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Home » Agriculture » RNA Interference (RNAi) Pesticides Market Size, Share Report

RNA Interference (RNAi) Pesticides Market By Type (Insecticides, Fungicides, Herbicides); By Mode of Action (Gene Silencing, RNA Interference); By Crop Type (Corn, Soybean, Cotton, Fruits & Vegetables, Others (Rice, Wheat)); By Application (Foliar Spray, Seed Treatment, Soil Treatment); By End-Use (Agricultural Fields, Greenhouses, Horticulture); By Geography, Segment revenue estimation, Forecast, 2024-2032.

Published On: SEP-2024   |   Base Year: 2022   |   No Of Pages: 150   |   Historical Data: 2017-2021   |   Formats: PDF   |   Report ID: 81711328

The RNA interference (RNAi) pesticides market in 2023 was worth USD 3 billion and is expected to be worth USD 6.64 billion by 2030, expanding at a CAGR of 10.45% during the forecast period.

 

The RNA interference (RNAi) pesticides market is propelled by the growth in demand for eco-friendly solutions for pest management, which helps minimize the use of conventional synthetic chemicals. Pest crop losses are estimated to be between $ 20- 40 billion annually globally, and RNAi-based pesticides offer a precise means of controlling pests without synthetic business or the ecosystem. These pesticides can regulate genes that are crucial for the existence of the pests, as compared to the conventional pest control methods.

 

A relatively new case is the registration of Bt corn, which utilizes the RNAi technique to address rootworms and eliminate the use of synthetic insecticides. The increased emphasis on pest resistance and the impact of conventional pesticides on the environment also contribute to the need for RNAi-based systems since they are considered environmentally friendly and more efficient than usual pesticides.

 

The RNAi pesticides market has great potential because the use of bio-pesticides is increasing with time across the globe. As crop protection has emerged as a significant issue, RNAi, which can inhibit pest-selective genes, is expected to replace traditional pesticides in important agricultural areas. By 2030, the global population is expected to reach 8.5 billion, which will drive the need for increased agricultural output while reducing pesticide use and environmental harm.

 

For instance, Monsanto (now Bayer) has been working on RNAi-based products such as the SmartStax PRO corn for controlling corn rootworm, a pest that causes a loss of one billion dollars in crops per year. The ability to knock out pests selectively without affecting other helpful insects and pressures from regulators to eliminate chemical pesticides offer a humongous opportunity for RNAi technologies to be adopted widely across the agricultural landscape.

 

rnai-pesticides-market-infographics

 

Market Segmentation

By Type:

  • Insecticides

  • Fungicides

  • Herbicides

  •  

By Mode of Action:

  • Gene Silencing

  • RNA Interference

 

By Crop Type:

  • Corn

  • Soybean

  • Cotton

  • Fruits & Vegetables

  • Others (Rice, Wheat)

 

By Application:

  • Foliar Spray

  • Seed Treatment

  • Soil Treatment

 

By End-Use:

  • Agricultural Fields

  • Greenhouses

  • Horticulture

 

By Region

North America

  • US

  • Mexico

  • Canada

  • Rest of North America

 

Europe

  • Switzerland

  • Russia

  • France

  • Germany

  • U.K

  • Finland

  • Turkey

  • Netherlands

  • Belgium

  • Spain

  • Italy

  • Rest of Europe

 

Asia Pacific

  • India

  • China

  • South Korea

  • Japan

  • Singapore

  • Thailand

  • Indonesia

  • Malaysia

  • Philippines

  • Australia

  • Rest of Asia-Pacific

 

LAMEA

  • Brazil

  • Argentina

  • Uruguay

  • Saudi Arabia

  • Rest of LAMEA

 

North America currently holds the largest proportion of the RNAi pesticides market, driven by high R&D activities in the United States. The region has been pioneering the use of new methods of pest control due to the increased agricultural activities and shift towards integrated pest management that reduces the use of chemical pesticides. The USDA has been funding RNAi research specifically for crops like corn and soybean to fight pests like the western corn rootworm, the western corn rootworm, which costs more than one billion dollars in crop yields.

 

One example is GreenLight Biosciences, which was approved to test a range of RNAi-based solutions in the U. S. crop fields, evidencing the region’s dedication to creating sustainable agriculture technology. Such encouragement of biotechnological innovations for pest control purpose puts North America at the forefront of the RNAi pesticides market.

