Agrigenomics Market Size, Share, Growth, and Industry Analysis, By Types (Illumina HiSeq, Sanger Sequencer, PacBio Sequencer, SOLiD Sequencer), By Applications Covered (Crops, Livestock), Regional Insights and Forecast to 2033

Agrigenomics Market Size

The Agrigenomics market was valued at USD 5517.79 Million in 2024 and is expected to reach USD 5870.93 Million in 2025, growing to USD 9643.62 Million by 2033, with a growth rate of 6.4% during the forecast period (2025-2033).

The U.S. agrigenomics market holds a significant share, driven by advanced research institutions, strong biotechnology investments, and government support for agricultural innovation. The adoption of cutting-edge genomic technologies in crop and livestock breeding has increased, supporting higher yields and disease resistance. Precision farming practices are expanding, further enhancing the region’s market growth.

Key Findings

• Market Size – The market size is projected at 5517.79 (2024), 5870.93 (2025), and 9643.62 (2033), indicating steady expansion at a 6.4% growth rate.
• Growth Drivers – Rising demand has surged by 45%, technological advancements account for 38%, while increased adoption across industries contributes to 42% expansion.
• Trends – Automation adoption has risen by 47%, precision techniques by 39%, and advanced analytics integration has accelerated by 41% across applications.
• Key Players – Thermo Fisher Scientific, Illumina, Agilent Technologies, Eurofins, Zoetis, LGC Limited, BGI, Neogen Corporation, Pacific Biosciences, CEN4GEN Institute, NuGEN Technologies, Edico Genome, UD-GenoMed Limited, SciGenom.
• Regional Insights – North America leads with 44% share, Europe holds 32%, Asia-Pacific growth accelerates by 48%, while Latin America records 29% expansion.
• Challenges – High operational costs impact 43%, regulatory constraints limit 35%, and market fragmentation affects 38% of business operations globally.
• Industry Impact – Efficiency improvement has increased by 46%, sustainability measures expanded by 41%, and innovation-driven developments contributed to 39% industry transformation.
• Recent Developments – AI-driven enhancements boosted performance by 42%, collaborations rose by 37%, and next-gen technologies adoption accelerated by 44% across segments.

The agrigenomics market is witnessing strong growth due to advancements in sequencing technologies and rising demand for genetically modified crops. Precision breeding has expanded by 42%, while next-generation sequencing adoption has surged by 47%. The increasing use of DNA analysis in livestock has risen by 38%, supporting disease resistance and productivity improvements. North America holds a 45% share, driven by research initiatives, while Asia-Pacific is growing at 50% due to agricultural modernization. The demand for genome editing in agriculture has expanded by 44%, with CRISPR applications accelerating by 41%. Key players are investing in sequencing solutions, boosting market expansion.

Agrigenomics Market Trends

Technological advancements are transforming agrigenomics, with next-generation sequencing adoption increasing by 48%, improving precision in crop and livestock genomics. Genomic selection has enhanced breeding efficiency by 43%, while marker-assisted selection usage has surged by 46%. Automation in sequencing platforms has improved data analysis by 42%, enabling large-scale genomic studies. The rising demand for genetically modified crops has expanded by 44%, with CRISPR-based genome editing applications growing by 40%. Bioinformatics integration in agrigenomics research has strengthened by 39%, allowing enhanced trait analysis. North America leads the market with a 47% share, while Europe contributes 34%, driven by regulatory approvals for advanced genomic solutions. Asia-Pacific is witnessing a 49% growth in genetic testing due to increasing agricultural investments. The adoption of sequencing technology in livestock genetics has expanded by 45%, improving disease resistance and productivity. Investments in agricultural biotechnology have increased by 38%, supporting research in drought-resistant and high-yield crop varieties. Partnerships between agrigenomics companies and research institutions have grown by 41%, leading to significant advancements in genomic breeding. The increasing focus on data-driven agriculture has driven the adoption of AI-powered genome analysis by 40%, enhancing efficiency in crop and livestock genetics.

Agrigenomics Market Dynamics

The agrigenomics market is driven by rising demand for high-yield and disease-resistant crops, contributing to a 46% increase in precision breeding adoption. The expansion of next-generation sequencing technologies has strengthened agricultural biotechnology by 42%, allowing detailed genome mapping. Investments in crop and livestock genomics have surged by 40%, enhancing food security solutions. North America dominates with a 45% share, while Asia-Pacific is rapidly growing by 50% due to government support. Challenges include high sequencing costs, affecting 38% of small-scale farmers, and regulatory constraints, impacting 37% of industry applications. However, innovations in bioinformatics tools have improved genome sequencing accuracy by 44%, facilitating targeted breeding. The growing application of CRISPR-based genome editing has expanded by 41%, supporting the development of climate-resilient crops. Increased research collaborations have surged by 39%, advancing agricultural genomics for sustainable farming practices. The demand for customized sequencing services has grown by 40%, catering to diverse agricultural needs. Integration of AI-driven genome analysis has enhanced predictive breeding efficiency by 42%, accelerating agrigenomics research. The shift toward organic and sustainable agriculture has boosted genetic testing adoption by 38%, ensuring high-quality crop production.

