Plant Genomics Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Type (Molecular Engineering, Genetic Engineering, Others), By Trait (Yield Improvement, Disease Resistance, Herbicide Tolerance, Others), By Objective (DNA Extraction & Purification, DNA/RNA Sequencing, Genotyping, GENE Expression Profiling, Marker-Assisted Selection, Others), By Application (Cerea
Published Date: February - 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 CustomizationPlant Genomics Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Type (Molecular Engineering, Genetic Engineering, Others), By Trait (Yield Improvement, Disease Resistance, Herbicide Tolerance, Others), By Objective (DNA Extraction & Purification, DNA/RNA Sequencing, Genotyping, GENE Expression Profiling, Marker-Assisted Selection, Others), By Application (Cerea
| Forecast Period | 2024-2028 |
| Market Size (2022) | USD 7.68 Billion |
| CAGR (2023-2028) | 8.26% |
| Fastest Growing Segment | Genetic Engineering |
| Largest Market | Asia Pacific |
Market Overview
Global Plant Genomics Market has valued at USD 7.68 Billion in 2022 and is anticipated to project impressive growth in the forecast period with a CAGR of 8.26% through 2028. Plant genomics encompasses various genetic manipulation methods utilized to enhance plant quality and investigate how the genetic composition of plants influences plant breeding. Advancements in plant genomics have facilitated improved crop protection by preventing mycotoxin contamination and enhancing crop resilience to extreme temperatures. The availability of faster-growing plants contributes to food security and ensures the availability of vital nutrients in the market. Furthermore, plant genomics plays a pivotal role in mitigating disease spread through the development of genetically modified crops. Molecular diagnostics, molecular markers, genetic engineering, tissue culture, and the utilization of beneficial microbes are key areas of genomics employed to enhance crop quality.
Key Market Drivers
Increasing Application of Genomics in Plant Breeding
The increasing application of genomics in plant breeding is projected to propel the global demand for plant genomics. As population growth continues, the pressure to meet the rising food demands has intensified. Plant genomics, with its capability to perform genetic modifications, promises to address this challenge by enhancing crop yield and resilience. The use of genomic technologies allows breeders to identify specific genetic traits, such as drought resistance or disease immunity, accelerating the breeding process and ensuring the production of hardier, more productive crop varieties. Moreover, genomics contributes to sustainability in farming by reducing the need for chemical inputs and improving crop diversity. In developing nations, where agriculture forms a significant part of the economy, genomics aids in fortifying food security and reducing poverty. Furthermore, the rise in private and public funding for research in plant genomics is also a driving factor for global demand. However, the potential of plant genomics extends beyond agriculture, with applications in biofuels, pharmaceuticals, and other industrial sectors. Therefore, as the application of genomics in plant breeding broadens, it is expected to significantly boost the global demand for plant genomics.
Rising Funds for Agricultural Development
The global demand for plant genomics is projected to surge significantly, primarily driven by rising funds for agricultural development. As nations worldwide recognize the critical role of agriculture in food security and economic growth, there is an increasing trend towards substantial investments in agricultural research and development. Particularly, plant genomics, a scientific discipline focusing on the study of all aspects of plant genes, is receiving notable attention. The field contributes immensely to achieving higher crop yield, enhancing nutritional value, and improving resistance to diseases and pests. Furthermore, it allows for the development of plant varieties adapted to specific climate conditions, which is vital in the face of climate change. The mounting funds towards these areas of study are anticipated to fuel the global demand for plant genomics. Additionally, the ongoing technological advancements in genetic sequencing and bioinformatics are further projected to bolster the market growth. These investments serve as an enabler to unlock the potential of plant genomics, thereby fostering innovation, increasing productivity, and ultimately leading to agricultural sustainability on a global scale.
Rapidly Expanding Global Population
The rapid expansion of the global population is set to fuel an unprecedented demand for plant genomics across the world. This growth, coupled with the escalating need for sustainable agricultural practices, is projected to be a major driving force in the field of plant genomics. Plant genomics, the branch of molecular biology concerned with the genetic constitution of plant species, plays a pivotal role in understanding plant growth, development, and response to environmental factors. It holds the potential to revolutionize the agricultural sector by enhancing crop yield and resilience, thereby meeting the burgeoning global food demand. Moreover, plant genomics aids in the development of drought-tolerant, disease-resistant, and high-nutrition crop varieties, pivotal in the face of climate change and dwindling resources. Additionally, in the biofuel industry, plant genomics can facilitate the development of plant varieties with higher biomass yield and improved conversion efficiency. As the global population swells and the demand for sustainability surges, plant genomics is expected to take centre stage in quest for food security and environmental sustainability.
