Nitrogen Addition and Heterotroph Exclusion Affected Plant Species Diversity-Biomass Relationship by Affecting Plant Functional Traits

(1) Background: Heterotrophs can affect plant biomass and alter species diversity-productivity relationships. However, these studies were conducted in systems with a low nitrogen (N) availability, and it is unclear how heterotroph removal affects the relationship between plant species diversity and...

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Bibliographic Details
Published in:Plants (Basel) 2024-01, Vol.13 (2), p.258
Main Authors: Xu, Xile, Yang, Luping, Shen, Kai, Cao, Huijuan, Lin, Yishi, Liu, Jinliang, Han, Wenjuan
Format: Article
Language:English
Subjects:
Agricultural production
Area
Arthropods
Biodiversity
Biomass
Biomass energy
Comparative analysis
Ecological function
Environmental aspects
Flowers & plants
functional traits
Fungi
Fungicides
heterotroph removal
Heterotrophs
Insecticides
Leaf area
Leaves
Measurement
Nitrogen
nitrogen addition
Nitrogen in the body
Pathogens
Pesticides
Physiological aspects
Plant biomass
Plant diversity
Plant species
Plant-animal interactions
Plants
Plants (botany)
Productivity
Species diversity
species identity
Species richness
Trophic levels
Understory
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Summary:(1) Background: Heterotrophs can affect plant biomass and alter species diversity-productivity relationships. However, these studies were conducted in systems with a low nitrogen (N) availability, and it is unclear how heterotroph removal affects the relationship between plant species diversity and productivity in different N habitats. (2) Methods: Three typical understory herbaceous plants were selected to assemble the plant species diversity (three plant species richness levels (1, 2, and 3) and seven plant species compositions), and the control, insecticide, fungicide, and all removal treatments were performed at each plant species diversity level in systems with or without N addition treatments. (3) Results: In systems without N addition, the insecticide treatment increased the plant aboveground biomass, total biomass, and leaf area, while the fungicide treatment reduced the plant belowground biomass, root length, and root tip number; the presence of increased the plant aboveground biomass. Similarly, the presence of increased the plant belowground biomass and root diameter under each heterotroph removal treatment. In systems with N addition, all removal treatments reduced the plant belowground biomass and increased the plant leaf area; the presence of significantly increased the plant aboveground biomass, total biomass, and root length under each heterotroph removal treatment. The presence of significantly increased the plant belowground biomass and leaf area under insecticide and fungicide treatments. (4) Conclusions: Heterotroph removal alters the plant species diversity-biomass relationship by affecting the plant functional traits in systems with different N availabilities. The impact of biodiversity at different trophic levels on ecosystem functioning should be considered under the background of global change.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13020258