 

Key Players

  • Bayer AG

  • Syngenta

  • Corteva Agriscience

  • GreenLight Biosciences

  • Monsanto (Bayer CropScience)

  • Caribou Biosciences

  • Agragene

  • RNAgri

Frequently Asked Question About This Report

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Table of Contents

1.    RNA INTERFERENCE (RNAI) PESTICIDES MARKET – PRODUCTION VOLUME BY REGION, (2024 – 2030)
1.1. North America
1.2. Europe
1.3. Asia Pacific
1.4. Latin America
1.5. Middle East & Africa
2.    RNA INTERFERENCE (RNAI) PESTICIDES MARKET – REVENUE ($MILLION), BY REGION, (2024 – 2030)
2.1. North America
2.2. Europe
2.3. Asia Pacific
2.4. Latin America
2.5. Middle East & Africa
3.    MARKET SHARE ANALYSIS – RNA INTERFERENCE (RNAI) PESTICIDES MARKET
3.1. Top 20 Players with Product Mix, Revenue, and Sales Volume
3.2. Market Share, 2023
3.3. Market By Type and End Use Outlook Analysis
4.    HISTORIC TRENDS IN RNA INTERFERENCE (RNAI) PESTICIDES MARKET
5.    EMERGING MARKET TRENDS
6.    NORTH AMERICA RNA INTERFERENCE (RNAI) PESTICIDES MARKET ANALYSIS BY SEGMENT (COUNTRY-LEVEL ANALYSIS)
6.1. North America RNA interference (RNAi) pesticides Historical Market ($MILLION), (2017 – 2023)
6.2. North America RNA interference (RNAi) pesticides Market ($MILLION) and Forecasts (2024 – 2030)
6.3. North America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Type

6.3.1. Insecticides
6.3.2. Fungicides
6.3.3. Herbicides
6.4. North America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Crop Type

6.4.1. Corn
6.4.2. Soybean
6.4.3. Cotton
6.4.4. Fruits & Vegetables
6.4.5. Others (Rice, Wheat)
6.5. North America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Application

6.5.1. Foliar Spray
6.5.2. Seed Treatment
6.5.3. Soil Treatment
6.6. North America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By End-Use

6.6.1. Agricultural Fields
6.6.2. Greenhouses
6.6.3. Horticulture
6.7. North America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Geography
6.7.1. USA
6.7.2. Canada
6.7.3. Rest of North America
7.    USA RNA INTERFERENCE (RNAI) PESTICIDES MARKET ANALYSIS BY SEGMENT (COUNTRY-LEVEL ANALYSIS)
8.    EUROPE RNA INTERFERENCE (RNAI) PESTICIDES MARKET ANALYSIS BY SEGMENT (COUNTRY-LEVEL ANALYSIS)
8.1. Europe RNA interference (RNAi) pesticides Historical Market ($MILLION), (2017 – 2023)
8.2. Europe RNA interference (RNAi) pesticides Market ($MILLION) and Forecasts (2024 – 2030)
8.3. Europe RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), ByType
8.4. Europe RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Crop Type
8.5. Europe RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Application
8.6. Europe RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By End-Use
8.7. Europe RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Geography
8.7.1. Germany
8.7.2. France
8.7.3. UK
8.7.4. Italy
8.7.5. Spain
8.7.6. Rest of Europe
9.    APAC RNA INTERFERENCE (RNAI) PESTICIDES MARKET ANALYSIS BY SEGMENT (COUNTRY-LEVEL ANALYSIS)
9.1. APAC RNA interference (RNAi) pesticides Historical Market ($MILLION), (2017 – 2023)
9.2. APAC RNA interference (RNAi) pesticides Market ($MILLION) and Forecasts (2024 – 2030)
9.3. APAC RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Type
9.4. APAC RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Crop Type
9.5. APAC RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Application
9.6. APAC RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By End-Use
9.7. APAC RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Geography
9.7.1. China
9.7.2. Japan
9.7.3. South Korea
9.7.4. India
9.7.5. Australia
9.7.6. Rest of APAC
10.    LATIN AMERICA RNA INTERFERENCE (RNAI) PESTICIDES MARKET ANALYSIS BY SEGMENT (COUNTRY-LEVEL ANALYSIS)
10.1. Latin America RNA interference (RNAi) pesticides Historical Market ($MILLION), (2017 – 2023)
10.2. Latin America RNA interference (RNAi) pesticides Market ($MILLION) and Forecasts (2024 – 2030)
10.3. Latin America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Type
10.4. Latin America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Crop Type
10.5. Latin America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Application
10.6. Latin America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By End-Use
10.7. Latin America RNA interference (RNAi) pesticides Market Type ($MILLION), and Forecasts (2024 – 2030), By Geography
10.7.1. Brazil
10.7.2. Argentina
10.7.3. Rest of Latin America
11.    COMPANY PROFILES:
11.1. Bayer AG
11.1.1. Company Overview  
11.1.2. Company Snapshot  
11.1.3. Operating business segments
11.1.4. Product offered and Revenue
11.1.5. Production & Sales
11.2. Syngenta
11.3. Corteva Agriscience
11.4. GreenLight Biosciences
11.5. Monsanto (Bayer CropScience)
11.6. OTHER MARKET PLAYERS