Industry Overview:
The global plant genomics market is estimated to reach USD 10,580.0 million in 2025, reflecting a Y-O-Y of 6.8%. Growth is rising due to high preferences for high-yield which support to disease resistant and climate-resilient crops across cereals, fruits, oilseeds and pulses. The market is shift from conventional breeding to precision genomics tools are key driving factor to accelerating adoption of plant genomics worldwide. Nowadays Increasing investments in agricultural biotechnology and genome which helps to assisted breeding programs are boosting trait development and reducing crop losses. Recent advancements in technologies such as Illumina NovaSeq X Series Enhancements with also BGI Genomics AI-powered health management system and expansion of genomics. These innovations are capable to enhancing productivity with reduces breeding cycles time and expanding adoption across global agriculture sectors.
Industry Insights: Scale, Segments, and Shifts
• Market Size & Growth: The global Plant Genomics market is projected to reach USD 19,767.1 million by 2035 with registering a CAGR of 6.5% between 2025 and 2035.
• Segment Analysis: Molecular engineering capture almost 50% of the share through the expanding adoption for trait improvement and precision breeding, while genetic engineering will create momentum during upcoming year by increasing use of CRISPR-based technologies in crop development programs.
• Regional Highlights: Asia Pacific holds approximately 40% of share in 2024 only because large scale of government investments for agricultural biotechnology, while North America will be expected to create broad marketplace due to offering advanced genomics platforms.
• Competitive Landscape: The market is moderately consolidated with competitors such as Illumina Inc., BGI Genomics, and Oxford Nanopore Technologies. These companies adapt strategy to provide strong support for developing field based deployable real time sequencing platforms or integrated CRISPR screening systems which helps to enhance breeding efficiency and improve crop resilience.
Factors Shaping the Next Decade
• Market Gaps / Restraints: Initially it is required high upfront capital for advanced sequencing and genome editing platforms. Time consuming or stricter regulatory approvals process for gene-edited crops or limiting adoption among small- and mid-sized seed developers is a key restraint.
• Key Trends and Innovations: The industry is transforming to adapt innovation such as rapid deployment of Ohalo Genetics’ hybrid strawberry breeding system and MGI Tech’s DNBSEQ-T7+ high-throughput sequencer are enables to faster trait discovery and large-scale genomic analysis. Oxford Nanopore’s field-deployable real-time pathogen sequencers are enhancing on-site crop disease monitoring, boosting efficiency and adoption globally.
• Potential Opportunities: Expansion of portable genomic kits for smallholder or farmers and real-time crop pathogen surveillance platforms are expected to generate new revenue streams in emerging market or developed markets in the coming years.
Recent Industry Updates:
• March 2025: MGI Tech company launched their two innovation such as DNBSEQ‑T1+ and DNBSEQ‑E25 Flash for next‑generation sequencers has offering mid‑throughput workflows and enhanced portable sequencing precision for crop genomics research these platforms accelerate large‑scale trait discovery and genomic analysis.
• January 2025: Oxford Nanopore Technologies showcased the advanced sequencing capabilities at PAG event 2025y, it is emphasizing real‑time or scalable and highly accurate genomic analysis to support global plant and animal genome projects.
Industry Outlook Scope:
By Type
• Molecular Engineering
• Genetic Engineering
• Others
By Trait
• Yield Improvement
• Disease Resistance
• Herbicide Tolerance
• Others
By Technology
• DNA/RNA Sequencing
• Genotyping
• Marker-Assisted Selection (MAS)
• Bioinformatics
• Others
By Application
• Cereals & Grains
• Fruits & Vegetables
• Oilseeds & Pulses
• Others
Geographical Insights: Emerging Corridors of Growth
• Regional Overview: While Europe is fastest growing economy to gaining rapid adaption of plant genomics in agri-biotech and seed improvement programs. In the Middle East & Africa gaining momentum due to demand is rising for drought-tolerant and high-yield crop solutions to support food security and desert agriculture projects. In Latin America is experiencing growth due to enhancing investment in genomics for soybean, maize and coffee breeding programs due to government policies promoting to modern agriculture and high-throughput breeding infrastructure.
• Countries to Watch: Netherlands is lead growth due to advancement in R&D initiatives and innovation hubs for precision breeding and agri-biotech and Egypt is gaining growth with government are strongly supported to the agricultural modernization. Argentina is rapidly integrating plant genomics into major crop breeding programs and national initiatives for sustainable agriculture.
