India’s government-endorsed best Agriculture Universities in India’s rankings consistently highlight the Indian Agricultural Research Institute (IARI), New Delhi, as the nation’s premier agricultural university. According to NIRF 2023, IARI leads with a stellar score of 83.16 (nirfindia.org).
Top 10 Best Agriculture Universities in India.
This post dives into the top agricultural universities: their ratings, faculty excellence, placements, campus culture, and alumni-founded ventures.
Table of Contents:
1. Indian Agricultural Research Institute (IARI), New Delhi
Rank & Recognition: #1 in NIRF (83.16) ; dubbed Pusa Institute, instrumental in India’s Green Revolution (shikshahub.com). It comes number one in the top 10 best Agriculture Universities in India. Faculty: Eminent researchers across plant breeding, soil science, agronomy; known for groundbreaking contributions. Placements & Startups: Graduates land coveted roles in ICAR, state DSOs, agritech firms; several alumni have launched agri-startups focusing on sustainable inputs and farm IoT. Campus Life: Sprawling 112 ha campus with lush research fields, modern labs, and robust extension outreach programs. Startup Owners: Alumni have established ventures in organic biopesticides, precision farming tech, and seed certification services.
2. Punjab Agricultural University (PAU), Ludhiana
Rank: #3 in NIRF (65.98). Faculty: Experts in horticulture, genetics, food processing. Placements: Strong recruitment pipeline via KVKs and agri-clinics; a notable number proceed to global postgraduate studies—13 horticulture students recently secured seats abroad. Campus Life: Vibrant mix of academics, sports, and research; students regularly win medals and represent at international forums. Startup Owners: Alumni-led startups include organic pulp production, agri-based nutritional products, and digital extension tools.
All these points come into consideration in ranking, and It comes number two in the top 10 best Agriculture Universities in India
3. Banaras Hindu University – Institute of Agricultural Sciences (IAS, BHU)
Rank: #4 in NIRF (63.68) . It come number three in It comes number one in the top 10 best Agriculture Universities in India. Faculty: 6 core departments including horticulture, agronomy, dairy, entomology; notable mentors like Prof. Brajesh Sinha. Placements: Graduates recruited by government bodies, agritech firms; many join academia and research labs. Campus Life: Central campus with 65 ha farm, dairy unit, horticultural labs, and KVK outreach (en.wikipedia.org). Startup Owners: Alumni include Saket Kushwaha, now VC at RGU; others lead agri-consulting and food processing startups.
I completed my Master’s in Mycology and Plant Pathology from BHU.
4. Tamil Nadu Agricultural University (TNAU), Coimbatore
Rank: #5 in NIRF (61.71) . Faculty: Diverse departments—crop science, biotech, precision agriculture. Placements: 36 research hubs and 14 farm centers enable strong industry linkages; students recruited by CSR, extension services, MNCs. Campus Life: Integrated training farms, innovation hubs; lively student clubs and rural immersion programs. Startup Owners: Alumni include agritech app developers, biofertilizer producers, horticulture consultancies.
5. Chaudhary Charan Singh Haryana Agricultural University (HAU), Hisar
Rank: #10 in NIRF (59.07). Scale & Research: Asia’s largest agricultural university with a ₹697 Cr budget and 7200 acre campus. Faculty: Over 500 academics; known for releasing 250+ crop varieties and prolific research output. Placements: Strong research institute placements; students enter agribusiness, seed, dairy sectors. Campus Life: Model farms, hostels, Kisan Mela, eMausam advisory. Startup Owners: Alumni-led startups in seed tech, farm advisory platforms, rural entrepreneurship.
6. G. B. Pant University of Agriculture and Technology (Pantnagar)
Rank: #8 in NIRF (60.03). Prestige & Faculty: India’s first land-grant agricultural university, pivotal in the Green Revolution. Placements: Strong across public sector, agri-engineering, and multinational research labs. Campus Life: Self-contained campus town with academic, residential, recreational and dairy facilities. Startup Owners: Alumni-led ventures in crop mechanisation, dairy tech, sustainable packaging.
7. University of Agricultural Sciences (UAS), Bengaluru & Dharwad
Bengaluru:
Rank: #11 in NIRF (56.74) (nirfindia.org). Accredited with A+ by NAAC 2025; awarded top ICAR Sardar Patel award (en.wikipedia.org).
Faculty & Placements: Strong interdisciplinary research, crop management, soil and agri-economics; graduates join agritech firms and academic labs.
Campus Life: Constituent colleges across Karnataka, vibrant urban student life.
