Download free PDF

RNA Interference (RNAi) Crop Sprays Market Size & Share 2026-2035

Report ID: GMI16182
   |
Published Date: July 2026
 | 
Report Format: PDF/Excel/Dashboard/Platform

Download Free PDF

Explore Our Licensing Options:

Starting at: $2,450

RNA Interference (RNAi) Crop Sprays Market Size

The global RNA interference (RNAi) crop sprays market was valued at USD 248 million in 2025. The market is expected to grow from USD 310 million in 2026 to USD 2.9 billion in 2035, at a CAGR of 28.3% according to the latest report published by Global Market Insights Inc.

RNA Interference (RNAi) Crop Sprays Market Key Takeaways

Market Size & Growth

  • 2025 Market Size: USD 248 Million
  • 2026 Market Size: USD 310 Million
  • 2035 Forecast Market Size: USD 2.9 Billion
  • CAGR (2026–2035): 28.3%

Regional Dominance

  • Largest Market: North America
  • Fastest Growing Region: Asia Pacific

Key Market Drivers

  • Rising demand for sustainable pest control.
  • Increasing restrictions on chemical pesticides.
  • Growing focus on precision agriculture solutions.

Challenges

  • Expansion in high-value crop segments.
  • Advancements in RNA delivery technologies.

Opportunity

  • Stability issues under field conditions.
  • High production and formulation costs.
  • Regulatory uncertainties across regions.

Key Players

  • Market Leader: GreenLight Biosciences led with over 11.4% market share in 2025.
  • Leading Players: Top 5 players in this market include GreenLight Biosciences, Bayer AG, Corteva Agriscience, BASF SE, Syngenta, which collectively held a market share of 47.7% in 2025.

  • RNA interference (RNAi) crop sprays are the agricultural solutions that regulate gene expression in specific pests, pathogens, or even weeds by using double stranded RNA (dsRNA) molecules. They worked by triggering a natural biological sequence, where certain genes inside the target organism get silenced, and that in turn disrupt activities like growth, reproduction, or survival. And unlike the usual chemical pesticides, these RNAi sprays are meant to be selective, targeting only chosen species rather than harming non-target organisms.
  • RNAi crop sprays are typically put on plant surfaces like other foliar spraying routine. The dsRNA then gets absorbed by the pests or pathogens when they come in contact with the treated plant material, and from gene silencing starts inside their cells.
  • In other words, it’s often described as a biologically driven crop protection, using molecular precision rather than broad, heavy toxicity. That difference matters due to the shift in agricultural practice toward sustainability and less ecological residue.
  • The RNAi crop sprays market is getting more attention as farming leans further toward more environmentally mindful, residue free crop protection methods. Farmers and other stakeholders are looking at these products as alternatives to conventional pesticides, especially in areas where regulations are tightening and chemical use is under more scrutiny. The strategy can also support integrated pest management, since the mechanism is targeted, and it can sit alongside other biological controls and agronomic tactics.
RNA Interference (RNAi) Crop Sprays Market Research Report

RNA Interference (RNAi) Crop Sprays Market Trends

  • The rising inclination toward environmentally responsible farming practices is catering the growth of RNAi crop sprays. Farmers are choosing methods that reduce ecological disruption, and RNAi tech basically matches that direction by giving species-specific pest control with fairly limited off-target effects. This movement also gets pushed by Consumer demand of food with less or no chemical residues, so agricultural stakeholders start looking more seriously at biologically driven alternatives.
  • Shift away from broad-spectrum chemical applications, toward more targeted crop protection results in market growth. RNAi sprays fit in this approach by focusing on specific genetic pathways in pests and pathogens. The precision matters, since it limits unnecessary exposure to non-target organisms and helps keep the ecosystem in a more balanced state in areas where biodiversity preservation is a priority.
  • The market momentum is being nudged by the wider adoption of advanced agricultural technologies. RNAi crop sprays are in demand alongwith digital farming tools, data analytics, and precision application systems as when these are used in combination, it tends to improve the speed and accuracy of handling pest management, which then supports stronger crop results and better resource utilization.
  • Another thing that keeps coming up is the greater attention to regulatory compliance and safer agricultural inputs. As governments and regulatory bodies tighten limits on chemical pesticide use, farmers start searching for solutions that still meet safety and environmental expectations. RNAi-based sprays are gaining interest here, because they can better fit the regulatory picture while still trying to protect productivity goals, even when conditions are complicated.
  • Continuous research and development tends to drive the market. Developers are working on RNA stability, delivery mechanisms, and cost efficiency so the technology becomes more usable for field work. As these improvements continue to stack up, they are expected to build more confidence among farmers and agribusinesses, which should encourage wider adoption across different crop segments.

