United States (USA) Agriculture Biotechnology Market Overview, 2029
With a Valuation Exceeding USD 11 Billion in 2023, the USA Agriculture Biotechnology Market Capitalizes on Growing Demand and Technological Advancements.
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The United States is a prominent leader in agricultural biotechnology, thanks to a strong focus on innovation and a regulatory environment that encourages progress in the sector. Genetically Modified Organisms (GMOs) have been widely adopted in this industry, particularly in crops like corn, soybeans, and cotton. GMOs have been bred to have features like herbicide tolerance, pest resistance, and increased yields, with newer advancements including cutting-edge gene editing techniques like CRISPR for more precise alterations. The United States leads in GMO market size and uptake, reflecting a strong agricultural biotechnology sector and a favourable regulatory environment. Despite some controversy surrounding GMOs, the United States continues to lead the way in seed technology, biotech characteristics, and crop management approaches. In contrast, Europe has tougher regulations and lower GMO acceptance rates because of consumer preferences, societal concerns, and regulatory policies that emphasise precautionary principles. However, developing countries such as India and China are actively adopting agricultural biotechnology to improve food security, increase crop production, and address agricultural issues such as land degradation, water shortages, and climatic variability. These countries promise considerable growth potential for the biotechnology industry, owing to growing populations, expanding middle classes, and changing agricultural landscapes.
According to the research report “United States Agriculture Biotechnology Market Overview, 2029," published by Bonafide Research, the United States Agriculture Biotechnology market was valued at more than USD 11 Billion in 2023. The rising demand for increased productivity to suit the needs of a growing population is a major driving force behind the spread of agricultural biotechnology in the United States. This demand lays a strong emphasis on improving food security through technical improvements. However, there is a significant disparity in popular opinion regarding GMOs. While some argue for openness and the promotion of organic alternatives, others recognize biotechnology's ability to address pressing agricultural issues. When navigating the terrain of agricultural biotechnology, various drives and problems emerge. On the one hand, there is an urgent need to increase crop yields, reduce food waste, and create crops that are tolerant to the effects of climate change. These imperatives highlight the significance of ongoing innovation in the sector. In contrast, regulatory constraints, public perception of GMOs, and the requirement to ensure the environmental safety of emerging technology present severe challenges. Striking a balance between promoting innovation and enforcing severe safety requirements is a top policy priority. In terms of policy and legislation, the United States provides a generally favourable climate for agricultural biotechnology, with a more efficient regulatory system than some other regions. Nonetheless, there are continuous discussions over the delicate balance between fostering innovation and protecting public and environmental health. While certifications such as the USDA National Organic Program (NOP) address organic products, the lack of particular certifications for bioengineered crops highlights the changing nature of regulatory mechanisms in this dynamic industry.
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In the realm of hybrid seeds, a cornerstone of modern agricultural practices, the deliberate cross-pollination of genetically distinct parent plants within the same species has revolutionised crop cultivation. These hybrid seeds amalgamate desirable traits from each parent, yielding offspring plants endowed with heightened characteristics such as increased yield, improved disease resistance, better tolerance to environmental stressors, and uniform growth and appearance. This category of biotechnological innovation has significantly bolstered agricultural productivity and sustainability, offering farmers across the globe a powerful tool to enhance crop quality and yield potential. Transgenic crops, commonly known as genetically modified organisms (GMOs), represent another pivotal facet of biotech agriculture. Through genetic manipulation techniques, such as gene insertion from other organisms or modification of existing genes within the plant, transgenic crops are endowed with novel traits tailored to specific agricultural needs. These traits can range from pest resistance and herbicide tolerance to enhanced nutritional profiles, offering solutions to pressing challenges in modern agriculture, such as pest management and nutrient optimization. Bio-pesticides, derived from natural sources such as bacteria, fungi, viruses, plants, and minerals, constitute an eco-friendly alternative to conventional chemical pesticides. These biologically derived pest control products provide targeted solutions for crop protection while minimising adverse effects on beneficial insects and wildlife. With their ability to degrade rapidly in the environment, bio-pesticides contribute to sustainable pest management practices, aligning with the growing demand for environmentally conscious agricultural solutions. Bio-fertilizers, comprising living organisms or organic substances, play a crucial role in enhancing soil health and fertility. By promoting nutrient availability and uptake, bio-fertilizers contribute to improved crop growth and yield potential. Key mechanisms include nitrogen fixation, phosphorus solubilization, and stimulation of plant root growth, underscoring the multifaceted benefits of these biotechnological interventions in agriculture.
