Carbon Turnover during Effluent Application to the Land: A Potential Role for Vegetation?

Abstract: This work investigates the effect of plant species (Eucalyptus camaldulensis vs. Arundo donax) on carbon (C) turnover during wastewater application to the land. The study was carried out in 40-liter pots under field conditions and plant species were treated either with pre-treated municipal wastewater or freshwater. Plant species had a strong effect on soil organic matter with pots planted with E. camaldulensis showing greater values than pots planted with A. donax. In accordance, greater respiration rates wer… Show more

“…The findings suggest differences in soil microbial community composition and/or activity in the rhizosphere of plant species impact C cycling. The results reveal an important role of plant species on C cycling in terrestrial environments with potential implications in the sequestration of C and release of nutrients [14].…”

“…One paper describes the effect of plant species (Eucalyptus camaldulensis vs. Arundo donax) on carbon (C) turnover during wastewater application to land under experimental conditions [14]. The findings suggest differences in soil microbial community composition and/or activity in the rhizosphere of plant species impact C cycling.…”

Wastewater Treatment and Reuse: Past, Present, and Future

“…The findings suggest differences in soil microbial community composition and/or activity in the rhizosphere of plant species impact C cycling. The results reveal an important role of plant species on C cycling in terrestrial environments with potential implications in the sequestration of C and release of nutrients [14].…”

“…One paper describes the effect of plant species (Eucalyptus camaldulensis vs. Arundo donax) on carbon (C) turnover during wastewater application to land under experimental conditions [14]. The findings suggest differences in soil microbial community composition and/or activity in the rhizosphere of plant species impact C cycling.…”

Wastewater Treatment and Reuse: Past, Present, and Future