Impacts of Fallow Conditions, Compost and Silicate Fertilizer on Soil Nematode Community in Salt–Affected Paddy Rice Fields in Acid Sulfate and Alluvial Soils in the Mekong Delta, Vietnam

Avoidance of intensive rice cultivation (IRC) and soil amendments are potential practices to enhance soil properties. There is only limited information on the effects of reduced IRC and its mixture with compost or silicate fertilizer (Si) on the soil nematode community in salt–affected soils. This s...

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Bibliographic Details
Published in:Agronomy (Basel) 2021-03, Vol.11 (3), p.425
Main Authors: Sinh, Nguyen Van, Khoi, Chau Minh, Phuong, Nguyen Thi Kim, Linh, Tran Ba, Minh, Dang Duy, Perry, Roland N., Toyota, Koki
Format: Article
Language:English
Subjects:
Abundance
Acidic soils
Agricultural production
Agriculture
Alluvial soils
Biodiversity
Cereal crops
Composting
Composts
Crop diseases
Crop rotation
Crops
Cultivation
Drought
Environmental impact
Fertilizers
Field tests
Grain cultivation
metabolic footprints
Nematodes
omnivorous
Pathogens
Plant resistance
Rain
Rice
Rice fields
saline soil
Salinity
Salts
Seasons
Silicon
Soil amendment
Soil properties
Soil sciences
Sulfates
sustainability
trophic structure
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Summary:Avoidance of intensive rice cultivation (IRC) and soil amendments are potential practices to enhance soil properties. There is only limited information on the effects of reduced IRC and its mixture with compost or silicate fertilizer (Si) on the soil nematode community in salt–affected soils. This study aimed to assess the shifts of soil nematode community by reducing a rice crop from triple rice system (RRR) to a double rice system and mixed with compost or Si in paddy fields in acid sulfate soil (ASS) and alluvial soil (AL) in the Mekong Delta, Vietnam. Field experiments were designed with four treatments in four replicates, including RRR and a proposed system of double–rice followed by a fallow (FRR) and with 3 Mg ha–1 crop−1 compost or 100 kg ha–1 crop−1 Si. Soils were collected at harvest after the 2 year experiment, reflecting the fifth and third consecutive rice crop in RRR and FRR system, respectively. Results showed that reduced IRC gave a significant reduction in abundance of plant–parasitic nematodes (PPN), dominated by Hirschmanniella and increased abundance bacterivorous nematodes when mixed to compost and silicate fertilizer in ASS. In addition, reduced IRC increased nematode biodiversity Hill’s indices and reduced herbivorous footprint in ASS. Proposed system having compost or Si had strongly increased in bacterivorous and omnivorous footprints. Particularly, reduced IRC mixture with Si increased abundance of Rhabdolaimus, Mesodorylaimus and Aquatides, metabolic footprints (structure footprint, bacterivorous, omnivorous and predator) and diversity Hill’s N1 index in ASS. Our results highlighted that reduced IRC was a beneficial practice for decreasing abundance of PPN in salt-affected soils and increasing abundance of FLN in ASS. IRC mixture with compost or Si had potential in structuring the nematode communities with increasing biodiversity, trophic structure, and metabolic footprints.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy11030425