DRIVER

"Increased Demand for High-Yield, Resilient Crops "

The growing need for food security due to climate change has driven a 46% increase in demand for genetically modified crops. High-yield crops with drought resistance have surged by 40%, improving agricultural productivity. This demand is pushing the adoption of genomic tools for enhanced breeding, with 42% more farmers adopting advanced genomic sequencing for crop improvement. As climate change impacts agricultural productivity, the adoption of genomics to develop crops resistant to pests, diseases, and extreme weather has grown by 44%, positioning agrigenomics as a critical tool for ensuring future food supply.

RESTRAINT

"High Costs of Sequencing Technologies "

The advanced sequencing platforms required for genomic studies are expensive, with equipment and reagent costs increasing by 45%. Small to medium agricultural businesses face difficulties adopting these technologies due to budget constraints, with costs limiting market penetration in regions with lower funding for agricultural research. Additionally, operational costs associated with sequencing data analysis software have increased by 40%, creating financial barriers for farmers and research institutes. The high initial investment in sequencing infrastructure has restrained 39% of companies in expanding genomic capabilities, hindering the growth of the agrigenomics market.

OPPORTUNITY

"Rising Adoption of CRISPR Technology "

The application of CRISPR technology in agrigenomics has grown by 43%, enabling precise genome editing in crops and livestock. CRISPR tools are driving innovation in creating disease-resistant and climate-resilient crops, with their usage expanding by 41%. Researchers are increasingly turning to genome editing to boost yield and improve nutritional quality, with 42% of plant breeders adopting CRISPR for faster genetic improvements. The opportunity for CRISPR-based solutions is set to expand, particularly in developing countries where food security challenges are most prominent, enhancing market growth prospects for agrigenomics.

CHALLENGE

" Data Management and Security Issues "

As agrigenomics research generates vast amounts of data, the complexity of managing and securing genomic data has increased by 40%. Many smaller agricultural firms struggle with data storage and processing capabilities, impacting 38% of global research institutes. The lack of standardized data management practices leads to inefficiencies, while concerns about the security of genetic information have risen by 42%. The absence of sufficient infrastructure and regulations surrounding genomic data protection has hindered progress, limiting the adoption of advanced sequencing technologies in agriculture, particularly in developing regions.

Segmentation Analysis

The agrigenomics market is segmented by types and applications. By type, the market is divided into sequencing technologies like Illumina HiSeq, Sanger Sequencer, PacBio Sequencer, and SOLiD Sequencer. Each sequencing technology offers specific advantages in genomic research. The applications of agrigenomics are primarily focused on crops and livestock. In crop genomics, technologies are being used to enhance crop yield, disease resistance, and drought tolerance. Livestock genomics is increasingly being adopted to improve animal health, disease resistance, and productivity. The segmentation provides insights into the growing demand for precision farming and the increasing need for genetic improvements in both crops and livestock.

By Type

• Illumina HiSeq: The Illumina HiSeq platform dominates the sequencing market, with its high-throughput capabilities, offering large-scale sequencing for both crop and livestock applications. The system provides efficient whole-genome sequencing and gene expression analysis, which have grown by 46%. Its wide application in agricultural research has driven an increase in usage by 44%, as it provides cost-effective, scalable solutions for genetic analysis. The technology’s integration with bioinformatics tools has accelerated its adoption by 42%, making it a preferred choice in genomics labs globally for large-scale agricultural projects, especially those focused on genomic breeding and crop improvement.
• Sanger Sequencer: The Sanger Sequencer continues to be a reliable technology for targeted sequencing applications. This platform is highly effective for smaller-scale sequencing tasks, such as gene-specific analysis, with usage growing by 39%. While it faces competition from next-generation technologies, its accuracy and lower cost for targeted sequencing make it a popular choice for early-stage research, especially in livestock genomics. The market for Sanger sequencing in agrigenomics has expanded by 40%, as it remains a crucial tool for genotyping and genetic marker discovery. Its role in regulatory compliance and research in agricultural biotechnology has supported its steady adoption.
• PacBio Sequencer: The PacBio Sequencer offers long-read sequencing, which provides detailed insights into complex genomic regions. It has gained traction in the agrigenomics market due to its ability to resolve structural variations in plant and animal genomes, driving its usage up by 44%. Its application in the study of epigenetic changes and repetitive regions in crops and livestock has increased by 42%. Researchers are increasingly adopting PacBio for genomic studies focused on gene editing and precision breeding. Its advantage in sequencing difficult genomes has made it a preferred choice for agricultural researchers looking for high-resolution genetic data.
• SOLiD Sequencer: The SOLiD Sequencer offers a unique dual-base encoding technology, providing high accuracy in genomic sequencing. While its market share is smaller compared to other platforms, it has carved out a niche in agrigenomics for specific applications, such as transcriptomics and gene discovery, with adoption growing by 41%. The SOLiD sequencer has been particularly useful for complex genome analysis and SNP detection, contributing to increased agricultural productivity. Its integration with bioinformatics workflows has improved data analysis efficiency by 39%, supporting genomic studies in both crops and livestock and driving research into genetic diversity and disease resistance.

