Locust Attack – A new threat to Indian Food Economy

Locust belongs to order Orthoptera which completes its life cycle in three distinct stages namely Egg, Nymph and Adult and are capable to travel 150 km in day depending upon on wind speed. Locust swarms devastates crops and cause major agricultural damages, which can lead to starvations and even famines.

Not only they devours leaves, flowers, fruits, seeds, growing points, they sometime eat barks. A swarms covering 1-1.5 square km consists of 4-8 crore locusts, while the swarm currently observed in Rajasthan was as big as 2-2.5 square km. One can easily imagine the severity of this particular invasion in India. According to FAO, the swarm can eat food of 35000 people in a single day. It is estimated that desert locust consumes the equivalent of three body weight (2 gm) each day of green vegetation. They are polyphagous and feed on leaves, shoots, flowers, fruits, seeds almost every plant part. Locust eats nearly all crops and non crop plants and weeds also.

By Charles J Sharp - Own work, from Sharp Photography, sharpphotography, CC BY-SA 4.0,


The swarm has originated from Africa and has move from Uganda, Ethiopia, Saudi Arabia and through Pakistan before entering India through the Gujarat border.

Environmental Factors Responsible For Outbreak In India


Due to abnormal weather conditions activities specially caused by the two cyclones enabled unprecedented breeding and growth of locust population in Arabian Peninsula early last year. Wind pattern have been pushing the swarms in southwest direction. Strong wind speed of 20-25 km per hour is helpful to migrate from one place to another.


The hot summer has also favored the locust swarm outbreak in India (Temperature about 35°C) and is most favourable for breeding of locust


Strong wind along with rainfall are most helpful to locust population for travelling thousands of miles. Due to rainfall abundant amount of green foliage is available to locust swarms.


Relative Humidity (RH) plays a key role on the life cycle of locust. RH above 85% always favours growth of adult locust.


Locust are always light loving insects and continuous presence of light up to 8-10 hours in summer month has favoured locust invasion in India.

Impact in India

The current locust invasion is the worst in India since 1993. It has already attacked the crops in Rajasthan on large scale. It has already wipe out crops over 500000 ha area in Rajasthan. In Gujarat the attack may spread to 12 Districts. The condition is even worst in Madhya Pradesh as the infestation is spread over 16 districts. In Uttar Pradesh the infestation will hit in at least 17 districts. And eastern part of Maharashtra likely to hit with the infestation. As per FAO reports, the infestation is likely to get severe by next month.


Management/Preventive Measure

Cultural control

  • Cultivating the soil where eggs were laid by exposing. They dry out and eaten by birds.

Mechanical Control

  • Killing the hoppers with flame throwers and crushing them with rollers.

Chemical Control

  • Spraying the crop with Lambda-Cyhalothrin 5% EC 400 ml in 600 litre water. Or
  • Spray of Diflubenzuron 120 ml in 600 ml water.
  • Use of Poison bait- Prepare poison baits by mixing Fipronil 5% EC in wheat or Bajra flour and place the baits in affected field 30 kg/ha.
  • Dusting the crop with Methyl parathion 2% dust @ 25-30 kg/ha.


Constant Monitoring and Predictive Analytics

  • Constant monitoring and surveillance will not help with prevention but will help predict a possible infestation


Agsmartic has developed an autonomous plant pest detection system, which uses Computer Vision, to detect early pest infestation. Our studies have showed that a system like if deployed as a grid can help understand the movement of such pest very early.


HIC 2019 – IIT Mandi

HIC 2019Agsmartic Technologies was selected as one of the top three agri-tech company in the Himalayan Innovation Challenge 2019 where out of 120 applications, only 30 start-ups were selected for pitching session. Himalayan innovation challenge (HIC) is an initiative of IIT Mandi Catalyst to motivate a series of innovative technology-based solutions designed specifically to solve social and economic problems in the Himalayan regions of the world. Among the 30 selected start-ups, Agsmartic was also selected in the top 15 start-ups qualified for an Exploration Programme with IIT Mandi.

Arise 2019 – Launchpad for Agri Startups

Agsmartic is selected under ARISE 2019 Incubation Programme at Indian Agricultural Research Institution (IARI), New Delhi. Out of 400+ applications, IARI selected 24 startups with focus in Precision Agriculture, Fisheries, Food Processing, etc.

IARI is India's premier national Institute for research, education and extension in the field of agricultural.

This is an exclusively designed incubation program precisely for early-stage agri-startups to promote innovation and entrepreneurship in the field of agribusiness and allied sectors. The Incubation program has two-phase:

Phase 1: Idea to Product Prototype (Early-stage product development)

Phase 2: Product Prototype to its Commercial Launch & Funding Support



Pilot with Impagro Solutions

Agsmartic, in collaboration with Impagro Farming Solutions, has started a pilot in Khamariya Nimawar, Sultanpur, at Madhya Pradesh. The pilot was started in April 2019 and is being conducted for a period of 12 months.

During this period, Agsmartic will implement the Autonomous Irrigation System and Health Analyzer to understand the efficacy of the overall Croplytics® ecosystem. The pilot covers an area of 5 acres, and 7 crops which includes Tomatoes, Chilies, Musk Melon, Bottle Gourd, Watermelon, Sponge Gourd and Egg Plant.

Multiple Croplytics® Sensors and Valves are installed in the field. Sensors capture soil moisture and temperature of the soil while the Smart Valves control the drip irrigation that was previously installed on the field.

The Croplytics® App allows the farmer to monitor the soil status and environmental condition and helps in controlling the irrigation.

Crop Stress
Crop Stress

Following KPIs are monitored:

  • Hours of Irrigation
  • Average Soil Moisture/day
  • Crop Stress
  • Water Stress
  • Water and Energy Saving
  • Yield improvement