RNA Interference (RNAi) Crop Sprays Market Analysis

RNA Interference (RNAi) Crop Sprays Market, By RNA Technology, 2022-2035 (USD Million)

The RNA interference (RNAi) crop sprays market by RNA technology is segmented into Double-Stranded RNA (dsRNA), Small Interfering RNA (siRNA), Short Hairpin RNA (shRNA), MicroRNA (miRNA) & SIGS Blends, Others (Emerging RNA Classes, RNA Aptamers). Double-Stranded RNA (dsRNA) holds the largest market value of USD 226 million in 2025.

  • The RNA type in crop sprays is shifting fast, with more attention put on double stranded RNA (dsRNA) and small interfering RNA (siRNA) as the main functional molecules, mostly because they’re stable and they work well for gene silencing. dsRNA is still widely explored because it can trigger RNA interference strongly across a range of pests, while siRNA tends to give a bit more precision for specific gene targets. At the same time, short hairpin RNA (shRNA) is getting more traction in controlled delivery settings, especially where long-lasting gene suppression is needed, or at least where they want it to last.
  • Another thing that’s showing up is diversification of RNA formats, like microRNA (miRNA) together with SIGS (Spray Induced Gene Silencing) blends, and these are being tested for more flexible pest and disease management. These mixtures make it easier to aim at multiple pathways, without being locked in one route. RNA aptamers and other new variants are also in the works, which suggests people are still experimenting, to raise binding specificity, improve environmental stability, and boost delivery efficiency. Overall, this seems to be shaping the innovation in RNAi crop sprays.

The RNA interference (RNAi) crop sprays market by target pest is segmented into insecticides, fungicides, herbicides, virucides. Insecticides hold the largest market value of USD 235 million in 2025.

  • The target pest segmentation for RNAi crop sprays is showing a noticeable direction toward insect focused applications because insects have shown strong responsiveness to RNA interference mechanisms. RNAi based insecticides are being worked on essential genes that steer feeding, growth, and reproduction, so the idea is a more selective route than conventional methods. This is especially relevant in crops that hit by insect infestations where precision control can lower crop losses while keeping ecological balance.
  • Fungal, weed, and viral targets are emerging spaces too, with more research but also different levels of difficulty. Fungicides using RNAi are getting a lot of attention for managing plant pathogens through gene silencing, while herbicide type applications try to selectively slow weed development without messing with the crops. Virucide style approaches are still kind of taking shape, mainly centered on strengthening plant defense mechanisms so they can handle viral infections better. Overall, the pattern looks like it’s gradually widening from insect-centric solutions toward broader pest management categories, and it ends up supporting more integrated crop protection strategies.

RNA Interference (RNAi) Crop Sprays Market Revenue Share by Crop Type, (2025)



The RNA interference (RNAi) crop sprays market by crop type is segmented into cereals & grains, fruits & vegetables, oilseeds & pulses, specialty & HV crops, others. Fruits & vegetables holds the largest market value of USD 133 million in 2025.

  • In cereals & grains and fruits & vegetables, RNAi crop sprays are showing different adoption paths, driven by how much the crop is worth and how intense the pest pressure gets. Fruits & vegetables seem to be picked up faster, mostly because of higher economic returns pull, and quality requirements are strict, so pest control that is more targeted becomes way more practical. At the same time, cereals & grains are slowly looking at RNAi options, with uptake shaped by the need for protection that’s both cost-friendly and scalable, especially over big cultivation areas. 
  • For oilseeds & pulses, specialty & high-value crops, and then others, the direction looks more mixed and a bit staggered. Specialty and high-value crops still act like easier entry because of higher input costs, and they also gain from precision protection that is more controlled. Oilseeds & pulses are exploring more cautiously, as affordability and overall effectiveness are improving step by step. In others RNAi technologies are expanding gradually across a range of region-specific cropping systems.

U.S.RNA Interference (RNAi) Crop Sprays Market Size, 2022-2035 (USD Million)

The market in the North America is expected to experience significant and promising growth from USD 158 million in 2025 to USD 614 million in 2035. The U.S. RNA interference (RNAi) crop sprays market accounted for USD 124.3 million in 2025.

