Defoliation and neighbouring legume plants accelerate leaf and root litter decomposition of Leymus chinensis dominating grasslands

[Display omitted] •Neighbouring legume and defoliation accelerated both leaf and root decomposition.•Neighbouring legume exerted stronger effects on litter decomposition than defoliation.•Neighbouring legume and defoliation exerted interactive effects on leaf decomposition.•The cooccurrence of neigh...

Full description

Saved in:
Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2020-10, Vol.302, p.107074, Article 107074
Main Authors: Song, Xuxin, Cai, Jinting, Meng, Huixian, Ding, Shiwen, Wang, Ling, Liu, Bai, Chang, Qing, Zhao, Xuan, Li, Zhiqiang, Wang, Deli
Format: Article
Language:English
Subjects:
Herbivore defoliation
Neighbourhood effect
Nutrient release
Root decomposition
Species coexistence
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •Neighbouring legume and defoliation accelerated both leaf and root decomposition.•Neighbouring legume exerted stronger effects on litter decomposition than defoliation.•Neighbouring legume and defoliation exerted interactive effects on leaf decomposition.•The cooccurrence of neighbouring legume and defoliation caused the fastest root decay.•Functionally dissimilar species coexistence facilitates nutrient cycling in grassland. Dominant plant species coexist with other species from the same or other trophic levels (e.g. neighbouring plants and herbivores), which may give rise to neighbourhood and defoliation effects on litter decomposition. Yet, little information exists on if and how neighbouring plant species and herbivore defoliation interactively affect the decomposition of dominant species, and further whether decomposition of leaves and roots has similar responses. Here, we simultaneously examined both the leaf and fine root litter decomposition of the dominant grass species, Leymus chinensis, in the presence and absence of a neighbouring plant species, Lathyrus quinquenervius (a functionally dissimilar legume species), and simulated herbivore defoliation by mowing. We found that both neighbouring legume plants and defoliation significantly accelerated both leaf and root litter decomposition of L. chinensis, and that neighbouring legume plants exerted stronger effects on litter decomposition than defoliation. The positive effects of neighbouring legume plants occurred across all study periods, whereas defoliation only had a positive effect during the first 15 days of litter decomposition. Neighbouring legume plants and defoliation exerted strong additive effects on root litter decomposition, and interactive effects on leaf litter decomposition. These findings highlight the significance of functionally dissimilar species coexistence to facilitate nutrient cycling in grasses - dominated grasslands.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2020.107074