Belowground plant inputs exert higher metabolic activities and carbon use efficiency of soil nematodes than aboveground inputs-Reference-Cited by-同舟云学术

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Belowground plant inputs exert higher metabolic activities and carbon use efficiency of soil nematodes than aboveground inputs

Published:2022-08 Issue: Volume:420 Page:115883
ISSN:0016-7061
Container-title:Geoderma
language:en
Short-container-title:Geoderma

Author:

Zhang Zhiyong,Wang Han,Ding Fan,Wilschut Rutger A.^ORCID,Jia Zhaojie,Zhang Xiaoke,Zhang Di,Rasmann Sergio,Sánchez-Moreno Sara,Li Bingxue

Publisher

Elsevier BV

Subject

Soil Science

Reference86 articles.

1. There’s no place like home? An exploration of the mechanisms behind plant litter–decomposer affinity in terrestrial ecosystems;Austin;New Phytol.,2014

2. Aboveground–belowground linkages, biotic interactions, ecosystem processes, and global change;Bardgett,2010

3. Berg, B., McClaugherty, C., 2003. Plant Litter. Decomposition, Humus Formation, Carbon Sequestration. Springer, Berlin, Germany.

4. Temperature-based bioclimatic parameters can predict nematode metabolic footprints;Bhusal;Oecologia,2015

5. De Nematoden van Nederland;Bongers,1994

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1. Enhanced plant litter impacts nematode communities and carbon use efficiency in a mixed forest;Functional Ecology;2024-07-14

2. Soil meso- and microfauna community acts as an environmental bioindicator in urban greenway landscapes;Geoderma;2024-02

3. Dynamics of macroplastics and microplastics formed by biodegradable mulch film in an agricultural field;Science of The Total Environment;2023-10

4. Leaf litter presence in the non‐growing season prolongs plant legacy effects on soil fungal communities and succeeding plant growth;Journal of Ecology;2023-06-26

5. Nematode biomass changes along an elevational gradient are trophic group dependent but independent of body size;Global Change Biology;2023-06-19

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