  • North America is seeing steady movement toward RNAi crop spray use, backed by ongoing research and evolving farm routines that aim at more sustainable pest control approaches, and less reliance on chemical inputs across different types of farming. In the United States, field trials are growing along with partnerships between biotech firms and growers, so RNAi is being tested more for high-value crops, results in gradual commercialization and a noticeable pull toward precision pest management technologies.

The market in the Europe is expected to experience significant and promising growth from USD 44 million in 2025 to USD 1 billion in 2035.

  • Europe is showing cautious yet still progressive movement toward RNAi crop spray use which is shaped by strict environmental regulations, and also a push for greener agricultural inputs and biodiversity protection across the member states. In Germany, research organizations and agricultural technology developers are testing RNAi solutions inside controlled setups, but they stay heavily focused on regulatory compliance while trying to push newer ideas in sustainable plant protection, and in biologically derived pest management approaches.

The RNA interference (RNAi) crop sprays market in Asia Pacific is expected to experience increasing growth from USD 28 million in 2025 to USD 1.1 billion in 2035.

  • Asia Pacific meanwhile is seeing more attention for RNAi crop sprays, mainly because agricultural intensity keeps rising, and growers really want better yield protection options across all sorts of climate patterns and crop types. In China, ongoing funding into biotechnology and crop science studies is backing the creation of RNAi-based tools, especially for pest control in fruits, vegetables, and rice fields, this is clearly linked to efforts to modernize farming routines and reduce reliance on chemical pesticides.

Middle East & Africa market is expected to experience significant and promising growth from USD 6 million in 2025 to USD 30 million in 2035.

  • The Middle East & Africa region is showing early interest in RNAi crop sprays, especially to help with crop resilience and pest management problems that come with a changing climate and limited agricultural resources. In South Africa, early-stage research and pilot projects are trying to see if RNAi based approaches could work for high value crops, with an emphasis on improving pest control performance, while still matching sustainable and resource-efficient farming methods.

Latin America is expected to experience significant and increasing growth from USD 12 million in 2025 to USD 136 million in 2035.

  • Latin America is adopting RNAi crop sprays as part of a wider plan to boost crop output and handle pest pressures in large scale farming systems. In Brazil, research programs are concentrating on putting RNAi technologies to work in major crops like soybeans and maize, they’re tackling pest issues that are common in the region, and also supporting sustainable agriculture, while improving their crop protection strategies.

RNA Interference (RNAi) Crop Sprays Market Share

  • The RNA Interference (RNAi) Crop Sprays industry are moderately consolidated with players like GreenLight Biosciences, Bayer AG, Corteva Agriscience, BASF SE and Syngenta holding 47.7% market share and GreenLight Biosciences being the market leader holding the market share of 11.4% in 2025.
  • Companies keep their competitive advantage in the RNA interference (RNAi) crop sprays market by putting a lot of emphasis on efficient sourcing of milk powder and the supporting inputs. When procurement is tuned properly it helps keep costs steadier, while also making sure there’s stable raw material supply across production cycles, even when demand shifts a bit.
  • They also invest in standardized processing plus quality control systems, so the product composition ends up more uniform. That kind of consistency makes reliability easier to maintain from batch to batch, which matters a lot for industrial buyers and institutional customers who expect predictable performance from day one.
  • Target Pest and storage optimization really does weigh in heavily on market positioning. Firms typically choose pack formats that work toward shelf stability and shipping efficiency at the same time, plus they must fit different distribution channels and consumption needs, all that combined.
  • Strong distribution networks let companies cover wide geographic areas without too many delays. With logistics streamlined, supply disruptions get reduced, and products are available on time in regions where fresh milk access is either limited, or just not consistent.
  • Product customization improves competitiveness too. Suppliers can adjust fat content or tweak the formulation depending on the actual use case, which helps them serve different end-use segments without depending on only one consumption pattern. This flexibility is often what keeps them adaptable.