Growing Global Demand for Fruits & Vegetables
The burgeoning global demand for fruits and vegetables is anticipated to fuel the growth of the plant genomics sector across the world. As the world's population continues to grow, so does the demand for nutritious, high-quality produce. With an increasing emphasis on healthy eating and sustainable agriculture, there is a significant push towards developing methods that can enhance the quality and yield of crops. Plant genomics, the study of the genetic structures of plants, plays a pivotal role in this scenario. By understanding the genetic makeup of various plant species, scientists can identify ways to improve disease resistance, enhance nutritional value, and increase yield, thereby meeting the rising global demand for fresh produce. Furthermore, plant genomics can contribute to sustainable farming practices by aiding in the development of crop varieties that require less water, fertilizer, and pesticides, which is increasingly important in a world grappling with climate change and environmental degradation. Therefore, the growing worldwide need for fruits and vegetables is expected to be a major driver for the expansion of the plant genomics market.
Key Market Challenges
High Cost of Plant Genomics
High costs associated with plant genomics have been a major barrier to its comprehensive adoption globally. The extensive financial resources required for sophisticated genomic sequencing technologies, high-throughput systems, and the hiring of specialized staff have confined the use of plant genomics primarily to well-funded research institutions in developed nations. This considerable financial investment has been a deterrent for developing countries with constrained budgets, hampering the growth of plant genomics worldwide. In the face of such exorbitant costs, many potential beneficiaries, particularly in resource-poor settings, are discouraged from investing in plant genomics, which diminishes global demand. The high costs of plant genomics not only impede the acquisition of necessary equipment and expertise but also hinder the application of genomic findings in crop improvement strategies. Consequently, these steep costs are expected to decrease the global demand for plant genomics, as many potential adopters are forced to seek more cost-effective alternatives.
Hazardous Effects of GMO Products
The global demand for Plant Genomics is anticipated to decrease due to the hazardous effects of GMO (Genetically Modified Organisms) products. GMOs, which are a product of Plant Genomics, have been the subject of intense debate owing to emerging health and environmental concerns. Numerous studies have linked GMO consumption to health risks, including allergic reactions, antibiotic resistance, and even cancer, raising alarm bells among consumers and health experts alike. Moreover, the environmental impact of GMOs cannot be overlooked, as they have been associated with the loss of biodiversity and the emergence of 'superweeds' and 'superbugs', posing challenges to ecosystems worldwide. The adverse publicity surrounding GMOs has led to a notable shift in consumer preference towards organic and non-GMO products, prompting various food industries and agricultural sectors to reevaluate their stance on the utilization of Plant Genomics. Unless adequate measures are taken to address these issues and regain public trust, the market for Plant Genomics could experience a significant decline in the near future. It is crucial for stakeholders to engage in transparent communication, rigorous safety assessments, and sustainable practices to ensure the responsible and ethical development of Plant Genomics, fostering a more sustainable and secure future for agriculture and food production.
Key Market Trends
Adoption of Next-Generation Sequencing Technologies
The burgeoning adoption of Next-Generation Sequencing (NGS) technologies heralds a bright future for the global landscape of Plant Genomics. NGS technologies, with their ability to sequence DNA and RNA much more rapidly and affordably than ever before, present unprecedented opportunities for comprehensive plant genome studies. This, in turn, is anticipated to boost the global demand for Plant Genomics. Greater knowledge of plant genomes can lead to significant advancements in agriculture, particularly in the development of disease-resistant and high-yield crops. Furthermore, NGS technologies may bring forth new understanding on plant evolution and adaptation, potentially revolutionizing conservation efforts for various plant species worldwide. Lastly, the enhanced precision and efficiency of NGS technologies facilitate more accurate and swift data analysis, thereby accelerating research in biofuels, medicine, and other plant-derived products. Hence, embracing NGS technologies opens up a realm of possibilities in Plant Genomics, predicting a surge in its global demand.
