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Biochar-based urea enhances nitrogen use efficiency and mitigates nitrogen leaching in greenhouse vegetable production

Ruiying Guo, Wange Gong, Shuai Qi, XU Jianhui, Zhanhuan Shang, Stephen Joseph

2025Environmental Technology & Innovation13 citationsDOIOpen Access PDF

Abstract

The sustainable development of greenhouse vegetable systems relies on enhancing nitrogen use efficiency (NUE) and minimizing nitrogen losses, especially leaching losses. Biochar-based fertilizers (BBFs) offer a promising solution to these challenges. This study addresses the research gap in biochar-based nitrogen fertilizers by developing granular biochar-based urea (BU), which integrates urea, biochar, and attapulgite for use in greenhouse vegetable production. 15 N isotope microlysimeter experiments were performed to compare the effects of BU and traditional urea on garland chrysanthemum yields, N leaching and 15 N recovery at different application rates (380, 310 and 190 mg N/kg soil). BU applciation significantly enhanced the fresh yield and dry matter content of garland chrysanthemum by 25.1 % and 22.8 %, respectively, compared to urea treatment. BU application also improved overall plant 15 N recovery by 94.6 %. However, plant 15 N recovery decreased as the N application rate increased. In the 0–0.4 m soil layer, the 15 N recovery of BU ranged from 31.1 % to 35.3 %, compared to 19.2–28.3 % for urea-N. High urea-N application reduced soil 15 N recovery, while BU increased it. BU application notably decreased inorganic N leaching and unaccounted 15 N losses by an average of 35.2 % and 76.0 % compared with urea treatment. At the same N application rate (380 mg N kg −1 ), the coapplication of biochar and urea reduced both plant and soil 15 N recovery and increased 15 N loss compared with those of BU application. This research highlights the potential of biochar-based urea fertilizers as a sustainable alternative to conventional chemical fertilizers in greenhouse production. • Biochar-based urea (BU) enhanced fresh yield of garland chrysanthemum. • Plant and soil 15 N recovery was significantly increased by BU. • BU reduced inorganic N leaching by 35.2 % on average compared to urea. • BU decreased inorganic N leaching from soil rather than from fertilizer.

Topics & Concepts

BiocharLeaching (pedology)NitrogenGreenhouseEnvironmental scienceUreaAgronomyChemistryPyrolysisSoil scienceSoil waterBiologyOrganic chemistryPlant nutrient uptake and metabolismPhosphorus and nutrient managementPolymer-Based Agricultural Enhancements