Global Agriculture Genomics
Market Report
2025
Agriculturemarket size is USD 3458.2 million in 2024 and will expand at a compound annual growth rate (CAGR) of 9.90% from 2024 to 2031. Genomics
The base year for the calculation is 2023 and 2019 to 2023 will be historical period. The year 2024 will be estimated one while the forecasted data will be from year 2025 to 2031. When we deliver the report that time we updated report data till the purchase date.
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According to Cognitive Market Research, the global agriculture genomics market size is USD 3458.2 million in 2024 and will expand at a compound annual growth rate (CAGR) of 9.90% from 2024 to 2031.
Base Year | 2023 |
Historical Data Time Period | 2019-2023 |
Forecast Period | 2024-2031 |
Global Agriculture Genomics Market Sales Revenue 2024 | $ 3458.2 Million |
Global Agriculture Genomics Market Compound Annual Growth Rate (CAGR) for 2024 to 2031 | 9.9% |
Market Split by Type |
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Market Split by Technology |
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Market Split by Application |
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Market Split by Service Offerings |
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List of Competitors |
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Regional Analysis |
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Country Analysis |
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Agriculture Genomics Market is Segmented as below. Particular segment of your interest can be provided without any additional cost. Download the Sample Pages!
Agriculture genomics encompasses the study and application of genomic technologies within the agricultural sector. It involves the analysis of the genetic makeup of plants, animals, and microorganisms relevant to agriculture, aiming to understand their genetic diversity, traits, and interactions. This field utilizes advanced molecular biology techniques, bioinformatics, and high-throughput sequencing to decipher the genetic basis of agronomic ally important traits such as yield, disease resistance, and stress tolerance. By unraveling the genetic codes of agricultural organisms, agriculture genomics facilitates the development of genetically improved crops, livestock, and microbial agents, thereby enhancing agricultural productivity, sustainability, and resilience in the face of evolving challenges.
The rising focus on precision agriculture is driving increased sales within the agriculture genomics market. Precision agriculture leverages advanced technologies, including genomics, to optimize farming practices and maximize crop yields while minimizing inputs such as water, fertilizers, and pesticides. Agriculture genomics plays a crucial role in precision agriculture by providing valuable genetic insights into crop traits, disease resistance, and environmental adaptability. Farmers are increasingly adopting genomics-based solutions to tailor their cultivation practices, resulting in improved productivity, resource efficiency, and profitability. This growing demand for precision agriculture solutions is driving sales of genomics technologies and services, propelling market growth in the agriculture sector.
In March 2022, Agilent established the Center for Excellence (CoE) at the Gujarat Technological University (GTU) campus. This state-of-the-art instrumentation laboratory aims to foster collaborative educational and research endeavors, providing a platform for scientific exploration and validation.
(Source: https://www.agilent.com/about/newsroom/presrel/2022/15mar-ah-22009.html)
The demand for increased crop yield is a driving force behind the burgeoning agriculture genomics market, resonating globally due to several factors. With the world's population projected to surpass 9 billion by 2050, there is an urgent need to enhance agricultural productivity to ensure food security. Climate change-induced uncertainties further amplify this imperative, as extreme weather events and shifting environmental conditions pose challenges to traditional farming practices. Agriculture genomics offers a promising solution by unlocking the genetic potential of crops, enabling the development of varieties with improved yield, resilience to biotic and abiotic stresses, and enhanced nutritional profiles. This demand transcends geographical boundaries, as both developed and developing nations seek sustainable agricultural solutions to meet the growing food demands of their populations. Consequently, the quest for increased crop yield drives the adoption of genomics technologies worldwide, underscoring its significance in shaping the future of agriculture.
Advancements in genomic technologies are poised to propel substantial growth within the agriculture genomics market. The relentless evolution of technologies like Next Generation Sequencing (NGS), microarrays, and high-throughput genotyping is revolutionizing agricultural research and development. These innovations offer unprecedented speed, accuracy, and cost-effectiveness in deciphering the genetic blueprints of crops, livestock, and microorganisms. NGS, in particular, has emerged as a game-changer, enabling researchers to sequence entire genomes rapidly and analyze complex genetic variations with unparalleled precision. Microarray technologies facilitate the simultaneous analysis of thousands of genetic markers, expediting trait mapping and breeding program optimization. Such technological breakthroughs not only streamline the discovery of novel genetic traits but also enhance the efficiency of marker-assisted selection and genomic-assisted breeding programs. As these technologies become more accessible and affordable, their widespread adoption is expected to catalyze market growth, driving innovation and propelling the agricultural industry towards greater sustainability and productivity.
