Linking microbial taxonomy and function in N and P metabolism: a study of organic amendments in semiarid restored soils
Ana B. Villafuerte, André M. Comeau, Rocío Soria, Raúl Ortega, Robyn J. Wright, Isabel Miralles

TL;DR
This study explores how organic amendments affect soil microbes and their roles in nitrogen and phosphorus cycles in restored semiarid soils.
Contribution
The research establishes new insights into how organic amendments alter microbial community structure and function in degraded soils.
Findings
Organic amendments increased nutrient content, microbial activity, and bacterial biomass, especially in sewage-sludge-treated soils.
Microbial amendments strongly influenced nitrogen metabolism more than phosphorus turnover, particularly via the phosphonate pathway.
Functional redundancy was observed in nitrogen and phosphorus metabolisms at phylum and genus levels.
Abstract
Arid and semi-arid regions cover approximately 41% of Earth’s surface and their soils are highly vulnerable to degradation due to harsh climatic conditions and extractive activities, such as opencast mining. Organic amendments are widely used to restore degraded soils because they improve physical, chemical, and biological properties. However, little is known about how these amendments alter microbial communities and the relationship between microbial taxonomy and function, particularly in nitrogen and phosphorus cycling. To address this knowledge gap, the effects of different organic amendments (gardening compost, greenhouse horticultural compost, sewage sludge and two blends of the above) on soil properties, microbial communities and their contributions to nitrogen metabolism and phosphorus turnover in degraded soils from a limestone quarry in the Gádor Range (Almería, SE-Spain) six…
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Taxonomy
TopicsSoil Carbon and Nitrogen Dynamics · Biocrusts and Microbial Ecology · Microbial Community Ecology and Physiology
