Smart Soilless Cultivation of Saffron: Enhancing Yield and Quality Through IoT-Integrated Hydroponic Systems
1. Ajeet Parmar, Bihar Agricultural University (BAU), Sabour, Student, India
2. Kudrat Chaudhari, Bihar Agricultural University (BAU), Sabour, Professor, India
Saffron the most valuable spice by weight, is traditionally cultivated in soil under specific agro-climatic conditions. However, conventional methods face multiple challenges, including climate dependency, soil-borne diseases, and inconsistent yields. To overcome these limitations, soilless cultivation, particularly hydroponics, integrated with Internet of Things (IoT) technology, has emerged as a transformative solution. This paper explores the current advancements in smart saffron farming through IoT-integrated hydroponic systems, emphasizing yield enhancement, quality assurance, real-time monitoring, and resource optimization. Drawing from recent studies and implementations, we present a comprehensive overview of technological interventions and their impact on sustainable saffron production. Our findings indicate that integrating smart sensors, cloud platforms, and automation significantly improves cultivation efficiency, standardizes output quality, and promotes year-round production.
Saffron Crocus sativus hydroponics IoT smart agriculture soilless farming precision agriculture
IoT-integrated hydroponic systems represent a paradigm shift in saffron cultivation, offering controlled environments, enhanced yield, and consistent quality. By leveraging real-time monitoring, automation, and data analytics, these systems overcome traditional farming challenges and pave the way for sustainable, high-efficiency saffron production. Continued innovation and stakeholder collaboration are essential for mainstream adoption and scalability.
The future of saffron lies in the intersection of biology, engineering, and information technology—a smart farm where precision meets tradition for a golden harvest.
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The author handled all aspects of the study, including its design, data collection, analysis, and manuscript preparation.
No specific grants from any funding agencies in the public, commercial, or non-profit sectors were received for this research, authorship, or publication.
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All authors declare that they have no conflicts of interest.
I express my gratitude to those who provided expertise and assistance throughout this study and manuscript preparation. Special thanks to the anonymous peer reviewers for their valuable feedback.
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