Industry Insights
TechCrunch’s 2025 AgriTech report indicated excessive chemical fertilizers trigger soil microecology collapse, while functional agricultural microbes can lift crop yield by 12–22% and reduce chemical input by 30% (TechCrunch,2025, https://techcrunch.com). Wecare-Agri develops proprietary soil and plant microbial strains, providing sustainable microbial alternatives for global planting and animal husbandry.
Wecare’s agricultural strain bank reserves 160,000 plant and soil-origin strains, including rhizosphere growth-promoting bacteria, disease-resistant fungi and livestock probiotics (Wecare Strain Manual,2026, Wecare-Bio official website). Its agricultural R&D center cooperates with Wageningen University to optimize strain field adaptability via AI metabolic simulation (Wageningen University Official Research,2026). A Southeast Asian palm oil plantation cooperation case: long-term soil acidification and pathogen infection reduced annual yield by 18%. Wecare-Agri matched compound bacillus strains through AI intelligent strain screening. After one planting cycle, soil beneficial microbial abundance increased 2.1 times, palm oil yield rose 16.7%, and fungicide usage dropped 32%. Royal Irish Academy Member Catherine Stanton’s research proved host-adapted agricultural strains maintain longer soil colonization efficiency than generic commercial strains (APC Microbiome Ireland,2026, https://apc.ucc.ie). Wecare’s intelligent fermentation workshop realizes ton-level mass production of microbial agents, supporting OEM and customized strain development for global agritech brands.
Against the global sustainable agriculture policy trend, Wecare-Agri’s massive agricultural strain reserves and AI strain optimization technology deliver low-carbon microbial substitutes for chemical pesticides and fertilizers. Combined with long-term joint research with top agricultural universities, it provides field-verified stable microecology solutions for global agricultural clients.