Ethical and societal concerns pose significant challenges that can limit the sales and adoption of agricultural genomics products. Public apprehension and ethical debates surrounding genetically modified organisms (GMOs) and genetically engineered products often translate into consumer resistance and market skepticism. Concerns about environmental impacts, biodiversity loss, and potential health risks associated with GMOs can dampen consumer confidence and influence purchasing decisions. Moreover, ethical considerations related to animal welfare, genetic manipulation, and the commodification of living organisms further complicate market acceptance. Addressing these concerns requires transparent communication, robust risk assessment frameworks, and proactive engagement with stakeholders to build trust and foster dialogue. Failure to effectively navigate ethical and societal considerations can impede market growth, limit product uptake, and undermine the long-term sustainability of agriculture genomics initiatives.
The COVID-19 pandemic has had a notable negative impact on the agriculture genomics market, disrupting supply chains, research activities, and market dynamics. Restrictions on movement and social distancing measures have impeded field trials, laboratory experiments, and data collection efforts, delaying research projects and product development timelines. Additionally, the economic downturn resulting from the pandemic has led to budget cuts and reduced funding for agricultural research and development initiatives, constraining investment in genomics technologies and innovation. Supply chain disruptions have hindered the procurement of essential reagents, equipment, and consumables, exacerbating operational challenges for laboratories and research institutions. Moreover, market uncertainties and decreased consumer spending have dampened demand for agricultural genomics products and services, leading to decreased sales and revenue for industry players. Overall, the COVID-19 pandemic has created significant obstacles for the agriculture genomics market, hindering its growth trajectory and impeding progress in genetic research and innovation.
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The competitive landscape of the agriculture genomics market is characterized by intense rivalry among key players striving to innovate and expand their market presence. Companies vie for market share through the development of advanced genomic technologies, strategic partnerships, and acquisitions. Additionally, a diverse array of startups and research institutions contribute to the competitive dynamics by introducing novel solutions and driving innovation. This competitive environment fosters continuous advancements in genomics technologies and enhances the range of offerings available to agricultural stakeholders.
Top Companies Market Share in Agriculture Genomics Industry: (In no particular order of Rank)
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According to Cognitive Market Research, North America dominated the market in 2024 and accounted for around 40% of the global revenue due to several factors. Firstly, the region boasts advanced agricultural research infrastructure and significant investments in genomic technologies. Secondly, a strong emphasis on biotechnology and innovation drives adoption rates among farmers and agribusinesses. Additionally, favorable government policies and regulatory frameworks support the development and commercialization of genetically modified crops. Moreover, increasing awareness of sustainability and food security drives demand for genomics-based solutions to enhance crop productivity and resilience.
Asia-Pacific stands out as the fastest-growing region in the agriculture genomics market fueled by various factors. Firstly, rapid population growth and urbanization intensify pressure on agricultural productivity and food supply chains, driving demand for advanced genomics technologies. Secondly, increasing adoption of precision agriculture practices, particularly in countries like China and India, boosts the uptake of genomics solutions for crop improvement and resource optimization. Additionally, government initiatives promoting biotechnology research and innovation contribute to market expansion.
The current report Scope analyzes Agriculture Genomics Market on 5 major region Split (In case you wish to acquire a specific region edition (more granular data) or any country Edition data then please write us on info@cognitivemarketresearch.com
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Global Agriculture Genomics Market Report 2024 Edition talks about crucial market insights with the help of segments and sub-segments analysis. In this section, we reveal an in-depth analysis of the key factors influencing Agriculture Genomics Industry growth. Agriculture Genomics market has been segmented with the help of its Type, Technology Application, and others. Agriculture Genomics market analysis helps to understand key industry segments, and their global, regional, and country-level insights. Furthermore, this analysis also provides information pertaining to segments that are going to be most lucrative in the near future and their expected growth rate and future market opportunities. The report also provides detailed insights into factors responsible for the positive or negative growth of each industry segment.
According to Cognitive Market Research, Illumina HiSeq stands out as the dominating category due to its widespread adoption across research institutions and agricultural enterprises, offering high-throughput sequencing capabilities at a competitive cost. Additionally, continuous advancements in Illumina's technology portfolio enhance sequencing accuracy and efficiency, attracting customers seeking reliable and scalable genomics solutions. Furthermore, the versatility of Illumina HiSeq platforms facilitates a wide range of applications, from whole-genome sequencing to targeted genotyping, driving sustained demand and market leadership.
PacBio sequencer emerges as the fastest-growing category in the agriculture genomics market due to its unique long-read sequencing capabilities, enabling comprehensive genome analysis and structural variant detection. Researchers and breeders increasingly rely on PacBio technology to unravel complex genetic architectures and accurately characterize genomic variations in crops and livestock. Moreover, PacBio's continuous innovation in sequencing chemistry and platform improvements enhances data accuracy and reduces sequencing costs, making it an attractive choice for genomics applications requiring high-resolution insights.
