Earthworm Aporrectodea molleri (oligochaeta)'s coelomic fluid-associated bacteria modify soil biochemical properties and improve maize (Zea mays L.) plant growth under abiotic stress conditions

Lamia Yakkou; Sofia Houida; Serdar Bilen; Leyla Okyay Kaya; Mohammed Raouane; Souad Amghar; Abdellatif El Harti

doi:10.1007/s11356-022-22999-6

Earthworm Aporrectodea molleri (oligochaeta)'s coelomic fluid-associated bacteria modify soil biochemical properties and improve maize (Zea mays L.) plant growth under abiotic stress conditions

Environ Sci Pollut Res Int. 2023 Jan;30(5):11719-11739. doi: 10.1007/s11356-022-22999-6. Epub 2022 Sep 13.

Authors

Lamia Yakkou^{1

2}, Sofia Houida^{3

4}, Serdar Bilen⁴, Leyla Okyay Kaya⁴, Mohammed Raouane³, Souad Amghar³, Abdellatif El Harti³

Affiliations

¹ Reseach Team "Lombricidae, Improving Soil Productivity and Environment" (LAPSE), Centre "Eau, Ressources Naturelles, Environnement et Développement Durable" (CERNE2D), Ecole Normale Supérieure (ENS), Mohammed V University in Rabat, Avenue Med Belhassan El Ouazani, BP5118, Takaddoum-Rabat, Morocco. lamia_yakkou@um5.ac.ma.
² Soil Science and Plant Nutrition Department, Faculty of Agriculture, Ataturk University, 25000, Erzurum, Turkey. lamia_yakkou@um5.ac.ma.
³ Reseach Team "Lombricidae, Improving Soil Productivity and Environment" (LAPSE), Centre "Eau, Ressources Naturelles, Environnement et Développement Durable" (CERNE2D), Ecole Normale Supérieure (ENS), Mohammed V University in Rabat, Avenue Med Belhassan El Ouazani, BP5118, Takaddoum-Rabat, Morocco.
⁴ Soil Science and Plant Nutrition Department, Faculty of Agriculture, Ataturk University, 25000, Erzurum, Turkey.

PMID: 36098926
DOI: 10.1007/s11356-022-22999-6

Abstract

This study evaluated the impact of Aporrectodea molleri's coelomic fluid-associated bacteria (CFB) on Zea mays L. growth and soil biochemical characteristics under abiotic stress conditions, including alkaline soil (pH = 8) and nitrogen (N), phosphate (P), and potassium (K) deficit. Compared to maize cultivated in uninoculated soil, the effect of CFB on boosting plant growth under abiotic stress was notably exceptional. Different CFB treatments increased significantly root and shoot length by 50% and 21%, respectively. Furthermore, the presence of isolates in soil resulted in a significant increase in plant fresh and dry weights (of up to 113% and 91% for roots, and up to 173% and 44% for shoots), leaf surface (78%), and steam diameter (107%). Overall, soil inoculation with CFB significantly (P < 0.05) enhanced chlorophyll and water content in the plant compared to the untreated soil. Despite the soil's alkaline condition, CFB drastically boosted soil quality by increasing nutrient availability (up to 30 ppm for N, 2 ppm for P, and 60 ppm for K) and enzyme activity (up to 1.14 μg p-NP h^-1 g^-1 for acide phosphatase, 9 μg p-NP h^-1 g^-1 for alkaline phosphatase and 40 μg NH₄-N 2 h^-1 g^-1 for urease), throughout the early stages of the growth period. Interestingly, alkaline phosphatase concentrations were substantially greater in treatments with different isolates than acid phosphatase. Furthermore, the principal component analysis showed that the inoculation with bacteria strains CFB1 Buttiauxella gaviniae and CFB3 Aeromonas hydrophila had a significantly better stimulatory stimulatory and direct influence on maize growth than the other isolates had a substantial effect on soil's biochemical features. Thus, we assumed that the beneficial contribution of earthworms in the rhizosphere might be attributed in large part to associated microorganisms.

Keywords: Abiotic stress; Bacteria; Coelomic fluid; Earthworm; Plant growth-promoting; Soil properties.

MeSH terms

Alkaline Phosphatase
Animals
Bacteria
Oligochaeta*
Plant Roots
Soil* / chemistry
Zea mays

Substances

Soil
Alkaline Phosphatase