Emerging agricultural technologies, such as gene editing, biofertilizers, and precision agriculture, are poised to transform the industry by providing solutions to a variety of concerns, including food security and environmental sustainability. Gene editing tools such as CRISPR offer the potential to improve crop attributes, increase yields, and create disease-resistant varieties, resulting in more efficient and resilient agricultural systems. Furthermore, the introduction of biofertilizers and advances in precision agriculture allow farmers to maximise resource utilisation, reduce environmental effect, and boost output. Trade exhibitions serve an important role in presenting the most recent advances in agricultural technology and encouraging collaboration among industry players. Events such as the BIO International Convention and the PGA Annual Meeting give chances for networking, knowledge sharing, and business discovery, thereby promoting agricultural innovation and growth. The United States is a big agricultural exporter, with a strong biotechnology sector that boosts its trading potential. Industry leaders, pushing innovation and dominating markets with their expertise in genetic engineering and crop protection technology. Furthermore, the advent of businesses focused on gene editing, biopesticides, and specialty areas suggests a dynamic and competitive ecosystem in which new entrants can make substantial contributions.
Pricing in the agricultural sector varies depending on product type, target crop, and license agreements. Seeds with unique genetically modified organism (GMO) features are often priced higher than normal seeds, reflecting the extra value and benefits they provide to farmers. The regulatory dispute over the labelling of bioengineered foods emphasises the importance of transparency and consumer understanding in the uptake of biotech technologies. Furthermore, greater investment in gene editing technology demonstrates a growing interest in sustainable and climate-smart agricultural practices, indicating a trend toward more ecologically friendly and resilient farming techniques.Seeds and biotechnologies are generally distributed via a network of agricultural stores and wholesalers. These networks are the industry's backbone, allowing genetically modified organisms (GMOs) and other agricultural advancements to reach farmers all over the world. Agricultural retailers play an important role in connecting biotechnology businesses with farmers, giving them access to the most recent seeds, characteristics, and technologies aimed at increasing agricultural yields, resilience, and sustainability. Distributors broaden the reach of these items, ensuring that they are available in a variety of areas and agricultural settings. This distribution network not only encourages innovation, but also helps farmers make informed decisions about how to improve their agricultural methods and overcome obstacles like climate change and insect pressures.
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Manmayi Raval
Research Consultant
Considered in this report
• Historic year: 2018
• Base year: 2023
• Estimated year: 2024
• Forecast year: 2029
Aspects covered in this report
• Agriculture Biotechnology market Outlook with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation
By Type
• Hybrid Seeds
• Transgenic Crops
• Bio-pesticides
• Bio-fertilizers
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By Application
• Transgenic Crops & Animals
• Antibiotic Development
• Biofuels
• Vaccine Development
• Nutritional Supplements
• Flower Culturing
•
By Crop Type
• Soybean
• Maize
• Cotton
• Others (Canola, alfalfa, sugar beets, potatoes, papaya, squash, apples)
The approach of the report:
This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, and government-generated reports and databases. After gathering the data from secondary sources, primary research was conducted by conducting telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. Post this; we have started making primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once we have primary data with us, we can start verifying the details obtained from secondary sources.
Intended audience
This report can be useful to industry consultants, manufacturers, suppliers, associations, and organizations related to the Agriculture Biotechnology industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.
