Treated Wastewater Irrigation Enhances Plant Biomass, Soil Fertility, and Rhizosphere Microbial Activity in C₄ and CAM species Grown on a Degraded Planosol.

Authors

Denisvaldo A de Meireles, Tancredo Souza, Kalline de A A Carneiro, Vânia da S Fraga, Bruno de O Dias, Daliane da S Batista, Emanoel Lima Martins, Alan F L de Lima, Gislaine Dos Santos Nascimento, Milton C C Campos

Published in

Environmental monitoring and assessment. Volume 197. Issue 7. Pages 804. Jun 25, 2025. Epub Jun 25, 2025.

Abstract

The Brazilian semi-arid region, marked by erratic rainfall and severely degraded soils, presents critical challenges for sustainable agriculture. In this context, the reuse of treated domestic wastewater-collected from a septic tank and anaerobic filter system-offers a promising strategy to enhance plant productivity and rehabilitate soil conditions, particularly within the Caatinga biome. This study evaluated the long-term (four-year) effects of irrigation with pure water versus treated domestic wastewater on plant dry biomass, soil fertility, and rhizospheric microbial activity in a degraded Planosol. Two plant types were assessed: a C₄ species (Mimosa caesalpiniifolia) and a CAM species (Opuntia atropes). Results demonstrated that treated wastewater irrigation significantly increased dry biomass, with a 12.18% increase in the C₄ species and a 29.33% increase in the CAM species. Soil chemical fertility improved notably, with wastewater application raising soil pH by 5.0%, increasing soil organic carbon by 87.9%, and enhancing nutrient availability, including nitrogen, potassium, magnesium, and sodium. A 37.5% reduction in exchangeable aluminum further indicated mitigation of soil acidity. Microbial responses varied between species: while soil respiration increased in both rhizospheres-more prominently in CAM species-microbial biomass carbon rose significantly in the C₄ rhizosphere but declined in CAM, suggesting species-specific microbial interactions. These findings support the potential of treated domestic wastewater as a nutrient-rich, low-cost irrigation alternative for improving plant performance and soil quality in semi-arid degraded lands. Nevertheless, potential risks-including salinity build-up and pathogen persistence-necessitate long-term monitoring and further environmental safety assessments. By integrating plant physiology, soil chemistry, and microbial ecology, this study offers a comprehensive approach to evaluating wastewater reuse as a sustainable agricultural and ecological restoration practice in the Caatinga biome.

PMID:
40560449
Bibliographic data and abstract were imported from PubMed on 25 Jun 2025.

Read full publication at:
Please sign in to see all details.

Stats

1-terrible, 9-excellent. How would you rate this publication? Sign in in to submit your rating.

Post a comment

You need to be signed in to post comments. You can sign in here.

Comments

There are no comments yet.