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Amelioration of Organic Carbon and Physical Health of Structurally Disturbed Soil through Microbe–Manure Amalgam

Wenjia Jiang, Aqarab Husnain Gondal, Haroon Shahzad, Muhammad Iqbal, Mary Amelia Cárdenas Bustamante, Rafael Julián Malpartida Yapias, Ruggerths Neil De la Cruz Marcos, Franklin Oré Areche, Jimmy Pablo Echevarría Victorio, Guillermo Gomer Cotrina Cabello, Dante Daniel Cruz Nieto

2022Processes12 citationsDOIOpen Access PDF

Abstract

Less precipitation, high temperature, and minimal natural vegetation are characteristic of regions having an arid climate. The harsh environment massively destructs the soil structure of that area by burning soil organic carbon, leading to deteriorated soil nutritional quality, creating a significant threat to agricultural production and food security. Direct application of organic wastes not only substitutes lost organic carbon but also restores soil structure and fertility. This study was conducted to assess the impact of organic amendments, i.e., farm manure (FM), poultry manure (PM), molasses (MO), and Exo-Poly Saccharides (EPS) producing rhizobacterial strains i.e., M2, M19, M22 amalgams as treatments. To assess the impact of treatments on soil carbon and structure restoration to hold more water and nutrients, a 42-day incubation experiment using a completely randomized design (CRD) under the two-factor factorial arrangement was conducted. Macro aggregation (0.25 to >1 mm), carbon retention in macro aggregates, active carbon (dissolved organic carbon, a mineral-associated organic carbon, microbial biomass carbon), total organic carbon, the carbon mineralization activities, and water retention capacities were observed to be highest in soils that were treated with (FM + M2, FM + M22, PM + M19, and MO + M19). Finally, we conclude that organics mineralization by microbial actions releases organic glues that not only impart particle aggregation but also conserve organics as aggregate entrapped carbon. Amalgamated application of microbe–manure combinations directly impacts soil structure and organic carbon contents, but in an indirect scenario, it improves the fertility and productivity of the soil. Therefore, it is strongly recommended to use organic manures and microbes in combination to restore structurally degraded lands.

Topics & Concepts

Soil carbonManureTotal organic carbonMineralization (soil science)Soil fertilityEnvironmental scienceSoil organic matterChemistrySoil waterEnvironmental chemistryAgronomySoil scienceBiologySoil Carbon and Nitrogen DynamicsAnaerobic Digestion and Biogas ProductionMicrobial Community Ecology and Physiology
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