Agrigenomics Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Purpose (DNA Extraction & Purification, DNA/RNA Sequencing, Genotyping, Gene Expression Profiling, GMO/Trait Purity Testing, Others), By Sequencer Type (Sanger Sequencing, Pacbio Sequencers, Solid Sequencers, Illumina HI SEQ Family, Others), By Application (Livestock and Crops), By Region and Competi
Published Date: June - 2024 | Publisher: MIR | No of Pages: 320 | Industry: Agriculture | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request CustomizationAgrigenomics Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Purpose (DNA Extraction & Purification, DNA/RNA Sequencing, Genotyping, Gene Expression Profiling, GMO/Trait Purity Testing, Others), By Sequencer Type (Sanger Sequencing, Pacbio Sequencers, Solid Sequencers, Illumina HI SEQ Family, Others), By Application (Livestock and Crops), By Region and Competi
| Forecast Period | 2024-2028 |
| Market Size (2022) | USD 3.75 Billion |
| CAGR (2023-2028) | 8.68% |
| Fastest Growing Segment | DNA/RNA Sequencing |
| Largest Market | North America |
Market Overview
Global Agrigenomics Market has valued at USD 3.75 Billion in 2022 and is anticipated to project impressive growth in the forecast period with a CAGR of 8.68% through 2028. Agriculture has been instrumental in sustaining and improving human life for thousands of years. However, with a changing environment and a rapidly increasing population, there is a growing demand for more efficient and sustainable farming practices. Agricultural genomics, also known as Agrigenomics, is the application of genomics in agriculture. It plays a crucial role in driving sustainable productivity and addressing the challenges of feeding the expanding global population.
Through the use of advanced technology, farmers, researchers, and breeders can easily identify genetic markers associated with desirable traits. This information informs important decisions related to cultivation and breeding, ultimately benefiting farming practices. Agrigenomics finds applications in various platforms, including Plant and Animal Genomics, Commercial Agriculture, Agriculture Consortia, and Agricultural Community. It empowers commercial agriculture with applications such as trait screening, marker-assisted backcrossing, and parentage testing. Additionally, Agrigenomics aids in enhancing plant adaptation to environmental stresses through genetically-based programs, leading to improved crop production and sustainable growth in agriculture while preserving the ecological foundation of plant production.
Key Market Drivers
Growing Demand for Crop & Livestock
The global agrigenomics market is projected to witness significant growth, primarily driven by the increasing demand for crop and livestock. As the world's population continues to expand, the necessity for larger food production is more urgent than ever, and this is where agrigenomics comes in. Agrigenomics, the application of genomics in agriculture, enables breeders to produce high-yielding and disease-resistant varieties faster and more efficiently. This is crucial in the current scenario where the agricultural sector faces challenges such as changing climate conditions, pests, and disease outbreak. Similarly, in livestock production, agrigenomics plays an indispensable role by identifying and propagating desirable traits, thereby improving the quality and quantity of meat or dairy products. Given the aforementioned factors, the global demand for agrigenomics is expected to surge. The need for sustainable and efficient farming practices to meet the rising demand for food presents immense growth opportunities for the agrigenomics market worldwide. High-throughput sequencing technologies and bioinformatics are expected to further fuel this demand, offering innovative, cost-effective, and time-saving solutions to meet the growing needs for food and nutritional security.
Exponential Increase in The World Population
The exponential increase in the global population presents significant challenges, particularly in terms of food security, necessitating a proportionate rise in agricultural productivity. Agrigenomics, the application of genomics in agriculture, is anticipated to play a pivotal role in answering this demand. As the population swells, the strain on agricultural resources escalates, making the optimization of existing farming practices imperative. Agrigenomics provides the tools to enhance crop yields and resistance to pests, diseases, and adverse environmental conditions. By enabling the precise breeding of crops and livestock, agrigenomics offers the potential to augment food production significantly, whilst ensuring the sustainability of resources. Additionally, the increased adoption of genomics-based technologies in developing countries, driven by the pressing need to secure their food supply, is expected to further drive the growth of the global agrigenomics market. Moreover, as consumer awareness regarding the significance of genetically modified organisms (GMOs) in ensuring food security increases, it is likely to contribute to the demand for agrigenomics. Thus, as the world population continues its exponential ascent, the demand for agrigenomics is set to increase correspondingly, shaping the future of global agriculture.
