction growth form * mesh size). 

Moreover, lianas had higher nitrogen content and specific leaf area and lower leaf dry matter content and toughness than trees. Decomposition rate was significantly negatively related to lower leaf dry matter content. Litter of evergreen broadleaved forest decomposed slower than that of other forest types. Liana litter released calcium slightly faster than trees.  

“Our study sheds light on the potential role of lianas within brown food webs and their importance on terrestrial biogeochemistry,” said Mareike Roeder of XTBG. 

Contact 

Mareike Roeder 

Center for Integrative Conservation, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Menglun, Mengla, Yunnan 666303, China              

E-mail: mareike@xtbg.org.cn