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Regulatory Environment and Policy Support
• Government Regulations & Supportive Policies: Global plant genomics manufacturers are aligned with the EU Regulation on plants produced by new genomic techniques and India’s SDN‑1/SDN‑2 genome-editing exemption framework to ensuring regulatory compliance is streamlined market entry and biosafety standards. These frameworks are promoting the adoption of genome-edited crops and high production supportive genomic technologies across Europe and India.
• Key Government Initiatives: Initiatives like the African BioGenome Project and Canada’s Plant Gene Editing Program both are encourage to infrastructure development and the adoption of advanced genomic tools which helps to boosting precision crop improvement and accelerating market growth globally.
Competitive Landscape and Strategic Outlook
The plant genomics industry is moderately concentrated, with major players are expanding their positions trough the strong regional R&D centers and enhancing cross-border partnerships. Global prominent manufacturers are focusing to utilizing advances technologies such as integrated CRISPR breeding systems and precision trait discovery tools. Many innovators are focusing to growth which based on-demand genomics services, mobile labs for field testing and collaborative crop improvement networks to access emerging markets. These strategies accelerate adoption of genome-edited crops which is shorten breeding cycles and strengthen market presence across diverse agricultural regions worldwide.
Industry Competition:
• Agilent Technologies Inc.
• BGI Genomics
• Eurofins Scientific SE
• Floragenex Inc.
• GENEWIZ Inc. (Azenta Inc.)
• Illumina Inc.
• Keygene N.V.
• LC Sciences
• Neogen Corporation
• NRGene Technologies Ltd.
• Oxford Nanopore Technologies plc
• Qiagen N.V.
Analyst Perspective
The plant genomics market is shifting toward precision-driven and field based integrated crop innovation ecosystems. In the coming next three to five years, the growth will be expected to be drives due to real-time genomic monitoring with predictive trait modeling and scalable high-throughput breeding platforms. In emerging players in markets are offering portable sequencing which also support to modular genomics kits and subscription-based analytics services are well-positioned to capture niche markets or enhance operational efficiency and secure sustainable competitive advantage across global agriculture.
What to Expect from Outlook:
1. Save time carrying out entry-level research by identifying the size, growth trends, major segments, and leading companies in the global plant genomics market.
2. Use PORTER’s Five Forces analysis to assess the competitive intensity and overall attractiveness of the global plant genomics market sector.
3. Profiles of leading companies provide insights into key players’ regional operations, strategies, financial results, and recent initiatives.
4. Add weight to presentations and pitches by understanding the future growth prospects of the global plant genomics market with a forecast for the decade by both market share (%) & revenue (USD Million).
