The effect of arbuscular mycorrhizal fungi on biological activity and biochemical properties of soil under vetch growing conditions in calcareous soils

Kader Burak; İbrahim Halil Yanardağ; María Dolores Gómez-López; Ángel Faz; Hamza Yalçin; Erdal Sakin; Emrah Ramazanoğlu; Aysel Bars Orak; Asuman Yanardağ

doi:10.1016/j.heliyon.2024.e24820

The effect of arbuscular mycorrhizal fungi on biological activity and biochemical properties of soil under vetch growing conditions in calcareous soils

Heliyon. 2024 Feb 1;10(3):e24820. doi: 10.1016/j.heliyon.2024.e24820. eCollection 2024 Feb 15.

Authors

Kader Burak¹, İbrahim Halil Yanardağ², María Dolores Gómez-López³, Ángel Faz³, Hamza Yalçin¹, Erdal Sakin¹, Emrah Ramazanoğlu¹, Aysel Bars Orak⁴, Asuman Yanardağ²

Affiliations

¹ Department of Soil Science and Plant Nutrition, Agriculture Faculty, Harran University, Sanliurfa, Turkey.
² Soil Science and Plant Nutrition Department, Malatya Turgut Ozal University, Battalgazi, Malatya, Turkey.
³ Sustainable Use, Management and Reclamation of Soil and Water Research Group, ETSIA, Universidad Politécnica de Cartagena, Paseo Alfonso XIII, 48, 30203 Cartagena, Spain.
⁴ Republic of Türkiye Ministry of Agriculture and Forestry Directorate of Plant Protection Central Research Institute, Diyarbakır, Turkey.

Abstract

Due to soils from arid regions with high lime and low organic matter content, farmers receive low yields along with high costs of agricultural inputs, which causes them to look for a solution. In this context, Arbuscular mycorrhizal fungi (AMF) have great potential to reduce fertilizer use by mediating soil nutrient cycles. However, little is known about studies of AMF inoculum on microbial biomass carbon (C), nitrogen (N), and phosphorus (P) cycling during vetch plant vegetation in calcareous areas. In this study, changes in soil biogeochemical properties related to soil C, N, and P cycling were investigated with five different AMF inoculations under vetch (common Vetch (CV; Vicia sativa L.) and Narbonne Vetch (NV; Vicia narbonensis L.) growing conditions. For the field study, a total of five different mycorrhizae were used in the experiment with the random plots design. AMF inoculation decreased the lime content of the soil, and the highest decrease was observed in NV with Glomus (G.) intraradices + G. constrictum + G. microcarpum inoculation (24.41 %). The highest MBC content was recorded in CV vetch G. intraradices (1176.3 mg C kg^-1) and the highest MBN content in NV vetch G. intraradices + G. constrictum + G. microcarpum (1356.9 mg C kg^-1). CAT activity of soils was highest in CV vetch G. intraradices (31.43 %) and lowest in NV vetch G. intraradices + G. constrictum + G. microcarpum (72.88 %), urease enzyme activity decreased in all treatments except G. constrictum + Gigaspora sp. and G. mosseae inoculations in CV. The highest DHG activity was detected in GF (15.72 %) AMFs in CV and GI (21.99 %) in NV. APA activity was highest in Glomus constrictum + Gigaspora sp. (23.33 %) in CV and Glomus fasciculatum (10.08 %) in NV. In CV plots, G. intraradices + G. constrictum + G. microcarpum (91.67 %) isolates had the highest and G. intraradices community had the lowest RC% (97.33 %) in mixed mycorrhiza species, while in NV plots G. fasciculatum inoculum had the highest and G. intraradices community had the lowest RC%. This study has important implications for the application of AMF for sustainable agriculture. When the results of the study were evaluated, the most effective AMF isolates in terms of C, N, and P cycles were G. constrictum + G. fasciculatum + Gigaspora sp. in Common vetch variety, and G. intraradices in Narbonne vetch variety.

Keywords: Arbuscular mycorrhizal fungi (AMF); Soil carbon–nitrogen–phosphorus cycle; Soil enzyme activity; Vetch.