Growing Demand for Genomic Databases by Livestock Breeders
The burgeoning demand for genomic databases by livestock breeders is poised to propel the global agrigenomics market forward significantly. As breeders appreciate the power of genomics and its capacity to enhance livestock quality, productivity, and health, the demand for genomic data has surged. Agrigenomics, the application of genomics in agriculture, offers breeders a detailed genetic map, allowing them to select and breed animals with desirable traits more accurately. This not only leads to improved livestock quality but also bolsters the efficiency and profitability of breeding operations. The ability to prevent diseases, increase meat quality, and boost milk production capacity are some of the benefits driving breeders to invest in genomic databases. As the livestock industry increasingly adopts this technology, the global demand for agrigenomics is expected to rise. Additionally, the advent of innovative technologies such as next-generation sequencing (NGS) and CRISPR is likely to further amplify this growth. Consequently, the agrigenomics market is well-positioned to experience robust expansion in the coming years, driven by breeders' growing reliance on genomic databases.
Technological Advancements in Sequencers Technology
Agrigenomics, the application of genomics in agriculture, is poised to experience a surge in demand on a global scale, largely driven by advancements in sequencer technology. High-throughput sequencers, for instance, have made genomic data more accessible and affordable than ever before. These devices can generate enormous volumes of data in a short span, enabling researchers to gain in-depth insights into plant and animal genomes. This, in turn, aids in the development of crops with improved resistance to diseases and pests, as well as livestock breeds with enhanced productivity and resilience. Moreover, the advent of portable sequencers has made on-site genomic analysis feasible, further accelerating research and decision-making processes. As the world grapples with the challenge of feeding an ever-growing population, these technological enhancements in sequencer technology provide an effective solution. They facilitate the creation of sustainable and efficient agricultural systems capable of meeting the escalating food demand without depleting resources. With such benefits, the demand for agrigenomics, fueled by advancements in sequencing technology, is anticipated to skyrocket worldwide.
Key Market Challenges
High Cost Associated with Devices
High costs associated with agrigenomic devices are expected to pose a significant hurdle to the global adoption and growth of this market. As the technology is still in its developmental stages, the devices required for genetic modification and analysis in agriculture are priced exorbitantly. These high costs may deter small and mid-size farmers, particularly in developing regions, from adopting these advanced technologies, thus restricting the growth of the global agrigenomics market. Furthermore, even though agrigenomics holds the potential for significant yield improvements and efficient disease management, the immediate financial burden of these devices may overshadow their long-term benefits. In regions where agriculture is largely subsistence-based, the financial inability to procure such expensive equipment could potentially result in a slower adoption rate of agrigenomics. Therefore, while agrigenomics promises a revolutionary impact on agriculture, the high costs associated with the prerequisite devices may decrease its global demand. This underscores the need for efforts aimed at cost reduction and the development of affordable devices to ensure the broad accessibility of agrigenomic technology.
Stringency In the Regulation
The global agrigenomics sector, which applies genomic technologies to enhance agricultural productivity, is expected to experience a decline in demand due to the increasing regulatory stringency observed worldwide. Regulatory bodies are implementing stricter rules and guidelines to ensure the safety and ethical implications of genetically modified organisms (GMOs) and other genomic applications in agriculture. These stringent regulations can have a significant impact on the research, development, and adoption of agrigenomics solutions as they require additional time and resources to obtain necessary clearances.
Furthermore, non-compliance with these regulations can result in hefty fines and legal actions, potentially damaging the reputation of agrigenomics companies. The perceived alteration of natural food systems associated with these genomic technologies also fuels public controversy, creating an added layer of challenge for the sector. Despite the immense potential of agrigenomics to revolutionize food production, the combination of stringent regulatory requirements and societal concerns may significantly dampen the global demand for agrigenomics solutions in the years to come.
