Agricultural Genomics Market By Technology (Genomic Sequencing {Next-Generation Sequencing (NGS), Whole Genome Sequencing, Single Nucleotide Sequencing}, Gene Editing {CRISPR, Transgenic Technology}, Molecular Breeding, Bioinformatics, Others), By Application (Crop, Livestock, Aquaculture, Forestry, Soil, Others), By End-User (Agricultural Biotechnology Companies, Research Institutions, Farmers, Government, Others), Global Market Size, Segmental analysis, Regional Overview, Company share analysis, Leading Company Profiles And Market Forecast, 2025 – 2035

Industry Outlook

The Agricultural Genomics market accounted for USD 4.32 Billion in 2024 and is expected to reach USD 10.38 Billion by 2035, growing at a CAGR of around 8.3% between 2025 and 2035. The agricultural genomics market focuses on the use of genetic technology and tools to improve agricultural production, productivity, and crop durability. This is the science of applying skills like DNA sequencing, gene editing, and molecular breeding to improve food crop and animal yield, disease resistance, and drought tolerance.

The agricultural genomics market covers the creation of genetically modified organisms and new technologies in precision farming. With the ever-increasing demand for food on the global market and the continuous degradation of the environment, agricultural genomics stands as a key player in food security and sustainability in the production of crops. It includes crop protection, biotechnology, animal science, commercial fields, and research and technology.

Report Scope:

Market Dynamics

Growing population requires higher productivity through genetically optimized crops.

The agricultural genomics market is driven by increased global demand and a desire to increase crop yields. Modern Bt crops are genetically modified plants that can survive environmental stressors, pests, and diseases. This comes at a time when traditional agricultural practices are failing. Advancements in genomic technology enable the sequencing of specific genes that can improve agricultural traits such as disease resistance, nutritional value, and growth rates.

Similarly, climate change and land degradation show that growing crops that can thrive in a range of situations is crucial. The increase in investment in genomic research from corporate and public entities bodes well for the field's future growth. According to a report from the United States Department of Agriculture, biotechnology crops could increase output by 30 percent while using less water and pesticides. These inventions are transforming agriculture to address anticipated future food insecurity issues.

Genomics enhances crop management, optimizing resources and boosting yield efficiency.

Several factors fuel the agricultural genomics market. The use of genomic technologies has increased as effective biotechnology and sequencing methods have emerged. The growing global population's demand for more food puts strain on production, requiring the use of sustainable farming methods that genomics can help with. 

A deeper understanding of crop genomes allows them to create pest and drought resistance, and boost nutrient content, to tackle issues such as climate change and resource scarcity. Globalization encourages investment in crop genetics as a result of government financing for agricultural research. They include precision agriculture, which uses genetic information to pick inputs such as water and fertilizer, among others, to boost market growth rates.

Genomic tools promote technologies such as biotechnology, which seeks to genetically edit crops to boost yields and improve qualities. Furthermore, increased public knowledge and the growing demand for more nutritious genetically altered agricultural goods are driving research in the field. Governmental and non-governmental groups play a vital role in growth, as do biotechnology firms and agricultural agencies. Overall, these elements are helping to advance the agricultural genomics market and improve food security around the world.

Limited research facilities and expertise in developing countries hinder progress.

The primary restriction of the agricultural genomics market is noticed in underdeveloped nations owing to a lack of research facilities and personnel. There is also a dearth of funding and technology in many regions, making it difficult to develop new, sophisticated, and effective genetic solutions for successful and innovative agriculture. Professional geneticists and bioinformaticians' abilities are in short supply, contributing to the poor progress of crop improvement and disease resistance.

Moreover, regulatory concerns and limited access to modern technology are impeding the adoption of genomic tools and trends in agriculture. The cost of genetic research and the necessary equipment excludes developing countries from the market. This also affects the lower rates of adoption of genomics-based agricultural innovations in these regions, extending the divide between developed and developing countries.

AI enhances genomic research and precision breeding for improved crops.

AI is having a huge impact on the agricultural genomics market, particularly crop development through precision breeding. AI technology can be used to evaluate biological data from various species to better discover desirable traits such as disease resistance, drought tolerance, and yield improvement. Artificial intelligence may uncover gene-environment relationships, allowing crops to grow in a range of conditions.

AI is used in genomic selection, which saves time and money over traditional breeding methods. Completing the AI with CRISPR technology allows for precise gene editing, which enhances crop resistance and productivity. This sector is also growing as people become more concerned about sustainable agriculture, which may be aided by genomics advancements. With businesses embracing big data as a norm in the coming years, public and private entities are dedicating a lot of funding to agricultural genomics, pointing to strong market growth over the years to come.

Genomic technologies allow tailored farming practices for region-specific agricultural solutions.

The agricultural genomics market is a significant opportunity because genetic technology enables farmers to improve crop and livestock yields based on environmental or geographical conditions. Growers can use genetic information to improve crop tolerance to diseases, insects, humidity, and other stressors, resulting in higher yields while conserving the environment.

These genomic resources also contribute to the development of drought-tolerant characteristics, which improves food security in certain climate zones. Moreover, proper breeding improves food quality while lowering chemical use through organic farming. As the population grows and climate change stresses traditional farming practices, agricultural genomics offers a solution for better, more efficient and sustainable farming. It has long-term potential because, as the government and commercial sectors invest more in agricultural genomics and technology, a new era of tailored solutions emerges.

Industry Experts Opinion

"The revolution in plant genetics is the only way to significantly increase food production to meet the needs of the growing population in the coming decades."

• Dr. Norman Borlaug, the Father of the Green Revolution.