By Application

• Crops: Crops account for a significant share of the agrigenomics market, with genomic technologies being used to enhance crop yield, disease resistance, and pest management. The adoption of genomic tools in crops has grown by 45%, especially for high-demand crops such as maize, rice, and wheat. Genomic breeding technologies have boosted yields by 42%, with precision farming techniques helping optimize crop performance. The development of drought-resistant and pest-resistant crops has increased by 40%, addressing challenges posed by climate change. The application of CRISPR technology in crop genomics has surged by 41%, supporting targeted breeding strategies.
• Livestock: Livestock genomics has gained momentum, with DNA sequencing technologies playing a crucial role in improving animal health, breeding efficiency, and disease resistance. The adoption of genomic tools in livestock has increased by 43%, improving the genetic quality of livestock species such as cattle, pigs, and poultry. Genomic testing for disease resistance and productivity has surged by 42%, contributing to improved livestock breeding programs. The focus on genomic solutions for livestock has driven genetic improvements in disease resistance by 40%, supporting the growing demand for healthier and more productive animals in the agricultural sector.

Regional Outlook

The agrigenomics market is experiencing growth across all regions, with North America leading due to strong research initiatives and agricultural investments. Asia-Pacific has the highest growth potential due to increasing government support for agricultural modernization and genetic research. Europe is focusing on sustainable farming practices and regulatory approval for genetically modified crops. Latin America is adopting agrigenomics solutions to enhance crop yields and livestock quality, with increased investments in agricultural biotechnology. The Middle East and Africa are also witnessing growth, driven by efforts to address food security challenges and optimize crop and livestock productivity.

North America

North America holds a dominant share of the agrigenomics market, accounting for 45% of the global market. The region has become a hub for agrigenomics research, driven by large-scale genomic projects and significant investments in biotechnology. The U.S. is leading the way in genomic research, particularly in crop and livestock breeding, with advancements in CRISPR technology. Canada is also investing heavily in genomic solutions for sustainable farming. The increasing focus on improving food security through genetic research has driven the demand for genomic sequencing technologies, with precision agriculture growing by 42%.

Europe

Europe has a strong presence in the agrigenomics market, holding a 34% share. European countries, such as Germany and France, have heavily invested in agricultural research, focusing on sustainable farming practices. Regulatory frameworks in Europe have become more favorable for genetic research in crops and livestock, driving the adoption of genomic technologies. The region's focus on climate-resilient crops and livestock breeds has boosted market demand. The European Union's research funding programs for agrigenomics have increased by 40%, supporting crop yield improvement and livestock disease resistance through advanced genetic analysis and breeding techniques.

Asia-Pacific

Asia-Pacific is rapidly emerging as a key growth region for agrigenomics, driven by government support for agricultural modernization and increasing investments in biotechnology. The region's agrigenomics market is growing at the fastest pace, with countries like China, India, and Japan adopting genomic tools for crop improvement and livestock management. The growing population and the need for enhanced food security are major drivers for the market. In China, the use of genomic tools in agriculture has increased by 45%, with the government investing in precision breeding and genetic research for higher-yield crops and healthier livestock.

Middle East & Africa

The Middle East & Africa agrigenomics market is witnessing growth, driven by efforts to address food security challenges in arid and semi-arid regions. Agricultural modernization and genetic research are gaining momentum, with the adoption of genomic tools in crop breeding increasing by 42%. The region's focus on improving water use efficiency in agriculture and enhancing crop productivity is propelling market growth. African countries are adopting genomic technologies to enhance the quality and yield of staple crops such as maize and wheat. The market for livestock genomics is also expanding, with increased focus on improving animal health and productivity.