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According to Cognitive Market Research, the dominating category is next generation sequencing due to its versatility and scalability, allowing researchers to analyze large genomic datasets with unprecedented speed and accuracy. Additionally, declining sequencing costs and streamlined workflows make NGS more accessible to a broader range of users, driving adoption across research institutions and commercial laboratories. Moreover, ongoing advancements in NGS technology, such as improved read lengths and sequencing chemistries, enhance its utility for diverse genomics applications, including whole-genome sequencing, transcriptomics, and epigenetics analysis.
The fastest-growing category in the agriculture genomics market is microarrays propelled by several factors. Firstly, microarray platforms offer high-throughput capabilities, allowing simultaneous analysis of thousands of genetic markers, making them ideal for large-scale genotyping and gene expression studies. Secondly, microarrays provide cost-effective solutions for genomics research compared to whole-genome sequencing, particularly for applications requiring targeted genomic profiling. Additionally, advancements in microarray technology, such as increased marker density and multiplexing capabilities, expand their utility for diverse agricultural applications, driving market demand and adoption.
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According to Cognitive Market Research, the dominating category is crops due to various factors. Firstly, the rising global population necessitates higher agricultural productivity to meet food demands, driving demand for genetically improved crop varieties. Secondly, advancements in crop genomics enable the development of resilient cultivars with enhanced yield potential, disease resistance, and stress tolerance, appealing to farmers seeking sustainable farming solutions. Additionally, increasing adoption of precision agriculture practices and climate-smart farming techniques further drives demand for crop genomics technologies to optimize cultivation strategies and maximize yields.
The fastest-growing category in the agriculture genomics market is livestock fueled by several factors. Firstly, growing demand for animal protein, dairy, and other livestock products drives investments in genetic improvement programs to enhance productivity and quality traits. Secondly, rising concerns about zoonotic diseases and animal welfare issues underscore the importance of genomic tools for disease resistance breeding and health management in livestock populations. Additionally, advancements in genomic selection methods and breeding technologies enable faster and more precise genetic gains, attracting livestock producers looking to optimize breeding outcomes and profitability.
According to Cognitive Market Research, the dominating category is genotyping due to several factors. Firstly, genotyping plays a crucial role in crop and livestock breeding programs by facilitating the identification of desirable genetic traits and markers associated with key agronomic traits. Secondly, advancements in genotyping technologies, such as high-throughput SNP arrays and genotyping-by-sequencing (GBS), enhance the speed and accuracy of genetic marker discovery and characterization. Additionally, the growing adoption of marker-assisted selection (MAS) and genomic selection strategies in breeding programs drives demand for genotyping services to accelerate genetic improvement and breeding progress.
The fastest-growing category in the agriculture genomics market is gene expression analysis driven by various factors. Firstly, understanding gene expression patterns provides valuable insights into the molecular mechanisms underlying complex traits and biological processes in crops and livestock. Secondly, advancements in transcriptomic technologies, such as RNA sequencing (RNA-seq) and microarrays, enable comprehensive profiling of gene expression across different tissues, developmental stages, and environmental conditions. Additionally, gene expression analysis facilitates the discovery of novel regulatory networks, biomarkers, and candidate genes for trait improvement and biotechnological applications, fueling demand for gene expression analysis services in agricultural research and breeding programs.
Senior Research Associate at Cognitive Market Research
Manjiri Kanhere is an experienced market researcher focused on the Pharma & Healthcare industry. With over 3+ years of experience, She has worked with major pharmaceutical companies and healthcare providers, helping them to understand market trends, identify new business opportunities, and develop effective sales & marketing strategies. Her expertise lies in the ability to analyze complex data sets and deliver insights that drive business decisions. At Cognitive Market Research, she handles the market research related to Pharma and healthcare industry.
Manjiri Kanhere is an experienced market researcher focused on the Pharma & Healthcare industry. With over three years of experience, She has worked with major pharmaceutical companies and healthcare providers, helping them to understand market trends, identify new business opportunities, and develop effective sales & marketing strategies.
In her current role, Manjiri handles the market research related to Pharma and healthcare industry. Her passion lies in utilizing innovative approaches to distill complex information into strategic insights that empower organizations to make informed decisions.Manjiri remains an invaluable asset in the dynamic landscape of market research.
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The Global Agriculture Genomics Market is witnessing significant growth in the near future.
In 2023, the Illumina HiSeq segment accounted for noticeable share of global Agriculture Genomics Market and is projected to experience significant growth in the near future.
The Real-Time PCR (qPCR) segment is expected to expand at the significant CAGR retaining position throughout the forecast period.
Some of the key companies Thermo Fisher Scientific , Agilent Technologies and others are focusing on its strategy building model to strengthen its product portfolio and expand its business in the global market.