1. Introduction
1.1. Executive Summary
1.2. Regional Snapshot
1.3. Market Scope
1.4. Market Definition
2. Across The
Globe
2.1. Factors Affecting End Use Industries
2.2. Market Dynamics
2.2.1. Upcoming Opportunities
2.2.2. Ongoing Market Trends
2.2.3. Growth Driving Factors
2.2.4. Restraining Factors
2.3. Value Chain Analysis
2.3.1. List of Manufacturers
2.3.2. List of Distributors/Suppliers
2.3.3. List of End Users
2.4. PORTER’s & PESTLE Analysis
2.5. Key Developments
2.6. Key Regulations & Certifications
3. Global Plant
Genomics Market Overview, By Type
3.1. Market Size (US$ Mn) Analysis, 2020 –
2035
3.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
3.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
3.3.1. Molecular Engineering
3.3.2. Genetic Engineering
3.3.3. Others
4. Global Plant
Genomics Market Overview, By Trait
4.1. Market Size (US$ Mn) Analysis, 2020 –
2035
4.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
4.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
4.3.1. Yield Improvement
4.3.2. Disease Resistance
4.3.3. Herbicide Tolerance
4.3.4. Others
5. Global Plant
Genomics Market Overview, By Technology
5.1. Market Size (US$ Mn) Analysis, 2020 –
2035
5.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
5.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
5.3.1. DNA/RNA Sequencing
5.3.2. Genotyping
5.3.3. Marker-Assisted Selection (MAS)
5.3.4. Bioinformatics
5.3.5. Others
6. Global Plant
Genomics Market Overview, By Application
6.1. Market Size (US$ Mn) Analysis, 2020 –
2035
6.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
6.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
6.3.1. Cereals & Grains
6.3.2. Fruits & Vegetables
6.3.3. Oilseeds & Pulses
6.3.4. Others.
7. Global Plant
Genomics Market Overview, By Region
7.1. Market Size (US$ Mn) Analysis, 2020 –
2035
7.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
7.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
7.3.1. North America
7.3.2. Europe
7.3.3. Asia Pacific
7.3.4. Middle East & Africa
7.3.5. South America
8. North America
Plant Genomics Market Overview
8.1. Market Size (US$ Mn) Analysis, 2020 –
2035
8.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
8.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
8.3.1. By Country
8.3.1.1. U.S.
8.3.1.2. Canada
8.3.1.3. Mexico
8.3.2. By Type
8.3.3. By Trait
8.3.4. By Technology
8.3.5. By Application
9. Europe Plant
Genomics Market Overview
9.1. Market Size (US$ Mn) Analysis, 2020 –
2035
9.2. Market Share (%) Analysis (2024 vs
2035), Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness
Analysis (2025 - 2035)
9.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
9.3.1. By Country
9.3.1.1. UK
9.3.1.2. Italy
9.3.1.3. Spain
9.3.1.4. Germany
9.3.1.5. France
9.3.1.6. BENELUX
9.3.1.7. Nordics
9.3.1.8. Rest of Europe
9.3.2. By Type
9.3.3. By Trait
9.3.4. By Technology
9.3.5. By Application
10. Asia Pacific
Plant Genomics Market Overview
10.1. Market Size (US$ Mn) Analysis, 2020 – 2035
10.2. Market Share (%) Analysis (2024 vs 2035),
Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness Analysis
(2025 - 2035)
10.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
10.3.1. By Country
10.3.1.1. China
10.3.1.2. Japan
10.3.1.3. India
10.3.1.4. South Korea
10.3.1.5. ASEAN
10.3.1.6. Australia & New Zealand
10.3.1.7. Rest of Asia Pacific
10.3.2. By Type
10.3.3. By Trait
10.3.4. By Technology
10.3.5. By Application
11. Middle East &
Africa Plant Genomics Market Overview
11.1. Market Size (US$ Mn) Analysis, 2020 – 2035
11.2. Market Share (%) Analysis (2024 vs 2035),
Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness Analysis
(2025 - 2035)
11.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
11.3.1. By Country
11.3.1.1. GCC
11.3.1.2. South Africa
11.3.1.3. Rest of Middle East & Africa
11.3.2. By Type
11.3.3. By Trait
11.3.4. By Technology
11.3.5. By Application
12. South America
Plant Genomics Market Overview
12.1. Market Size (US$ Mn) Analysis, 2020 – 2035
12.2. Market Share (%) Analysis (2024 vs 2035),
Y-o-Y Growth (%) Analysis (2025 - 2035) & Market Attractiveness Analysis
(2025 - 2035)
12.3. Market Absolute $ Opportunity Analysis,
2020 – 2035
12.3.1. By Country
12.3.1.1. Brazil
12.3.1.2. Chile
12.3.1.3. Rest of South America
12.3.2. By Type
12.3.3. By Trait
12.3.4. By Technology
12.3.5. By Application
13. Country-Wise
Market Analysis
13.1. Growth Comparison by Key Countries
14. Competitive
Landscape
14.1. Market Share (%) Analysis, By Top Players
14.2. Market Structure Analysis, By Tier I &
II Companies
15. Company Profiles
15.1. Agilent Technologies Inc.
15.1.1. Company Overview
15.1.2. Business Segments
15.1.3. Financial Insights
15.1.4. Key Business Aspects (Noise Analysis)
15.2. BGI Genomics
15.3. Eurofins Scientific SE
15.4. Floragenex Inc.
15.5. GENEWIZ Inc. (Azenta Inc.)
15.6. Illumina Inc.
15.7. Keygene N.V.
15.8. LC Sciences
15.9. Neogen Corporation
15.10. NRGene Technologies Ltd.
15.11. Oxford Nanopore Technologies plc
15.12. Qiagen N.V.
16. Analysis &
Recommendations
16.1. Targeting Segment
16.2. Targeting Region
16.3. Market Approach
17. Research
Methodology
18. Disclaimer