Segment Analysis

Based on the technology, the Agricultural Genomics Market is classified into Genomic Sequencing, Gene Editing, Molecular Breeding, Bioinformatics, and Others. In the agricultural genomics market, genomic sequencing is the dominant technology. Provides the amount of specificity needed to examine crop and livestock genomes for improved breeding and selection and also to uncover complex traits. Next Generation Sequencing (NGS) has emerged as a vital technique for generating beneficial genetic changes to improve disease resistance, yield, and stress tolerance in both biotic and abiotic environments. This strategy lays the groundwork for additional technologies like genome editing and molecular breeding, enabling faster and more precise generation of improved crop varieties. Therefore, genomic sequencing is becoming important in agricultural genomics innovation.

Based on the application, the Agricultural Genomics Market is classified into Crop, Livestock, Aquaculture, Forestry, Soil, and Others. Crop genomics is the most prominent type in the Agricultural Genomics Market. This category accounts for the greatest market share as the population intensifies research into enhancing crop yield while also making crops more climate change robust to effectively feed the world's population.

Biotechnological advancements, such as CRISPR and Next-Generation Sequencing, are enabling the development of superior crop varieties with desired production characteristics such as drought tolerance, disease tolerance, and increased yield. Moreover, the emphasis on precision agriculture and environmentally friendly production drives investment in crop genomics, which is regarded as the largest and most integrated section of the agricultural genomics market.

Regional Analysis

The North American agricultural genomics market is expanding owing to increased technological uses, concerns about food safety, and sustainable farming. Because of their significant R&D spending, the United States and Canada are currently the most notable investors in genomics technologies for agricultural and cattle enhancement. This is performed by innovative technologies such as gene editing (CRISPR) and DNA sequencing, which produce plants with increased yields and resistance to diseases and environmental conditions.

Further, the growing use of precision agriculture, which uses genomics to build better farming and agricultural practices, is boosting market expansion. Government backing, particularly grant funding for agricultural research, is giving the market an extra push. The combination of big data and genomics is also supporting farmers in making decisions that increase productivity and save expenses. However, legal and ethical concerns about genetic engineering continue to arise in the region.

The Asian Pacific agricultural genomics market is expanding as biotechnology advances, food security improves, and precision farming becomes more widely used. China, India, Japan, and Australia have already made significant investments in genomic research to boost crop yields, improve disease resistance, and reduce environmental impact. Agricultural government policies, particularly collaboration between agriculturally connected firms and colleges or research organizations, have accelerated the development of genetic solutions for crops and livestock. As the population grows and agricultural climatic conditions change, there is an increasing push to adopt genetic technology in agriculture.

There is an unprecedented increase in tailor-made and targeted agriculture products in the region, which is increasing market share. Regarding this, the market is likely to expand in the next few years as investment in agricultural R&D increases. Moreover, the continuous development of CRISPRs and gene-editing technologies will increase pressure to breed new crops and manage animals. Distance learning also contributes to the conceptualization and implementation of precision agriculture by increasing emphasis on genetics, bioinformatics, and data analysis.

Competitive Landscape

The Agricultural Genomics Market is well-established, with Monsanto (Bayer CropScience), Syngenta AG, DuPont (Corteva Agriscience), Illumina, and Thermo Fisher Scientific among the innovation leaders. These companies are interested in pushing genomics as a tool and technology for improving crop yields and disease resistance. Bayer recently launched revolutionary genomic-based solutions to improve crop qualities, while Illumina continues to develop next-generation sequencing tools for agricultural science.

Corteva has also used genomic-assisted selection approaches to boost breeding programs for high-yield, climate-resistant crops. Moreover, Syngenta is facing growing market rivalry as a result of new technologies and product development, including genome editing and genetic modification. These highlight the agricultural genomics market's efforts to address global concerns including food security and sustainable agriculture.

Agricultural Genomics Market, Company Shares Analysis, 2024

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Recent Developments:

• In June 2023, Complete Genomics, Inc. announced a new vision/mission to reflect transformed drives for a better society. The new mission will enable Complete Genomics to announce several donations to advance cancer care and genomics education, as well as critical collaborations with several biomedical businesses.
• In April 2023, Singrow, an agri-genomics firm, announced its expansion by establishing a new indoor farm in Singapore to act as its primary R&D hub. The hub will use Singrow's unique genomics technology to improve novel crop types in Singapore.

Report Coverage:

By Technology

• Genomic Sequencing
  • Next-Generation Sequencing (NGS)
  • Whole Genome Sequencing
  • Single Nucleotide Sequencing
• Gene Editing
  • CRISPR
  • Transgenic Technology
• Molecular Breeding
• Bioinformatics
• Others

By Application

• Crop
• Livestock
• Aquaculture
• Forestry
• Soil
• Others

By End-User

• Agricultural Biotechnology Companies
• Research Institutions
• Farmers
• Government
• Others

By Region

North America

• U.S.
• Canada

Europe

• U.K.
• France
• Germany
• Italy
• Spain
• Rest of Europe

Asia Pacific

• China
• Japan
• India
• Australia
• South Korea
• Singapore
• Rest of Asia Pacific

Latin America

• Brazil
• Argentina
• Mexico
• Rest of Latin America

Middle East & Africa

• GCC Countries
• South Africa
• Rest of the Middle East & Africa

List of Companies:

• Monsanto
• Syngenta AG
• DuPont de Nemours, Inc.
• BASF SE
• Illumina, Inc.
• Thermo Fisher Scientific
• Ceres, Inc.
• Genus PLC
• KWS SAAT SE
• Pacific Biosciences of California, Inc.
• Eurofins Genomics
• Benson Hill
• AgBiome
• Nuseed
• CropX

Frequently Asked Questions (FAQs)