Dharwad:
Faculty & Reach: Offers agriculture, forestry, food science; linked with research stations and KVKs across 7 districts (careerindia.com, en.wikipedia.org).
Placements: Graduates hired by state agri-services, extension agencies, and industry.
Campus Life: Rural outreach blended with tech-driven labs; regular convocation with awards for innovators.
Startups: Focus areas include seed coating, forest-based products, Agri water-tech.
8. Odisha University of Agriculture and Technology (OUAT), Bhubaneswar
Rank & Heritage: Second-oldest agricultural university (since 1962). Faculty & Infrastructure: 11 constituent colleges; recognized for extension services and industry-oriented programs. Placements: Graduates recruited in agri-food processing, horticulture, fisheries, and rural development.
9. Bihar Agricultural University (BAU), Sabour
Recent Accreditation: Achieved NAAC A grade (CGPA 3.08) in June 2025. Faculty & Campus: Strong in sustainable agriculture, climate resilience, biotech, precision farming. Student Satisfaction: 92.5% verified satisfaction; focus on NEP-2020 aligned skill-based learning. Placements: Students enter government extension, regional agri-consultancies, and NGOs.
Accreditation: ICAR A grade (3.21/4) until March 2028. Highlights: Leading in drone tech, mechanization training, sugarcane and seed research. Faculty: Strong infrastructure, outreach, and global collaborations. Placements: Students take up roles in drone services, seed entrepreneurship, mechanisation consultancies.
Summary Table: Top 10 Best Agriculture Universities in India.
University
NIRF Rank/Score or Accreditation
Faculty Strength
Placement & Startups
Campus Life
IARI
#1 (83.16)
National research leaders
ICAR, Agritech startups
112 ha, modern labs
PAU
#3 (65.98)
Horticulture & food experts
International placements
KVKs, research farms
IAS-BHU
#4 (63.68)
6+ departments
Govt & biotech roles
Dairy, farms, extension
TNAU
#5 (61.71)
Crop biotech focus
MNC & extension roles
36 centres, rural programs
HAU
#10 (59.07)
500+ staff
Seed firms, research labs
7200 acre, eMausam
Pantnagar
#8 (60.03)
Green Revolution pioneers
Public sector, labs
Campus-town setup
UAS Bengaluru
#11 (56.74)
Interdisciplinary
Agritech, labs
A+ NAAC, urban campus
UAS Dharwad
–
Regional research
State agri jobs
Rural Outreach
OUAT
–
11 colleges
Food processing
Urban campus
BAU Sabour
NAAC A (3.08)
Climate-smart agri
Govt & NGO
Smart labs
Marathwada
ICAR A (3.21)
Drone & mechanization
Agritech startups
3 campuses
All are also top 10 Government Agriculture Universities in India.
🎓 Insights & Tips
Government Rankings: NIRF is the gold standard; IARI, PAU, BHU, TNAU, HAU, Pantnagar, and UAS-Bengaluru lead.
Faculty Excellence: All these universities boast ICAR-recognised experts; HAU has the largest academic staff and research output.
Placements: Across the board, strong pipelines into government, agri-industry, research institutes, and startups.
Campus Life: Most universities provide extensive facilities — experimental farms, KVK outreach, hostels, labs, and cultural diversity.
Startup Culture: Especially in IARI, HAU, PAU, and Marathwada, alumni-led ventures flourish in biotech, farm engineering, digital agri-platforms, drones, and organic inputs.
All these points are taken into account for ranking in the top 10 best Agriculture Universities in India.
Final Take
If you aim for top-tier research, IARI is the undisputed leader. For global exposure and horticulture, PAU shines. BHU, TNAU, HAU, and Pantnagar offer balanced excellence—strong academics, placements, and campus vibrant life. Emerging stars like BAU and Marathwada are rapidly enhancing infrastructure, student satisfaction, and agri-innovation networks. All provide dynamic ecosystems ripe for future agri-leaders and entrepreneurs.
I strongly recommend, try IARI for 1st position, if not able to secure your position there, then come to BHU. You can access best colleagues, seniors, campus life, faculties, and exposure to the World’s Agriculture Universities, Alumni, and Big Corporates. As I completed my Master Degree, I personaly give BHU, a number 1 position in the top 10 best Agriculture Universities in India.
Choose based on your specially interest, regional preferences, and whether top-tier research or driven field engagement is your goal. Each of these universities can be a launchpad into impactful careers in agriculture, research, and leadership.
It is a powerful Dithiocarbamate-based product, is a broad-spectrum contact fungicide known for its preventive and curative action against a wide range of fungal infections. It works by disrupting fungal cell membrane formation, thereby protecting crops from the root to the fruit.