Please note, we have not disclose, all the sources consulted/referred during a market study due to confidentiality and paid service concern. However, rest assured that upon purchasing the service or paid report version, we will release the comprehensive list of sources along with the complete report and we also provide the data support where you can intract with the team of analysts who worked on the report.
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Type | Illumina HiSeq, Sanger Sequencer, PacBio Sequencer, SOLiD Sequencer, Others |
Technology | Real-Time PCR (qPCR), Microarrays, Next Generation Sequencing, Capillary Electrophoresis, Other Technologies |
Application | Crops, Livestock |
Service Offerings | Genotyping, DNA Fingerprinting, Assessment of Genetic Purity, Trait Purity Assessment, Gene Expression Analysis, Other Service Offerings |
List of Competitors | Thermo Fisher Scientific, Inc., Agilent Technologies, Inc., Illumina, Inc., Eurofins Scientific SE, LGC Limited |
This chapter will help you gain GLOBAL Market Analysis of Agriculture Genomics. Further deep in this chapter, you will be able to review Global Agriculture Genomics Market Split by various segments and Geographical Split.
Chapter 1 Global Market Analysis
Global Market has been segmented on the basis 5 major regions such as North America, Europe, Asia-Pacific, Middle East & Africa, and Latin America.
You can purchase only the Executive Summary of Global Market (2019 vs 2024 vs 2031)
Global Market Dynamics, Trends, Drivers, Restraints, Opportunities, Only Pointers will be deliverable
This chapter will help you gain North America Market Analysis of Agriculture Genomics. Further deep in this chapter, you will be able to review North America Agriculture Genomics Market Split by various segments and Country Split.
Chapter 2 North America Market Analysis
This chapter will help you gain Europe Market Analysis of Agriculture Genomics. Further deep in this chapter, you will be able to review Europe Agriculture Genomics Market Split by various segments and Country Split.
Chapter 3 Europe Market Analysis
This chapter will help you gain Asia Pacific Market Analysis of Agriculture Genomics. Further deep in this chapter, you will be able to review Asia Pacific Agriculture Genomics Market Split by various segments and Country Split.
Chapter 4 Asia Pacific Market Analysis
This chapter will help you gain South America Market Analysis of Agriculture Genomics. Further deep in this chapter, you will be able to review South America Agriculture Genomics Market Split by various segments and Country Split.
Chapter 5 South America Market Analysis
This chapter will help you gain Middle East and Africa Market Analysis of Agriculture Genomics. Further deep in this chapter, you will be able to review Middle East and Africa Agriculture Genomics Market Split by various segments and Country Split.
Chapter 6 Middle East and Africa Market Analysis
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Chapter 7 Top 10 Countries Analysis (Only Available with Corporate User License)
This chapter provides an in-depth analysis of the market share among key competitors of Agriculture Genomics. The analysis highlights each competitor's position in the market, growth trends, and financial performance, offering insights into competitive dynamics, and emerging players.
Chapter 8 Competitor Analysis (Subject to Data Availability (Private Players))
(Subject to Data Availability (Private Players))
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
Data Subject to Availability as we consider Top competitors and their market share will be delivered.
This chapter would comprehensively cover market drivers, trends, restraints, opportunities, and various in-depth analyses like industrial chain, PESTEL, Porter’s Five Forces, and ESG, among others. It would also include product life cycle, technological advancements, and patent insights.
Chapter 9 Qualitative Analysis (Subject to Data Availability)
Segmentation Type Analysis 2019 -2031, will provide market size split by Type. This Information is provided at Global Level, Regional Level and Top Countries Level The report with the segmentation perspective mentioned under this chapters will be delivered to you On Demand. So please let us know if you would like to receive this additional data as well. No additional cost will be applicable for the same.
Chapter 10 Market Split by Type Analysis 2019 -2031
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Chapter 11 Market Split by Technology Analysis 2019 -2031
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Chapter 12 Market Split by Application Analysis 2019 -2031
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Chapter 13 Market Split by Service Offerings Analysis 2019 -2031
This chapter helps you understand the Key Takeaways and Analyst Point of View of the global Agriculture Genomics market
Chapter 14 Research Findings
Here the analyst will summarize the content of entire report and will share his view point on the current industry scenario and how the market is expected to perform in the near future. The points shared by the analyst are based on his/her detailed in-depth understanding of the market during the course of this report study. You will be provided exclusive rights to interact with the concerned analyst for unlimited time pre purchase as well as post purchase of the report.
Why Illumina HiSeq have a significant impact on Agriculture Genomics market? |
What are the key factors affecting the Illumina HiSeq and Sanger Sequencer of Agriculture Genomics Market? |
What is the CAGR/Growth Rate of Real-Time PCR (qPCR) during the forecast period? |
By type, which segment accounted for largest share of the global Agriculture Genomics Market? |
Which region is expected to dominate the global Agriculture Genomics Market within the forecast period? |
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