Litcius/Paper detail

Predicting litter decomposition rate for temperate forest tree species by the relative contribution of green leaf and litter traits in the Indian Himalayas region

Monika Rawat, Kusum Arunachalam, Ayyandar Arunachalam, Juha M. Alatalo, Rajiv Pandey

2020Ecological Indicators41 citationsDOIOpen Access PDF

Abstract

We examined eight green leaf traits (leaf area, specific leaf area, leaf dry matter, leaf water content, leaf carbon, nitrogen, phosphorous, and chlorophyll) and eight litter traits (cellulose, lignin, litter carbon, nitrogen, phosphorous, lignin: nitrogen, carbon: nitrogen and ash content) and the litter decomposition rates of 10 tree species from a temperate forest ecosystem. Amongst all green leaf and litter traits tested, cellulose content, lignin content and specific leaf area were identified as the best predictors of litter decomposition, with percentage contributions to litter decomposition of 40%, 36% and 8%, respectively. The results indicated that litter decomposition in the temperate forest ecosystem studied was not dependent solely on litter traits, as green leaf traits also contributed to nutrient cycling. Individual green leaf traits of living species and dead leaf characteristics both influenced the fate of leaves, affecting decomposition and nutrient and carbon cycling in the forest ecosystem. For a better overall understanding of the decomposition mechanisms operating in a temperate forest, both green leaf traits and litter traits thus need to be considered.

Topics & Concepts

Plant litterLitterNutrient cycleNutrientLigninAgronomyTemperate climateBiologyEcosystemTemperate forestSpecific leaf areaCyclingNitrogenBotanyEcologyChemistryPhotosynthesisForestryGeographyOrganic chemistryEcology and Vegetation Dynamics StudiesForest ecology and managementPlant Water Relations and Carbon Dynamics