Aim/Agenda

About us:

The journey of Indian Agricultural Research Institute (IARI), popularly known as Pusa Institute, began in 1905 at Pusa (Bihar) with the generous grant of 30,000 pounds from an American philanthropist, Mr. Henry Phipps. The institute was then known as Agricultural Research Institute (ARI) which functioned with five departments, namely Agriculture, Cattle Breeding, Chemistry, Economic Botany and Mycology. Bacteriology unit was added in 1907. The name of ARI was changed to Imperial Institute of Agricultural Research in 1911 and, in 1919 it was renamed as Imperial Agricultural Research Institute. Following a devastating earth quake on 15th January 1934, the institute was shifted to Delhi on 29th July 1936. Post independence, the institute has been renamed as Indian Agricultural Research Institute (IARI)

What we do:

To provide leadership for Science-led sustainable and globally competitive agriculture for food, nutrition and livelihood security

To explore new frontiers of science and develop human resources to provide the leadership in technology development and policy guidance for vibrant and resilient agriculture, which should be productive, eco-friendly, sustainable, economically profitable and socially equitable. In order to accomplish this mission, the Institute has adopted the following mandates:

  • Basic, strategic and anticipatory research in field and horticultural crops for enhanced productivity and quality.
  • Research in frontier areas to develop resource use efficient integrated crop management technologies for the sustainable agricultural production system.
  • Serve as a centre for academic excellence in the areas of post-graduate education and human resources development in agricultural science.
  • Provide national leadership in agricultural research, education, extension and technology assessment and transfer by developing new concepts and approaches and serving as a national reference point for quality and standards.

Objectives of the sub-project:

  • Developing rapid sensor-based methods for soil fertility assessment
  • Quantitative assessment of crop health using sensors and data analytics
  • Developing Spatial Decision Support System (SDSS) for precision crop management
  • Developing Variable Rate Technologies (VRTs) for site specific input management.
  • Assessing post-harvest quality and grading of agri-produces for efficient management of storage and post-harvest operations
  • Up scaling suitable precision agriculture (PA) technologies to farmers’ field scale for enhance input use efficiency and optimal production system.