Table of Contents.
Product Overview
Category: Contact Fungicide
Chemical Class: Dithiocarbamate
Formulation: Mancozeb 75% WP (Wettable Powder)
Mode of Action: Multi-site contact activity — inhibits lipid synthesis and enzyme systems in fungal cells
Delight creates a protective barrier on the plant surface, making it difficult for fungi to germinate and grow. It is especially effective when applied before the disease appears but also provides fast curative results in the early infection stage.
Recommended Crops
Delight Fungicide is recommended for a wide variety of crops, including:
Water Requirement: 600–1000 liters per hectare (based on crop size)
Spray Interval: Every 7–10 days or based on disease intensity
Pre-Harvest Interval (PHI): 7–10 days
✔️ Application Tips:
Apply as a foliar spray during early morning or late afternoon
Begin spraying before symptoms appear during high humidity or disease-prone seasons
Use with protective gear; avoid drift and runoff into water bodies
Benefits of Delight Fungicide
✅ Broad-Spectrum Action: Protects against a wide variety of fungal pathogens ✅ Preventive & Curative: Effective even in the early stages of infection ✅ Multi-site Activity: Reduces chances of resistance development ✅ Long Residual Effect: Forms a strong barrier on plant surfaces ✅ Tank-Mix Compatible: Can be used with most insecticides and fungicides ✅ Cost-Effective: High return on investment for farmers
Alternative Products
If Delight is unavailable, you may consider these alternatives:
Do not store near food, animal feed, or water sources
Use protective clothing during application
Wash hands and equipment after use
Avoid spraying during strong winds or rainfall
Final Thoughts
Delight Fungicide is a reliable, farmer-trusted solution for long-term crop protection against harmful fungal diseases. Its contact-based multi-site action, broad crop applicability, and economic pricing make it a go-to fungicide for preventive and early-stage curative use.
✅ Rotate fungicides with different modes of action ✅ Integrate Delight in an IPM (Integrated Pest Management) program ✅ Follow recommended doses and spray schedules
💡 Pro Tip: For best results, always use clean water, a well-calibrated sprayer, and apply during the cooler hours of the day.
In the ever-evolving world of agricultural science, the development of effective and sustainable crop protection solutions is paramount. Among the latest innovations is Cursor, the first powerful and effective silicon-based fungicide from the Silico Triazole group. Cursor represents a significant advancement in fungicide technology, offering both curative and protective action against one of the most persistent plant diseases—Powdery mildew.
Table of Contents:
What Makes Cursor Fungicide Unique?
Cursor stands out due to its silicon-based formulation, which enhances its stability, absorption, and systemic movement within the plant. Unlike conventional fungicides, Cursor is rapidly absorbed and translocated throughout the plant, ensuring comprehensive protection. Its dual-action capability—curative and preventive—makes it a versatile tool for farmers and agronomists.
One of Cursor Fungicide’s most impressive features is its systemic action. Upon application, Cursor is quickly absorbed by the plant tissues and distributed throughout the entire plant system. This ensures that even the parts of the plant not directly sprayed receive protection. This systemic movement is crucial for controlling diseases like Powdery mildew, which can spread rapidly and affect various parts of the plant.
Effective Control of Powdery Mildew
Powdery mildew is a fungal disease that affects a wide range of crops, including grapes, cucurbits, cereals, and ornamentals. It manifests as white, powdery spots on leaves and stems, leading to reduced photosynthesis, stunted growth, and lower yields. Cursor’s targeted action effectively restricts the growth of the fungus, halting its spread and minimizing damage.
Curative and Protective Properties
Cursor offers a two-pronged defense against fungal infections:
Curative Action: It treats existing infections by inhibiting fungal growth and reproduction.
Protective Action: It creates a barrier that prevents future infections, safeguarding the plant during vulnerable growth stages.
This dual capability makes Cursor ideal for both early intervention and long-term disease management.
Rainfastness and Vapour Phase Activity
Agricultural treatments often face challenges due to environmental factors like rain. Cursor, however, is redistributed by rainfall and is resistant to wash-off, ensuring that its effectiveness is not compromised by weather conditions. Additionally, Cursor exhibits vapour phase activity, meaning it can act in the gaseous phase to protect nearby plant tissues, further enhancing its reach and efficacy.
Compatibility with Other Agrochemicals
Farmers often use a combination of insecticides and fungicides to manage multiple threats simultaneously. Cursor is compatible with commonly used insecticides and fungicides, allowing it to be integrated seamlessly into existing crop protection programs. This compatibility reduces the need for multiple applications and simplifies farm management.