High Adoption of Next-Generation Sequencing Technologies
The increasing adoption of next-generation sequencing technologies is poised to significantly propel the global demand for plant genomics. These cutting-edge technologies provide deeper insights into plant genomes, accelerating the pace of research and development in this scientific field. They enable scientists to decode complex genetic structures and unravel key genetic variations responsible for specific plant traits. This has far-reaching implications in agriculture, as the detailed genetic understanding can help in breeding new plant varieties with desired traits such as drought resistance, pest resistance, and enhanced nutritional value. Furthermore, these technologies are becoming more accessible and cost-effective, which encourages their widespread use in plant genomic studies across the globe. As a result, a surge in demand for plant genomics is expected worldwide, with scientists increasingly turning to these advanced sequencing technologies to drive their research and meet the global challenges of sustainable food production and agricultural resilience in the face of climate change.
Segmental Insights
Type Insights
Based on the Type, Genetic Engineering is currently dominating the Global Plant Genomics Market. This rapidly growing field has made significant strides in recent years due to its remarkable ability to enhance crop yield, improve nutritional value, and foster resistance against pests and diseases. By leveraging cutting-edge techniques and technologies, Genetic Engineering offers promising solutions to the pressing issue of food scarcity worldwide. Through precise manipulation of plant genomes, scientists can develop crops that are more resilient, nutritious, and productive, ultimately contributing to a more sustainable and food-secure future. With its immense potential and transformative impact, Genetic Engineering has emerged as a vital player in the field of plant genomics, revolutionizing the way we approach agriculture and addressing the challenges of our ever-growing global population.
Application Insights
Based on the Application, the Fruits & Vegetables segment is currently dominating the Global Plant Genomics Market. The demand for nutritious, fresh, and safe fruits and vegetables is driving the market, as consumers are becoming increasingly health-conscious and aware of the benefits of a plant-based diet. Moreover, the rising global population and the need to feed more people have resulted in the increasing adoption of modern agricultural practices, such as precision farming and genetic engineering. Researchers are leveraging plant genomics to unlock the full potential of fruits and vegetables. By studying the genetic makeup of different crops, they are able to identify genes responsible for desirable traits like increased yield, improved taste, and enhanced nutritional qualities. This knowledge enables scientists to develop new varieties of fruits and vegetables that are not only more productive but also more resilient to diseases, pests, and environmental stresses.
As a result of these advancements, the Fruits & Vegetables segment has emerged as a significant contributor to the growth of the Global Plant Genomics Market. The continuous efforts in research and development are driving innovation in this segment, leading to the introduction of novel varieties that cater to the evolving consumer preferences and market demands. With the increasing focus on sustainability and the need to ensure food security, plant genomics plays a vital role in shaping the future of agriculture and meeting the global demand for high-quality fruits and vegetables.
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Regional Insights
The Asia Pacific market revenue is projected to witness a significant expansion at a robust compound annual growth rate (CAGR) over the forecast period. This growth can be attributed to several factors that contribute to the region's agricultural sector. Firstly, the region has been experiencing a rapid growth in its agricultural industry, which has led to an increased demand for top-quality crops and food products. Moreover, the presence of a large consumer base in the Asia Pacific region further drives the demand for these high-quality agricultural products.
Furthermore, the Asia Pacific market is witnessing a rapid adoption of advanced agricultural technologies. This adoption is primarily driven by the need to improve the efficiency and productivity of agricultural practices in the region. Additionally, there has been an increasing focus on genomic research-based activities, which further enhances the region's agricultural capabilities. This, coupled with the improving research infrastructure and facilities, creates a conducive environment for agricultural development in the Asia Pacific market. Moreover, there is a heightened emphasis on improving soil and crop quality in the region. Governments and private organizations are actively investing funds to support initiatives aimed at enhancing the agricultural sector's productivity and sustainability. These efforts are expected to further drive the growth of the Asia Pacific market during the forecast period.
Recent Developments
- In December 2020, Calyxt,
Inc. announced a research collaboration with NRGene Ltd. This partnership
entails leveraging NRGene's cloud-based genomic platform to expedite hemp trait
discovery.
Key Market Players
- Eurofins Scientific SE
- Agilent Technologies, Inc.
- Illumina, Inc.
- NRGene Ltd.
- Qiagen NV
- Traitgenetics GmbH
- Novogene Corporation
- Oxford Nanopore Technologies Ltd.
- Genewiz, Inc.
- Genotypic Technology Pvt Ltd.
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