Agriculture Biotechnology Market To Reach $98.85 Billion by 2033

The report “Agriculture Biotechnology Market By Organism Type (Plants, Animals, Microbes), By Product Type(Transgenic Crops, Hybrid Seeds, Bio-Pesticides, Bio-Fertilizers, Plant-Growth Regulators, Tissue Culture Products), By Technology (Genetic Engineering, Genome Editing, Tissue Culture, Molecular Markers, Synthetic Biology, Fermentation), By Application (Crop Improvement & Protection, Transgenic Crops & Animals, Vaccine Developments, Antibiotic & Nutritional Supplements, Floraculture & Biofuels)” is expected to reach USD 98.85 billion by 2033, registering a CAGR of 9.30% from 2026 to 2033, according to a new report by Transpire Insight.

A shift begins where biology meets farm work, shaping how food is grown. Instead of relying only on chemicals, new methods emerge through tiny living helpers and stronger plant genes. These tools come from labs using gene tweaks, cell cloning, fresh crop designs woven into fields under open skies. Growth improves, damage drops, and soil stays healthier. Farmers gain options beyond old synthetic routes. Science steps quietly into rows of corn and wheat, answering hunger's rise without draining the earth.

Plants take center stage here. Growers keep turning to biotech seeds and traits because they help crops handle tough conditions, drought, heat, bugs, sickness, and perform better overall. From modified and crossbred seeds to natural pest fighters and substances that guide plant development, these tools cover a lot of ground. Yield boosts matter, yes, but just as much is reducing chemical reliance and making farming smarter under shifting climates. Different places get different results, yet the pattern holds: less artificial stuff, tighter control, steady progress.

Right now, North America stands out, especially the United States, where farms and science labs work closely, helped by steady rules and deep-rooted tech use in farming. Meanwhile, places across Asia and the Pacific are stepping up fast, turning to advanced biology methods as hunger for food grows and green practices gain ground. Innovation keeps moving forward in both zones, where fresh gene-editing techniques appear regularly, and living-based tools multiply, quietly reshaping how crops survive and thrive.

The Plants segment is projected to witness the highest CAGR in the Agriculture Biotechnology market during the forecast period.

According to Transpire Insight, plenty of growth shows up in the plant part of agri-biotech, expected to outpace others soon. Because feeding more people worldwide becomes harder, crops take center stage. New tools like gene tweaks, precise DNA edits, and smart breeding speed things along. Better harvests come from seeds that fight off bugs, handle dry spells, or survive salty soil. Farmers lean on these options when they want steady results without spending too much. Less worry about losses pushes interest even higher.

A push toward farming that lasts longer has boosted interest in natural tech for crops - like soil helpers, pest fighters, and lab-grown seedlings. Support from officials and farm groups in major areas encourages better seeds and living inputs to save resources while protecting nature. Because scientists keep exploring, rules stay open-minded, and more people trust modern crop methods, the plant sector should grow well in the years ahead.

The Transgenic Crops segment is projected to witness the highest CAGR in the Agriculture Biotechnology market during the forecast period.

Expect a solid rise in transgenic crops within the agri-biotech space over the coming years - this comes down to real results boosting output while cutting damage from insects, unwanted plants, and illness. Crops redesigned at the genetic level to resist bugs, survive weedkillers, or handle harsh conditions give growers steadier harvests alongside smoother operations. Across large farming zones, the broad rollout of these modified staples, used widely for both human food and animal feed, keeps fueling their everyday use.

Farmers face growing demands to produce more food while using land efficiently, pushing transgenic crops into sharper focus across farming systems. Because science keeps evolving, new gene-editing tools now allow multiple traits to be combined, boosting crop nutrition and resilience to shifting weather patterns. In countries where rules favor innovation, alongside steady backing from major seed developers, these crops gain ground faster than before. Their wider use shapes how much the market expands through the coming years.

The Genetic Engineering segment is projected to witness the highest CAGR in the Agriculture Biotechnology market during the forecast period.

According to Transpire Insight, Growth in genetic engineering looks likely within agri-biotech over the coming years because it has already shown what it can do - shaping plants and life forms with better qualities. Starting from scratch, scientists insert specific genes that boost features like resistance to bugs, survival under tough conditions, steady harvests, or less need for weedkillers. Because results keep matching expectations and farms have used these tools for decades, trust in the method runs deep. Rarely does a tech so tested remain this central to how food systems evolve on big scales.

Still, new advances in gene editing mix with modern breeding methods, pushing uses in crops and livestock alike. Money flowing in from seed firms and biotech players helps speed up how fast these modified organisms get used. Rules in major farming areas now favor such technologies more than before. Farms worldwide face heat, drought, and demand for higher yields. Gene tweaks fit right into that picture. Growth in this field looks steady ahead, shaped by real needs on the ground.

The Crop Improvement & Protection segment is projected to witness the highest CAGR in the Agriculture Biotechnology market during the forecast period.

One reason the crop improvement and protection area is expected to grow lies in how it boosts farm yields while helping meet global food needs. Technologies like modified seeds, natural fertilizers, pest controls from living organisms, and substances that influence plant development make up this field, each working to raise harvest amounts, lift quality, or guard against bugs, sicknesses, and tough weather. With farmland staying scarce, plus damage cutting into supplies, growers across regions are turning more toward such tools. What pushes this shift is not just scarcity; it is the steady push to get more from every plot without losing as much along the way.

They rely less on harsh chemicals. New tech in seed design works alongside careful field monitoring, helping growers do more without harming nature. Money flowing into labs, clearer rules from officials, and better knowledge out in rural areas keep pushing progress forward. Change used to be slow here; now it moves faster each season.

The North America region is projected to witness the highest CAGR in the Agriculture Biotechnology market during the forecast period.

Expect the North American area to stay ahead in farm-related biotech work for years to come. This happens because many growers there choose high-tech methods along with altered seed types. Innovation thrives especially within the United States borders due to deep science networks and systems that back new ideas. Rules make space for progress, while those who manage land tend to try fresh tools early on. Knowing more about growing smarter and greener pushes people toward special seeds, natural fertilizers, pest fighters made from living stuff, and similar options nearby.

Despite challenges, progress rolls on across North America thanks to deep funding from private seed developers, biotech players, and public programs pushing farm innovation forward. Tech like gene tweaks, DNA fine-tuning, tools for exact planting, these are not just lab ideas, they’re reshaping how fields operate today. Leadership here seems likely to stick around, fueled less by luck than by fresh breakthroughs, smart rules, and growing hunger for crops that deliver more while using less.

Key Players

Top companies include Bayer AG, Corteva Agriscience, Syngenta AG, BASF SE, DowDuPont, FMC Corporation, KWS SAAT SE, Limagrain Group, Monsanto Company, Evogene Ltd., Bioceres Crop Solutions Corp., Vilmorin & Cie, Sakata Seed Corporation, Rijk Zwaan, Calyxt, and Arcadia Biosciences.

Drop us an email at:

inquiry@transpireinsight.com

Call us on:

+91 7666513636