Mode of Action: Targeting Ergosterol Biosynthesis
Cursor’s effectiveness lies in its precise mode of action. It inhibits ergosterol biosynthesis, a critical component of fungal cell membranes. Specifically, Cursor targets the 14α‐demethylation step in the biosynthesis pathway, disrupting the formation of ergosterol and compromising the integrity of the fungal cell membrane. This targeted inhibition leads to the death of the fungus, effectively controlling the disease.
Advantages of Silicon-Based Formulation
The silicon component in Cursor’s formulation offers several benefits:
Enhanced Plant Uptake: Silicon facilitates better absorption and movement within the plant.
Improved Resistance: Silicon strengthens plant cell walls, making them more resistant to fungal penetration.
Environmental Safety: Silicon is a naturally occurring element, making Cursor a more environmentally friendly option compared to some synthetic fungicides.
Application Guidelines
To maximize the benefits of Cursor, it is important to follow recommended application practices:
Timing: Apply at the first sign of Powdery mildew or as a preventive measure during high-risk periods.
Dosage: Use the recommended dosage based on crop type and severity of infection.
Method: Apply uniformly to ensure thorough coverage and systemic absorption.
Targeted crops, diseases, and recommended doses.
Crop
Target Disease
Dose per Acre
Dose per Hectare
Dilution (Water per Hectare)
Application Method
Paddy (Rice)
Sheath Blight
120 ml
300 ml
500 liters
Foliar Spray
Chilli
Powdery Mildew
40–60 ml
100–150 ml
500 liters
Foliar Spray
Vegetables
Fungal Infections
—
0.5 – 1.5 liters
500 liters
Foliar Spray / Drench
Conclusion: A Game-Changer for Crop Protection
Cursor represents a new era in fungicide technology, combining the power of silicon with the precision of triazole chemistry. Its rapid absorption, systemic action, and dual curative-protective properties make it an indispensable tool for modern agriculture.
With its ability to withstand environmental challenges and compatibility with other agrochemicals, Cursor offers farmers a reliable and effective solution for managing Powdery mildew and ensuring healthy, high-yield crops.
As the demand for sustainable and efficient crop protection grows, innovations like Cursor pave the way for smarter, safer, and more resilient farming practices.
Dhanuka Agritech Ltd. has unveiled a new line of products designed to transforming Apple Farming: Dhanuka Agritech’s Latest Innovations for Kashmir. apple farming in Kashmir. The agrochemical leader aims to bring science-backed solutions to apple orchards in the region.
At an event attended by over 150 scientists, growers, and industry experts, the company launched revolutionize “MIYAKO,” a next-generation miticide from Nissan Chemicals, Japan. They also introduced “DELIGHT” (Dodine 65% WP) and “CURSOR” (Flusilazole), which are formulated to combat common issues like Apple Scab, red mites, and early leaf fall.
Discussions led by Dr. R.G. Agarwal, Chairman Emeritus of Dhanuka, and Dr. M.K. Verma, Director, ICAR-CITH, focused on sustainable, high-density apple cultivation and the crucial role of technology in pest management.
Dr. Agarwal emphasized the importance of nutritional security alongside food security in India, highlighting horticulture, especially in Kashmir, as vital to achieving this.
Speakers at the event advocated for responsible pesticide application, integrated pest management strategies, and the use of drone spraying, particularly given how climate change is impacting pest behaviors.
Representatives from SKUAST-K, Cooperative Society Kashmir, and NAUF Federation commended Dhanuka’s contributions to enhancing orchard productivity.
Dhanuka Agritech further stated its commitment to bolstering agricultural extension and research through collaborations with ICAR and 15 agricultural universities nationwide.
As part of an existing Memorandum of Understanding, the company has also initiated nationwide campaigns to raise awareness about counterfeit products, urging farmers to use QR codes for product authentication.
Mite infestation is a silent killer in agriculture. Tiny as they are, mites can cause disproportionate damage to crops by sucking plant sap, leading to leaf discolouration, curling, reduced photosynthesis, and even total crop failure in extreme cases. What makes them more dangerous is their ability to develop resistance to conventional pesticides over time. This is where miticides come in — highly specialised pesticides designed to target and eliminate mites effectively.
In this blog, we’ll explore some of the best-selling miticides from top Indian agricultural brands, their chemical compositions, benefits, recommended crops, and doses to help you fight even the most resistant mite species effectively.
Why Are Miticides Necessary?
Mites like Tetranychus urticae (two-spotted spider mite), Polyphagotarsonemus latus (broad mite), and Oligonychus coffee (red spider mite) attack a wide range of crops, from vegetables and fruits to ornamental and plantation crops. If left uncontrolled, they multiply rapidly under dry and warm conditions.