Key Market Trends
Growing Adoption of Various Sequencing Techniques
The global agrigenomics sector is poised to experience a surge in demand, driven primarily by the increasing adoption of various sequencing techniques. These methodologies, ranging from Whole Genome Sequencing (WGS) to Targeted Sequencing, offer agricultural scientists unprecedented insights into crop and livestock genomes. By analyzing genetic data, researchers can uncover traits that influence yield, resistance to disease, and adaptation to climatic conditions, paving the way for the development of enhanced plant and animal varieties. As the world grapples with climate change and a growing population, the importance of efficient, sustainable agriculture cannot be overstated. Consequently, the potential of sequencing technologies to boost crop productivity and livestock health is resonating with stakeholders globally, driving investment and interest in agrigenomics. Furthermore, decreasing sequencing costs and advancements in bioinformatics are making these powerful tools more accessible to scientists worldwide. This democratization of genomics promises to catalyze innovation in the agricultural sector, further spurring global demand for agrigenomics.
Growing Presence of The Biotechnological Industry Across The Globe
The burgeoning presence of the biotechnological industry on a global scale is expected to fuel an increased demand for agrigenomics. As the world grapples with burgeoning populations and escalating food demand, advancements in biotechnology have presented a solution in the form of agrigenomics. This scientific discipline uses genomics, the study of an organism's entire genetic makeup, to improve the yield, nutrition, and resistance of crops. Through the manipulation of genetic structures, crops can be enhanced to withstand harsh environmental conditions, resist diseases, and increase productivity, thereby addressing the global food shortage problem. Furthermore, the biotechnological industry's expansion is creating a network of resources, innovative tools, as well as a pool of skilled workforce that is augmenting the development and application of agrigenomics. The increasing investment in biotechnological research and the growing understanding of genomics will further drive agrigenomics adoption. As more countries embrace biotechnology, the demand for agrigenomics is set to escalate, contributing significantly to the global effort to ensure food security and sustainable agriculture.
Segmental Insights
Purpose Insights
Based on the Purpose, the Global Agrigenomics Market is currently dominated by DNA/RNA Sequencing, a powerful technique in genetic research. With advancements in agriculture, DNA/RNA Sequencing has gained increasing importance due to its ability to provide a comprehensive understanding of the genetic makeup of crops, livestock, and pathogens. This in-depth knowledge allows researchers and scientists to develop targeted strategies for enhancing crop yield, improving disease resistance, and boosting overall agricultural productivity. By harnessing the potential of DNA/RNA Sequencing, we can unlock a world of possibilities in the field of agrigenomics, revolutionizing the way we approach agriculture and ensuring a sustainable future for our food systems.
Application Insights
Based on the Application, the global agrigenomics market is currently undergoing a significant shift, with notable implications for both the livestock and crops sectors. However, it is worth mentioning that the crop sector has emerged as the dominant force in this evolving landscape. This can be attributed to the crucial role of crop genetics in not only ensuring food security but also in facilitating adaptation to climate change and meeting the ever-increasing demand for biofuel production on a global scale. With advancements in agrigenomics, researchers and scientists are exploring innovative approaches to improve crop yields, develop resilient varieties, and address the challenges posed by environmental factors. The continuous exploration of crop genetics in the context of agrigenomics is thus poised to shape the future of agriculture and contribute to sustainable food production.
Regional Insights
Recent Developments
- February 2023Tecan
entered into a collaboration with Singular Genomics, leveraging the turnkey
MagicPrep NGS system to generate sequencing-ready libraries for the G4
sequencing platform. This agreement combines Tecan's expertise in laboratory
automation, genomics, and bioinformatics with Singular Genomics' rapid,
adaptable, and highly accurate sequencing technology, streamlining laboratory
operations.
- February 2021Thermo Fisher Scientific Inc.
completed the acquisition of a cell sorting technology from Propel Labs, a
fully owned subsidiary of SIDIS Group. Thermo Fisher aims to enhance its cell
analysis and cell therapy research business by integrating flow cytometry
expertise, R&D capabilities, and engineering strength.
Key Market Players
- Illumina, Inc.
- Thermo Fischer Scientific, Inc.
- Agilent Technologies, Inc.
- Eurofins Scientific SE
- LGC Limited
- Tecan Genomics, Inc.
- Neogen Corporation
- Galseq Srl Via Italia
- Biogenetic Services' Inc.
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