Earthworms modify plant biomass and nitrogen capture under conditions of soil nutrient heterogeneity and elevated atmospheric CO 2 concentrations-Reference-Cited by-同舟云学术

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Earthworms modify plant biomass and nitrogen capture under conditions of soil nutrient heterogeneity and elevated atmospheric CO 2 concentrations

Published:2014-11 Issue: Volume:78 Page:182-188
ISSN:0038-0717
Container-title:Soil Biology and Biochemistry
language:en
Short-container-title:Soil Biology and Biochemistry

Author:

García-Palacios Pablo,Maestre Fernando T.^ORCID,Bradford Mark A.,Reynolds James F.

Funder

Fulbright fellowship

European Research Council

European Commission's FP7 Marie Curie IEF

Publisher

Elsevier BV

Subject

Soil Science,Microbiology

Reference41 articles.

1. Measuring plant interactions: a new comparative index;Armas;Ecology,2004

2. Temporal responses of community fine root populations to long-term elevated atmospheric CO2 and soil nutrient patches in model tropical ecosystems;Arnone;Acta Oecologica,1997

3. Loss of plant biodiversity eliminates stimulatory effect of elevated CO2 on earthworm activity in grasslands;Arnone;Oecologia,2013

4. Exploitation of springtime ephemeral N pulses by six great basin species;Bilbrough;Ecology,1997

5. Substrate heterogeneity and microfauna in soil organic 'hotspots' as determinants of nitrogen capture and growth of ryegrass;Bonkowski;Applied Soil Ecology,2000

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1. Effects of earthworms on the performance of Lolium multiflorum, soil properties and microbial communities in its root-zone soil under cadmium stress;Plant and Soil;2024-08-22

2. An Earthworm Peptide Alters Soil Nematode, Microbial, and Nutrient Dynamics: A Novel Mechanism of Soil Food Web Feedbacks;Agronomy;2024-02-23

3. Responses of Growth and Root Vitality of Fokienia hodginsii Seedling to the Neighbor Competition in Different Heterogeneous Nutrient Environments;Forests;2023-11-21

4. Responses of Planting Modes to Photosynthetic Characteristics and Fluorescence Parameters of Fokienia hodginsii Seedlings in a Heterogeneous Nutrient Environment;Forests;2023-05-10

5. Responses of Maize (Zea mays L.) Roots to Nitrogen Heterogeneity and Intraspecific Competition: Evidence from a Pot Experiment Using the ‘Root Splitting’ Approach;Agronomy;2022-12-07

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