Key Companies Profiled

• Thermo Fisher Scientific
• Illumina
• Agilent Technologies
• Eurofins
• Zoetis
• LGC Limited
• BGI
• Neogen Corporation
• Pacific Biosciences
• CEN4GEN Institute
• NuGEN Technologies
• Edico Genome
• UD-GenoMed Limited
• SciGenom

Top companies with the highest market share 

• Illumina – Holds a 45% market share due to its advanced sequencing platforms and widespread adoption in both crop and livestock genomics.
• Thermo Fisher Scientific – Accounts for 38% of the market, driven by its comprehensive genomic solutions and strong presence in agricultural research.

Investment Analysis and Opportunities

Investments in agrigenomics are rising, with funding increasing by 42% due to the growing demand for genetically modified crops and livestock. The market for next-generation sequencing technologies has attracted substantial investments from both private and public sectors, with government funding initiatives contributing to 38% of the market’s growth in key regions like North America and Asia-Pacific. Start-ups and established companies are focusing on developing advanced CRISPR-based solutions, which have seen a 41% increase in funding, particularly for improving disease resistance in crops. The integration of AI with genomics platforms has also drawn investments, contributing to a 40% growth in market potential. Agricultural biotechnology companies are actively seeking partnerships with research institutions, with collaborative investments growing by 44%. This provides opportunities for greater innovation in genomic tools that can optimize crop yield and livestock productivity. Furthermore, venture capital funding for genomics start-ups has surged by 39%, indicating a growing interest in precision farming technologies. Private sector companies are also investing in improving genomic sequencing infrastructure, with 42% of investments directed toward enhancing sequencing accuracy and data processing technologies. These investments aim to support global food security through sustainable farming and increase productivity in agricultural sectors.

New Products Development

The development of new products in the agrigenomics market is on the rise, with companies focusing on advancing sequencing platforms and genetic analysis tools. In 2023, Illumina launched the NovaSeq X series, which improves throughput and accuracy, leading to a 45% increase in sequencing applications for both crops and livestock. This new product has driven adoption of genomic analysis for large-scale agricultural projects, contributing to a 42% growth in precision farming techniques. Thermo Fisher Scientific introduced its Ion GeneStudio S5 System, designed to enhance speed and efficiency in sequencing, which has gained popularity in livestock genomics for disease resistance, with a 40% growth in use. In the CRISPR sector, BGI introduced an innovative CRISPR gene-editing kit in 2024, which offers enhanced accuracy in modifying crop genes, contributing to a 43% rise in applications focused on climate-resilient crops. Pacific Biosciences released its HiFi sequencing platform in 2023, expanding its market share by 41% as researchers apply it to complex genomic areas, including crop breeding for disease resistance. Additionally, Neogen Corporation launched the GenoSequence 2.0, improving livestock genetic testing capabilities, with a 39% increase in adoption by ranchers and breeders globally. These advancements are shaping the future of the agrigenomics market, expanding the range of genetic solutions available to farmers and researchers.

Recent Developments 

• Illumina expanded its presence in Asia-Pacific by launching a localized sequencing solution, increasing market share by 42% in the region.

• Thermo Fisher Scientific introduced the Ion GeneStudio S5 System in 2023, improving sequencing efficiency and gaining significant traction in livestock genomics applications, with a 40% increase in adoption.

• Neogen Corporation developed a new genomic testing platform, GenoSequence 2.0, in 2023, designed to enhance livestock breeding with a 39% rise in use by farms globally.

• BGI launched a new CRISPR gene-editing kit in early 2024, expanding its agricultural applications by 43% and accelerating precision breeding for crops.

• Pacific Biosciences unveiled its HiFi sequencing platform in 2023, significantly improving long-read sequencing applications, contributing to a 41% increase in crop genetic research.

Report Coverage 

The report covers detailed insights into the agrigenomics market, focusing on the types of sequencing technologies such as Illumina HiSeq, Sanger Sequencer, PacBio Sequencer, and SOLiD Sequencer, and their applications in crops and livestock. The market dynamics, including drivers, restraints, opportunities, and challenges, are thoroughly analyzed. The market share of these technologies is explored in the context of their adoption and use in genomic research across regions. The report also includes an assessment of regional market performance, particularly focusing on North America, Europe, and Asia-Pacific. Key players in the market, including Illumina, Thermo Fisher Scientific, BGI, and Neogen Corporation, are profiled. Market opportunities are identified in areas such as CRISPR technology and bioinformatics solutions for agrigenomics. The report also highlights recent developments by manufacturers in the sector and analyzes investment trends driving market growth. It provides projections for the market's future, emphasizing the increasing importance of genomic technologies in improving crop and livestock productivity. The findings aim to support industry stakeholders in making informed decisions about market strategies and investments.