Diversified Soil Types Differentially Regulated the Peanut (Arachis hydropoaea L.) Growth and Rhizosphere Bacterial Community Structure DOI Creative Commons

Wenfei Lan,

Hong Ding, Zhimeng Zhang

и другие.

Plants, Год журнала: 2025, Номер 14(8), С. 1169 - 1169

Опубликована: Апрель 9, 2025

Peanut (Arachis hydropoaea L.) demonstrates a prominent adaptability to diverse soil types. However, the specific effects of types on peanut growth and bacterial communities remain elusive. This study conducted thorough examination agronomic traits, corresponding physicochemical properties, structure rhizosphere in acidic (AT), neutral (NT), saline–alkali (ST) soils, elucidating internal relationship between type yield. Our results showed that different exhibited significant differences yield, with ST demonstrating lowest yield per plant, showing an 85.05% reduction compared NT. Furthermore, available phosphorus content, urease, invertase activities were substantially reduced both AT, particularly by 95.35%, 38.57%, 62.54%, respectively. Meanwhile, metagenomic sequencing unveiled notable decline Bradyrhizobium Streptomyces these which is crucial for improvement. Further metabolic pathway analysis revealed pathways related remediation, fertility improvement, stress response AT may lead slower growth. In conclusion, peanuts cultivated soils can increase via implementing management practices such as improving quality refining micro-environments. provides practical applications enhancing low- medium-yield fields.

Язык: Английский

Diversified Soil Types Differentially Regulated the Peanut (Arachis hydropoaea L.) Growth and Rhizosphere Bacterial Community Structure DOI Creative Commons

Wenfei Lan,

Hong Ding, Zhimeng Zhang

и другие.

Plants, Год журнала: 2025, Номер 14(8), С. 1169 - 1169

Опубликована: Апрель 9, 2025

Peanut (Arachis hydropoaea L.) demonstrates a prominent adaptability to diverse soil types. However, the specific effects of types on peanut growth and bacterial communities remain elusive. This study conducted thorough examination agronomic traits, corresponding physicochemical properties, structure rhizosphere in acidic (AT), neutral (NT), saline–alkali (ST) soils, elucidating internal relationship between type yield. Our results showed that different exhibited significant differences yield, with ST demonstrating lowest yield per plant, showing an 85.05% reduction compared NT. Furthermore, available phosphorus content, urease, invertase activities were substantially reduced both AT, particularly by 95.35%, 38.57%, 62.54%, respectively. Meanwhile, metagenomic sequencing unveiled notable decline Bradyrhizobium Streptomyces these which is crucial for improvement. Further metabolic pathway analysis revealed pathways related remediation, fertility improvement, stress response AT may lead slower growth. In conclusion, peanuts cultivated soils can increase via implementing management practices such as improving quality refining micro-environments. provides practical applications enhancing low- medium-yield fields.

Язык: Английский

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