Shaping the Future of Horticulture: Innovative Technologies, Artificial Intelligence, and Robotic Automation Through a Bibliometric Lens DOI Creative Commons
Maria-Magdalena Poenaru, Liviu Florin Manta, Claudia Gherțescu

et al.

Horticulturae, Journal Year: 2025, Volume and Issue: 11(5), P. 449 - 449

Published: April 22, 2025

This study conducts a bibliometric and content analysis based on publications indexed in the Web of Science Core Collection, aiming to map evolution key themes horticultural research context technological innovation sustainability. The results reveal strong orientation toward digitalization automation, particularly through integration artificial intelligence, mechatronic systems, sensor-based monitoring crop management. In field biotechnology, keywords such as gene expression, genetic diversity, micropropagation reflect sustained interest improving resilience disease resistance vitro propagation techniques. Furthermore, concepts environmental control, soilless culture, energy efficiency, co-generation highlight focus optimizing growing conditions integrating renewable sources into protected systems. geographical distribution studies highlights increased academic output countries like India regions sub-Saharan Africa, reflecting global transferring advanced technologies vulnerable areas. Moreover, collaboration networks are dominated by leading institutions Wageningen University, which act hubs for knowledge diffusion. findings suggest that future should prioritize development durable, energy-efficient adapted various agro-climatic zones. It is recommended policymakers stakeholders support interdisciplinary initiatives, promote transfer mechanisms, ensure equitable access smallholder farmers emerging economies.

Language: Английский

Shaping the Future of Horticulture: Innovative Technologies, Artificial Intelligence, and Robotic Automation Through a Bibliometric Lens DOI Creative Commons
Maria-Magdalena Poenaru, Liviu Florin Manta, Claudia Gherțescu

et al.

Horticulturae, Journal Year: 2025, Volume and Issue: 11(5), P. 449 - 449

Published: April 22, 2025

This study conducts a bibliometric and content analysis based on publications indexed in the Web of Science Core Collection, aiming to map evolution key themes horticultural research context technological innovation sustainability. The results reveal strong orientation toward digitalization automation, particularly through integration artificial intelligence, mechatronic systems, sensor-based monitoring crop management. In field biotechnology, keywords such as gene expression, genetic diversity, micropropagation reflect sustained interest improving resilience disease resistance vitro propagation techniques. Furthermore, concepts environmental control, soilless culture, energy efficiency, co-generation highlight focus optimizing growing conditions integrating renewable sources into protected systems. geographical distribution studies highlights increased academic output countries like India regions sub-Saharan Africa, reflecting global transferring advanced technologies vulnerable areas. Moreover, collaboration networks are dominated by leading institutions Wageningen University, which act hubs for knowledge diffusion. findings suggest that future should prioritize development durable, energy-efficient adapted various agro-climatic zones. It is recommended policymakers stakeholders support interdisciplinary initiatives, promote transfer mechanisms, ensure equitable access smallholder farmers emerging economies.

Language: Английский

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