Table of Contents
1. Executive Summary
2. Market Structure
2.1. Market Considerate
2.2. Assumptions
2.3. Limitations
2.4. Abbreviations
2.5. Sources
2.6. Definitions
2.7. Geography
3. Research Methodology
3.1. Secondary Research
3.2. Primary Data Collection
3.3. Market Formation & Validation
3.4. Report Writing, Quality Check & Delivery
4. United States (US) Macro Economic Indicators
5. Market Dynamics
5.1. Key Findings
5.2. Key Developments - 2021
5.3. Market Drivers & Opportunities
5.4. Market Restraints & Challenges
5.5. Market Trends
5.6. Covid-19 Effect
5.7. Supply chain Analysis
5.8. Policy & Regulatory Framework
5.9. Industry Experts Views
6. United States (US) Agriculture Biotechnology Market Overview
6.1. Market Size By Value
6.2. Market Size and Forecast By Type
6.3. Market Size and Forecast By Technology
6.4. Market Size and Forecast By Application
6.5. Market Size and Forecast By Crop Type
7. United States (US) Agriculture Biotechnology Market Segmentations
7.1. United States (US) Agriculture Biotechnology Market, By Type
7.1.1. United States (US) Agriculture Biotechnology Market Size, By Hybrid Seeds, 2018-2029
7.1.2. United States (US) Agriculture Biotechnology Market Size, By Transgenic Crops, 2018-2029
7.1.3. United States (US) Agriculture Biotechnology Market Size, By Bio-Pesticides, 2018-2029
7.1.4. United States (US) Agriculture Biotechnology Market Size, By Bio-fertilizers, 2018-2029
7.2. United States (US) Agriculture Biotechnology Market, By Technology
7.2.1. United States (US) Agriculture Biotechnology Market Size, By Genetic Engineering, 2018-2029
7.2.2. United States (US) Agriculture Biotechnology Market Size, By Tissue Culture, 2018-2029
7.2.3. United States (US) Agriculture Biotechnology Market Size, By Embryo Rescue, 2018-2029
7.2.4. United States (US) Agriculture Biotechnology Market Size, By Somatic Hybridization, 2018-2029
7.2.5. United States (US) Agriculture Biotechnology Market Size, By Molecular Diagnostics, 2018-2029
7.2.6. United States (US) Agriculture Biotechnology Market Size, By Vaccine, 2018-2029
7.2.7. United States (US) Agriculture Biotechnology Market Size, By Others, 2018-2029
7.3. United States (US) Agriculture Biotechnology Market, By Application
7.3.1. United States (US) Agriculture Biotechnology Market Size, By Transgenic Crops & Animals, 2018-2029
7.3.2. United States (US) Agriculture Biotechnology Market Size, By Antibiotic Development, 2018-2029
7.3.3. United States (US) Agriculture Biotechnology Market Size, By Biofuels, 2018-2029
7.3.4. United States (US) Agriculture Biotechnology Market Size, By Vaccine Development, 2018-2029
7.3.5. United States (US) Agriculture Biotechnology Market Size, By Nutritional Supplements, 2018-2029
7.3.6. United States (US) Agriculture Biotechnology Market Size, By Flower Culturing, 2018-2029
7.4. United States (US) Agriculture Biotechnology Market, By Crop Type
7.4.1. United States (US) Agriculture Biotechnology Market Size, By Soybean, 2018-2029
7.4.2. United States (US) Agriculture Biotechnology Market Size, By Maize, 2018-2029
7.4.3. United States (US) Agriculture Biotechnology Market Size, By Cotton, 2018-2029
7.4.4. United States (US) Agriculture Biotechnology Market Size, By Others, 2018-2029
8. United States (US) Agriculture Biotechnology Market Opportunity Assessment
8.1. By Type, 2024 to 2029
8.2. By Technology, 2024 to 2029
8.3. By Application, 2024 to 2029
8.4. By Crop Type, 2024 to 2029
9. Competitive Landscape
9.1. Porter's Five Forces
9.2. Company Profile
9.2.1. BASF SE
9.2.1.1. Company Snapshot
9.2.1.2. Company Overview
9.2.1.3. Financial Highlights
9.2.1.4. Geographic Insights
9.2.1.5. Business Segment & Performance