RNA Interference (RNAi) Crop Sprays Market Companies

Major players operating in the RNA interference (RNAi) crop sprays industry are:

  • GreenLight Biosciences
  • Bayer AG
  • Corteva Agriscience
  • BASF SE
  • Syngenta Group
  • Pebble Labs
  • Invaio Sciences
  • RNAissance Ag
  • SenseUP Biosciences
  • Agriterna

GreenLight Biosciences develops RNA-based agricultural solutions with a focus on producing double-stranded RNA at scale for crop protection. The company works on spray-applied RNAi products targeting pests and diseases, emphasizing cost-effective manufacturing processes and environmentally compatible pest management approaches.

Bayer AG operates as a global life sciences company with a strong presence in crop science, including research into RNAi-based technologies. The company integrates advanced biotechnology with digital farming tools to explore new crop protection methods, including targeted biological solutions such as RNA-based sprays.

Corteva Agriscience focuses on agricultural innovation through seed, crop protection, and digital solutions. The company is involved in RNAi research to develop precise pest management tools, aiming to support sustainable farming practices and improve crop productivity through targeted biological mechanisms.

BASF SE is engaged in diversified chemical and agricultural solutions, including the exploration of RNA-based crop protection technologies. The company invests in developing sustainable agricultural inputs, with RNAi approaches forming part of its broader efforts toward environmentally balanced pest and disease management systems.

Syngenta Group operates across crop protection, seeds, and digital agriculture, with ongoing research into advanced biological solutions such as RNAi sprays. The company focuses on integrating scientific innovation with practical farming needs, supporting the development of targeted and sustainable crop protection strategies.

RNA Interference (RNAi) Crop Sprays Industry News

  • In April 2026, BASF Agricultural Solutions completes acquisition of AgBiTech, expanding its biological insect control portfolio.
  • In November 2025, Corteva Agriscience announced new crop protection solutions, including Goltrevo bioinsecticide and Varpelgo active, aimed at controlling insect pests and supporting targeted, sustainable pest management across multiple crops.

The RNA interference (RNAi) crop sprays market research report includes an in-depth coverage of the industry with estimates and forecast in terms of revenue in USD Million and volume in terms of kilo tons from 2022–2035 for the following segments:

Market, By RNA Technology

  • dsRNA
  • siRNA  
  • shRNA
  • miRNA &SIGS 
  • Others

Market, By Target Pest

  • Insecticides     
  • Fungicides       
  • Herbicides       
  • Virucides

Market, By Crop Type

  • Cereals & Grains         
  • Fruits & Vegetables   
  • Oilseeds & Pulses       
  • Specialty & HV Crops
  • Others

The above information is provided for the following regions and countries:

  • North America
    • U.S.
    • Canada
  • Europe
    • Germany
    • UK
    • France
    • Spain
    • Italy
    • Rest of Europe
  • Asia Pacific
    • China
    • India
    • Japan
    • Australia
    • South Korea
    • Rest of Asia Pacific
  • Latin America
    • Brazil
    • Mexico
    • Argentina
    • Rest of Latin America
  • Middle East and Africa
    • Saudi Arabia
    • South Africa
    • UAE
    • Rest of Middle East & Africa
Authors:  Kiran Puldinidi, Kunal Ahuja

Table of Contents

Chapter 1   Methodology & Scope

Chapter 2   Executive Summary

Chapter 3   Industry Insights

Chapter 4   Competitive Landscape, 2025

Chapter 5   Market Estimates and Forecast, By RNA Technology, 2022–2035 (USD Million) (Kilo Tons)

Chapter 6   Market Estimates and Forecast, By Target Pest, 2022–2035 (USD Million) (Kilo Tons)

Chapter 7   Market Estimates and Forecast, By Crop Type, 2022–2035 (USD Million) (Kilo Tons)

Chapter 8   Market Estimates and Forecast, By Region, 2022–2035 (USD Million) (Kilo Tons)

Chapter 9   Company Profiles

Frequently Asked Question(FAQ) :
How big is the rna interference (rnai) crop sprays market?
The rna interference (rnai) crop sprays market size was estimated at USD 248 million in 2025 and is expected to reach USD 310 million in 2026.
What is the 2035 forecast for the rna interference (rnai) crop sprays market?
The market is projected to reach USD 2.9 billion by 2035, growing at a CAGR of 28.3% from 2026 to 2035.
Which region dominates the rna interference (rnai) crop sprays market?
North America currently holds the largest share of the rna interference (rnai) crop sprays market in 2025.
Which region is expected to grow the fastest in the rna interference (rnai) crop sprays market?
Asia Pacific is projected to be the fastest-growing region during the forecast period.
Who are the major players in rna interference (rnai) crop sprays market?
Some of the major players in rna interference (rnai) crop sprays market include GreenLight Biosciences, Bayer AG, Corteva Agriscience, BASF SE, Syngenta, which collectively held 47.7% market share in 2025.
How much revenue did the dsRNA segment generate in 2025?
The Double-Stranded RNA (dsRNA) segment generated USD 226 million in 2025, making it the leading RNA technology due to its high gene-silencing efficiency and broad applicability in pest management.
What was the valuation of the insecticides segment in 2025?
The insecticides segment accounted for USD 235 million in 2025, driven by the strong effectiveness of RNAi technology against insect pests while minimizing impacts on beneficial organisms.