Standard insecticides are often ineffective against mites. Hence, miticides with targeted action are necessary for complete control and to prevent resistance buildup.
Table of Contents
Top Best-Selling Miticides in India (2024 Edition)
Let’s take a detailed look at the most trusted miticides currently used by Indian farmers:
1. Oberon (Bayer CropScience)
Chemical Composition: Spiromesifen 22.9% SC Mode of Action: Inhibits lipid biosynthesis in mites Recommended Crops: Cotton, Chilli, Tomato, Brinjal Dose: 1–1.5 ml/litre of water
Benefits:
Controls all stages of the mite life cycle: eggs, nymphs, and adults.
Soft on beneficial insects like predatory mites and pollinators.
Low resistance risk due to novel mode of action.
2. Omite (Dhanuka Agritech)
Chemical Composition:Propargite 57% EC Mode of Action: Contact and stomach poison affecting mite’s nervous system Recommended Crops: Tea, Cotton, Vegetables Dose: 2–2.5 ml/litre of water
Benefits:
Long-lasting action against red spider mites.
Effective under heavy mite infestations.
Quick knockdown effect.
3. Nissorun (Syngenta India Ltd.)
Chemical Composition: Hexythiazox 5.45% EC Mode of Action: Mite growth regulator — inhibits egg hatching and larval development Recommended Crops: Tea, Apple, Brinjal, Chilli Dose: 1–1.2 ml/litre of water
Benefits:
Ideal for resistance management.
Prevents future generations by stopping egg hatching.
Selective — does not affect natural enemies.
4. Sunmectin (Sulphur Mills Ltd.)
Chemical Composition: Abamectin 1.9% EC Mode of Action: Disrupts nerve signals in mites, leading to paralysis and death Recommended Crops: Chilli, Brinjal, Cabbage, Rose Dose: 0.5 ml/litre of water
Benefits:
Fast action and effective, even at low doses.
Penetrates leaf tissues to reach hidden mites.
Excellent translaminar activity.
5. Vertimec (Syngenta India Ltd.)
Chemical Composition: Abamectin 1.9% EC (also available in higher concentrations) Mode of Action: Blocks signal transmission in the mitotic nervous system Recommended Crops: Tea, Chilli, Cotton Dose: 0.75–1 ml/litre of water
Benefits:
Highly effective against both spider and red mites.
Quick visible control within 48 hours.
Long-lasting residual activity.
6. Sanmite (PI Industries)
Chemical Composition: Pyridaben 20% WP Mode of Action: Inhibits mitochondrial electron transport in mites Recommended Crops: Tea, Chilli, Citrus Dose: 1–1.25 g/litre of water
Benefits:
Dual action: contact and residual.
Suitable for rotational programs to prevent resistance.
Fast knockdown with long control period.
Choosing the Right Miticide: Tips for Farmers
Rotate miticides with different modes of action to avoid resistance.
Always follow label instructions for dose and timing.
Apply in the early morning or late evening to prevent evaporation and maximise absorption.
Use spreader-stickers where recommended for better leaf coverage.
Combine with Integrated Pest Management (IPM) strategies for long-term mite control.
Frequently Asked Questions (FAQs)
Q1. Can I use the same miticide multiple times in a season?
No. Continuous use of the same miticide can lead to resistance. Rotate between products with different active ingredients.
Q2. Are miticides safe for pollinators and beneficial insects?
Most modern miticides like Oberon and Nissorun are selective and safe for beneficial insects. Still, avoid spraying during flowering.
Q3. How long should I wait before harvesting after applying miticides?
Always check the Pre-Harvest Interval (PHI) on the label. Typically ranges from 3 to 10 days depending on the product.
Q4. Are there organic options for mite control?
Yes. Some bio-miticides like neem oil-based formulations are available, but may need more frequent applications and are less effective during severe infestations.
Final Thoughts
Mites may be small, but the damage they inflict on crops can be immense. Thanks to advanced miticide technology, Indian farmers now have access to a wide arsenal of highly effective solutions. Whether you’re dealing with red spider mites in tea plantations or two-spotted mites in vegetables, choosing the right miticide at the right stage is key to keeping your crops healthy and productive.
Remember: early detection, targeted action, and resistance management are your best allies in the fight against mites. Trust in these best-selling miticides by India’s leading agricultural brands — and take a big step toward resilient, profitable farming.
Have a question about choosing the right miticide for your crop? Drop a comment or reach out — we’re here to help you grow better! 🌿
