Dynamics of Nitrogen Mineralization by Organic and Inorganic Amendments Through Enzyme Activity of Microbial Community in Laboratory Incubation

Dynamics of Nitrogen Mineralization by Organic and Inorganic Amendments Through Enzyme Activity of Microbial Community in Laboratory Incubation

Chemical fertilizers provide an immediate nitrogen supply but require repeated application at critical growth stages; however, excessive chemical fertilizer application harms the environment. In contrast, organic fertilizers release nitrogen gradually for a long time, and microbial fertilizers enhan...

Full description

Saved in:
Bibliographic Details
Main Authors: Md.Tariful Alam Khan, Md. Billal Hossain Momen, Md. Rashedur Rahman Tanvir, Md. Robiul Islam
Format: Article
Language:English
Published: Universitas Sebelas Maret, Faculty of Agriculture 2025-03-01
Series:Caraka Tani: Journal of Sustainable Agriculture
Subjects:
integrated fertilizer
microbial fertilizer
mineralization
plfas
poultry manure
Online Access:https://jurnal.uns.ac.id/carakatani/article/view/92849
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Chemical fertilizers provide an immediate nitrogen supply but require repeated application at critical growth stages; however, excessive chemical fertilizer application harms the environment. In contrast, organic fertilizers release nitrogen gradually for a long time, and microbial fertilizers enhance nutrient availability. This study investigated the effects of integrating chemical nitrogen (CN), poultry manure (PM), and microbial fertilizer (MBF) on soil nitrogen availability and microbial activity. Eight treatments were applied: T0 (control), T1 (100% CN), T2 (100% CN + MBF), T3 (75% CN + 25% PM + MBF), T4 (50% CN + 50% PM + MBF), T5 (25% CN + 75% PM + MBF), T6 (100% PM + MBF), and T7 (100% PM). Soil nitrogen fractions, microbial biomass, enzyme activities, and phospholipid fatty acid (PLFA) composition were analyzed. Integrated treatments improved nitrogen availability compared to sole CN application, with T4 showing the highest NO₃--N accumulation. Additionally, T4 increased total nitrogen, organic carbon, and microbial biomass, enhancing soil fertility. Enzymatic activities, including urease, catalase, invertase, and cellulase, responded positively to the integrated treatments, reflecting improved soil health. PLFA analysis revealed shifts in microbial community composition, highlighting the role of PM in promoting microbial diversity and biomass. These findings highlight that blending 50% CN and 50% PM with MBF balances immediate and sustained nitrogen release while stimulating microbial diversity and soil enzyme functions and improves overall soil health, making it a promising strategy for sustainable soil fertility management and reducing chemical fertilizer dependency.
ISSN:2613-9456
2599-2570

Similar Items