9.2.1.6. Product Portfolio
9.2.1.7. Key Executives
9.2.1.8. Strategic Moves & Developments
9.2.2. Bayer AG
9.2.3. UPL Ltd
9.2.4. Syngenta
9.2.5. FMC Corporation
9.2.6. Corteva, Inc
9.2.7. Nufarm Ltd
9.2.8. KWS SAAT SE & Co. KGaA
10. Strategic Recommendations
11. Disclaimer
Table 1: Influencing Factors for United States (US) Agriculture Biotechnology Market, 2023
Table 2: United States (US) Agriculture Biotechnology Market Size and Forecast By Type (2018, 2023 & 2029F)
Table 3: United States (US) Agriculture Biotechnology Market Size and Forecast By Technology (2018, 2023 & 2029F)
Table 4: United States (US) Agriculture Biotechnology Market Size and Forecast By Application (2018, 2023 & 2029F)
Table 5: United States (US) Agriculture Biotechnology Market Size and Forecast By Crop Type (2018, 2023 & 2029F)
Table 6: United States (US) Agriculture Biotechnology Market Size of Hybrid Seeds (2018 to 2029) in USD Millions
Table 7: United States (US) Agriculture Biotechnology Market Size of Transgenic Crops (2018 to 2029) in USD Millions
Table 8: United States (US) Agriculture Biotechnology Market Size of Bio-Pesticides (2018 to 2029) in USD Millions
Table 9: United States (US) Agriculture Biotechnology Market Size of Bio-fertilizers (2018 to 2029) in USD Millions
Table 10: United States (US) Agriculture Biotechnology Market Size of Genetic Engineering (2018 to 2029) in USD Millions
Table 11: United States (US) Agriculture Biotechnology Market Size of Tissue Culture (2018 to 2029) in USD Millions
Table 12: United States (US) Agriculture Biotechnology Market Size of Embryo Rescue (2018 to 2029) in USD Millions
Table 13: United States (US) Agriculture Biotechnology Market Size of Somatic Hybridization (2018 to 2029) in USD Millions
Table 14: United States (US) Agriculture Biotechnology Market Size of Molecular Diagnostics (2018 to 2029) in USD Millions
Table 15: United States (US) Agriculture Biotechnology Market Size of Vaccine (2018 to 2029) in USD Millions
Table 16: United States (US) Agriculture Biotechnology Market Size of Others (2018 to 2029) in USD Millions
Table 17: United States (US) Agriculture Biotechnology Market Size of Transgenic Crops & Animals (2018 to 2029) in USD Millions
Table 18: United States (US) Agriculture Biotechnology Market Size of Antibiotic Development (2018 to 2029) in USD Millions
Table 19: United States (US) Agriculture Biotechnology Market Size of Biofuels (2018 to 2029) in USD Millions
Table 20: United States (US) Agriculture Biotechnology Market Size of Vaccine Development (2018 to 2029) in USD Millions
Table 21: United States (US) Agriculture Biotechnology Market Size of Nutritional Supplements (2018 to 2029) in USD Millions
Table 22: United States (US) Agriculture Biotechnology Market Size of Flower Culturing (2018 to 2029) in USD Millions
Table 23: United States (US) Agriculture Biotechnology Market Size of Soybean (2018 to 2029) in USD Millions
Table 24: United States (US) Agriculture Biotechnology Market Size of Maize (2018 to 2029) in USD Millions
Table 25: United States (US) Agriculture Biotechnology Market Size of Cotton (2018 to 2029) in USD Millions
Table 26: United States (US) Agriculture Biotechnology Market Size of Others (2018 to 2029) in USD Millions
Figure 1: United States (US) Agriculture Biotechnology Market Size By Value (2018, 2023 & 2029F) (in USD Millions)
Figure 2: Market Attractiveness Index, By Type
Figure 3: Market Attractiveness Index, By Technology
Figure 4: Market Attractiveness Index, By Application
Figure 5: Market Attractiveness Index, By Crop Type
Figure 6: Porter's Five Forces of United States (US) Agriculture Biotechnology Market
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