<p>Mechanization in ginger cultivation in India remains at an early stage, with limited adoption of machinery across major field operations. However, increasing demand for ginger, growing labour shortages, and rapid technological advancements present significant opportunities for accelerating mechanization in the sector. This review provides insights into the current status of mechanization in ginger cultivation, identifies key research and technological gaps, and outlines future development pathways. Significant gaps persist in sowing, intercultural, harvesting, and post-harvest operations due to the lack of crop-specific, adaptable, and affordable machinery. Factors such as small and fragmented landholdings, limited farmer awareness, and high initial investment further constrain widespread adoption. Although basic implements exist, there is a critical need for precision-based, efficient equipment suited to diverse agro-climatic conditions, particularly for sowing and harvesting. Advancing mechanization in ginger cultivation requires research, development and promotion to deliver crop-specific, affordable machinery suited to small farmers. The AI, sensors, drones, and IoT enable smart ginger farming techniques, bridging research and field adoption for sustainable, climate-resilient cultivation. Therefore, some collaborative efforts among researchers, stakeholders and targeted interventions will drive sustainable, efficient, and scalable mechanization suited to diverse agro-ecological regions. This work would help researchers and stakeholders to identify research gaps and develop suitable technological solutions. Furthermore, the economic aspects of mechanization may encourage farmers to adopt appropriate machinery, thereby supporting the long-term goals of sustainable ginger mechanization.</p>

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Mechanization of ginger cultivation in India: status, scope and future prospects

  • H. S. Pandey,
  • Manish Kumar,
  • A. P. Pandirwar

摘要

Mechanization in ginger cultivation in India remains at an early stage, with limited adoption of machinery across major field operations. However, increasing demand for ginger, growing labour shortages, and rapid technological advancements present significant opportunities for accelerating mechanization in the sector. This review provides insights into the current status of mechanization in ginger cultivation, identifies key research and technological gaps, and outlines future development pathways. Significant gaps persist in sowing, intercultural, harvesting, and post-harvest operations due to the lack of crop-specific, adaptable, and affordable machinery. Factors such as small and fragmented landholdings, limited farmer awareness, and high initial investment further constrain widespread adoption. Although basic implements exist, there is a critical need for precision-based, efficient equipment suited to diverse agro-climatic conditions, particularly for sowing and harvesting. Advancing mechanization in ginger cultivation requires research, development and promotion to deliver crop-specific, affordable machinery suited to small farmers. The AI, sensors, drones, and IoT enable smart ginger farming techniques, bridging research and field adoption for sustainable, climate-resilient cultivation. Therefore, some collaborative efforts among researchers, stakeholders and targeted interventions will drive sustainable, efficient, and scalable mechanization suited to diverse agro-ecological regions. This work would help researchers and stakeholders to identify research gaps and develop suitable technological solutions. Furthermore, the economic aspects of mechanization may encourage farmers to adopt appropriate machinery, thereby supporting the long-term goals of sustainable ginger mechanization.