Coupled rhizosphere application of cyanobacteria-bamboo acid hydrolysis extract and cyanobacterial biochar enhances soil health and crop quality

Huichang Bian; Yuzhi Li; Yibiao Zhang; Yao Shen; Jiahou Hao; Shuo Wang; Ji Li

doi:10.1186/s40643-026-01016-5

Bioresources and Bioprocessing ›› 2026, Vol. 13 ›› Issue (1) :22 DOI: 10.1186/s40643-026-01016-5

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Coupled rhizosphere application of cyanobacteria-bamboo acid hydrolysis extract and cyanobacterial biochar enhances soil health and crop quality

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Driven by waste resource utilization and carbon neutrality imperatives, this study synthesized cyanobacterial growth elicitor (CGE) and cyanobacterial-bamboo growth elicitor (CBGE) via acid-hydrothermal hydrolysis. The coupling potential of cyanobacterial biochar (CB) for improving rhizosphere soil and crop quality was investigated through four pot trial treatments: (1) CK (control), (2) BR (rhizospheric CB), (3) LBR (rhizospheric CB with CGE), (4) LZBR (rhizospheric CB with CBGE). Integration of phenotypic analyses, microbiome profiling, functional gene predictions, and risk assessment elucidated biostimulant mechanisms. Compared to CK, all treatments elevated soil nutrient levels. BR exhibited superior nitrogen enrichment (15±3 g/kg), while LBR and LZBR—particularly LZBR—enhanced phosphorus/potassium bioavailability and maximized soil organic carbon (SOC). LZBR treatment markedly increased Chryseobacterium abundance (an organic matter-decomposing genus). Functional verification confirmed enhanced C-N-P cycling activity, minimized environmental nutrient leakage, and improved plant nutrient assimilation. Specifically, LZBR increased soybean grain protein content by 37.0 g/kg and plant nitrogen accumulation by 5.4 g/kg compared to CK, and risk assessments indicated no detectable ecotoxicological effects. Consequently, the coupled application of CGE and CBGE derived from cyanobacteria and bamboo powder simultaneously improves soil quality and crop performance. This approach establishes a novel waste valorization pathway, suitable for partial replacement of chemical fertilizers and carbon emission reduction.

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Cyanobacteria / Bamboo powder / Plant stimulants / Soil improvement / Soybean quality / Risk assessment

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Huichang Bian, Yuzhi Li, Yibiao Zhang, Yao Shen, Jiahou Hao, Shuo Wang, Ji Li. Coupled rhizosphere application of cyanobacteria-bamboo acid hydrolysis extract and cyanobacterial biochar enhances soil health and crop quality. Bioresources and Bioprocessing, 2026, 13(1): 22 DOI:10.1186/s40643-026-01016-5

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