Research methodology, data sources & validation process

This report draws on a structured research process built around direct industry conversations, proprietary modelling, and rigorous cross-validation and not just desk research.

Our 6-step research process

  1. 1. Research design & analyst oversight

    At GMI, our research methodology is built on a foundation of human expertise, rigorous validation, and complete transparency. Every insight, trend analysis, and forecast in our reports is developed by experienced analysts who understand the nuances of your market.

    Our approach integrates extensive primary research through direct engagement with industry participants and experts, complemented by comprehensive secondary research from verified global sources. We apply quantified impact analysis to deliver dependable forecasts, while maintaining complete traceability from original data sources to final insights.

  2. 2. Primary research

    Primary research forms the backbone of our methodology, contributing nearly 80% to overall insights. It involves direct engagement with industry participants to ensure accuracy and depth in analysis. Our structured interview program covers regional and global markets, with inputs from C-suite executives, directors, and subject matter experts. These interactions provide strategic, operational, and technical perspectives, enabling well-rounded insights and reliable market forecasts.

  3. 3. Data mining & market analysis

    Data mining is a key part of our research process, contributing nearly 20% to the overall methodology. It involves analysing market structure, identifying industry trends, and assessing macroeconomic factors through revenue share analysis of major players. Relevant data is collected from both paid and unpaid sources to build a reliable database. This information is then integrated to support primary research and market sizing, with validation from key stakeholders such as distributors, manufacturers, and associations.

  4. 4. Market sizing

    Our market sizing is built on a bottom-up approach, starting with company revenue data gathered directly through primary interviews, alongside production volume figures from manufacturers and installation or deployment statistics. These inputs are then pieced together across regional markets to arrive at a global estimate that stays grounded in actual industry activity.

  5. 5. Forecast model & key assumptions

    Every forecast includes explicit documentation of:

    • ✓ Key growth drivers and their assumed impact

    • ✓ Restraining factors and mitigation scenarios

    • ✓ Regulatory assumptions and policy change risk

    • ✓ Technology adoption curve parameter

    • ✓ Macroeconomic assumptions (GDP growth, inflation, currency)

    • ✓ Competitive dynamics and market entry/exit expectations

  6. 6. Validation & quality assurance

    The final stages involve human validation, where domain experts manually review filtered data to identify nuances and contextual errors that automated systems might miss. This expert review adds a critical layer of quality assurance, ensuring data aligns with research objectives and domain-specific standards.

    Our triple-layer validation process ensures maximum data reliability:

    • ✓ Statistical Validation

    • ✓ Expert Validation

    • ✓ Market Reality Check

Trust & credibility

10+
Years in Service
Consistent delivery since establishment
A+
BBB Accreditation
Professional standards & satisfaction
ISO
Certified Quality
ISO 9001-2015 Certified Company
150+
Research Analysts
Across 10+ industry verticals
95%
Client Retention
5-year relationship value

Verified data sources

  • Trade publications

    Security & defense sector journals and trade press

  • Industry databases

    Proprietary and third-party market databases

  • Regulatory filings

    Government procurement records and policy documents

  • Academic research

    University studies and specialist institution reports

  • Company reports

    Annual reports, investor presentations, and filings

  • Expert interviews

    C-suite, procurement leads, and technical specialists

  • GMI archive

    13,000+ published studies across 30+ industry verticals

  • Trade data

    Import/export volumes, HS codes, and customs records

Parameters studied & evaluated

Every data point in this report is validated through primary interviews, true bottom-up modelling, and rigorous cross-checks. Read about our research process →

Authors:  Kiran Puldinidi, Kunal Ahuja
We use cookies to enhance user experience. (Privacy Policy)