Transgenic Seeds Market 2023-2030 Analyzed by Business Growth, Development Factors, Applications, and Future Prospects

The Transgenic seeds are genetically modified seeds that have been altered through genetic engineering techniques to introduce desirable traits such as resistance to pests, diseases, and herbicides, increased yield, improved quality, and tolerance to abiotic stresses such as drought, heat, and cold. Transgenic seeds are widely used in agriculture to increase crop productivity and improve food security.

The global transgenic seeds market is expected to grow significantly over the next few years, driven by the increasing demand for high-yield and disease-resistant crops and the need for sustainable agricultural practices. According to a report by Mordor Intelligence, the global transgenic seeds market size was valued at USD 25.17 billion in 2023 and is projected to reach USD 42.56 billion by 2030, at a CAGR of 8.5% during the forecast period.

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The key drivers for the growth of the transgenic seeds market include the increasing demand for high-yield and disease-resistant crops, the need for sustainable agricultural practices, and the growing adoption of genetically modified crops in developing countries. Transgenic seeds are particularly important in regions where crop yields are low, and food insecurity is a major issue.

North America is the largest market for transgenic seeds, followed by Europe and Asia-Pacific. The demand for transgenic seeds is particularly high in the United States, where genetically modified crops are widely adopted, and farmers are looking for new solutions to increase crop yields and reduce losses due to pests and diseases.

The key players in the global transgenic seeds market include companies such as Monsanto Company (a subsidiary of Bayer AG), Syngenta AG (a subsidiary of ChemChina), DowDuPont Inc., BASF SE, and Groupe Limagrain, among others. These companies are investing in research and development activities to develop new and advanced transgenic seed products to cater to the growing demand from the agricultural sector. They are also focusing on collaborations and partnerships with farmers, researchers, and other stakeholders to develop more sustainable and effective solutions for crop improvement.

Transgenic Seeds Market, Key Factors, Major Players, Growth, Trends, Forecast year 2020-2027

Market-Overview

The high variability in global climatic conditions is estimated to create momentum for the transgenic seeds market in the coming period. Reports created by MRFR detail the developments in the industry that can be expected in the market through the forecast period. The market stands to earn USD 77 Billion with the support of a CAGR of 12% by 2027.

The losses faced by farmers due to pests and loss of harvest due to unsuitable growing condition has become more common, and this influence is estimated to further augment the transgenic seeds market in the near future. Furthermore, improvement in agricultural sciences is predicted to enhance the transgenic seeds market companies share in the upcoming period.

Segmental Analysis

The segmental investigation of the transgenic seeds market is carried out on the basis of trait, crop, and region. The trait segment of the transgenic seeds market consists of insect- resistance, herbicide tolerance, and others. The regions included in the transgenic seeds market are North America, Asia Pacific, Europe, and other regional markets. The crop segment of the transgenic seeds market consists of cotton, maize, soybean, canola, rice, and others.

Detailed Regional Analysis 

The regional assessment of the transgenic seeds market includes North America, Asia Pacific, Europe, and other regional markets. The North American transgenic seeds market is anticipated to advance a bigger share in the global transgenic seeds market and record an outstanding CAGR in the forecast period. The US is the chief market backing the regional market progress. Technical innovations and high investing in agricultural pursuits are boosting the requirement for transgenic seeds in the region. Canola, soybean, maize, and cotton are estimated to appear as the major transgenic crops cultivated in the US. The Asia Pacific transgenic seeds market is developing due to the ability of the region to offer strong development prospects to the market companies in the forecast period. The contemporary traits introduced in various yields are anticipated to back the development of the transgenic seeds market in the forecast period.

Competitive Analysis

The establishment of clear long-term objectives by market titans is estimated to set the tone for the continuing expansion of the market. The identification of areas for sustainable enhancement in the supply chain is estimated to further fortify the market. The advancement of the market is spurred by the initiatives of the leaders in the global market, who are dedicating resources to the development of the overall market. The scale of innovation being observed in the market is another reason that is adding to the advancement of the global market in the future. The funding scenario in the market is estimated to be optimistic and conducive to the development of the stakeholders in the market. The detrimental impact on the environment by the business practices is estimated to be a key component in the future growth strategies of the market. The government policies in several regions are very conducive to the development of the market in the upcoming period. The advancement of production technology and processes is estimated to augment the global market.

The notable contenders in the key transgenic seeds market players are Suntory Holdings Ltd (Japan), DowDuPont (US), Vilmorin & Cie SA (France), Maharashtra Hybrid Seed Company (India), Bayer CropScience AG (Germany), Monsanto (US), BASF SE (Germany), Syngenta AG (Switzerland), R.Simplot Co. (US) and JK Agri Genetics Ltd (India).

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Plant Tissue Culture Market is valued at approximately USD 864.256 million and is projected to grow at a compound annual growth rate (CAGR) of 8.35% over the forecast period, reaching around USD 1,501 million by 2032. The plant tissue culture market is experiencing significant growth globally, driven by the rising demand for food security, the increasing application of tissue culture in plant breeding, and the production of high-quality crops. Tissue culture is a vital tool in modern biotechnology, enabling the production of disease-free, genetically stable, and superior-quality plantlets. This process involves the cultivation of plant cells, tissues, or organs under sterile conditions in a controlled environment, facilitating the production of large quantities of plants in a relatively short period.

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Market Overview

The global plant tissue culture market is projected to grow at a compound annual growth rate (CAGR) of 8%–12% over the next five to seven years, depending on the region and specific market trends. The market's expansion is supported by a confluence of factors, including the increasing adoption of tissue culture techniques in horticulture, floriculture, forestry, and agriculture. The rising demand for bio-based products and sustainable agricultural practices is further propelling market growth.

Applications of Plant Tissue Culture

1. Micropropagation: One of the most prominent applications of plant tissue culture is micropropagation, a technique used to multiply plants by culturing plant tissues. It enables the mass production of disease-free, genetically uniform plants, a process highly beneficial for large-scale agriculture, horticulture, and the forestry industries. Micropropagation is particularly useful for producing ornamental plants, medicinal plants, and high-value crops such as fruits and vegetables.

2. Genetic Engineering and Crop Improvement: Plant tissue culture also plays a crucial role in genetic engineering and the development of transgenic plants. Tissue culture techniques allow for the precise introduction of desirable traits, such as pest resistance, drought tolerance, and improved nutritional content, into plants. The market for genetically engineered crops is expanding, particularly in regions like North America, where biotechnology is widely embraced.

3. Germplasm Conservation: Another vital application of tissue culture is the conservation of plant genetic resources or germplasm. Tissue culture techniques provide a way to preserve endangered plant species, as well as rare and economically important plants. This method is especially significant for plants that are difficult to conserve through conventional means, such as seeds.

4. Secondary Metabolite Production: The ability to produce valuable secondary metabolites, such as alkaloids, flavonoids, and terpenoids, through plant tissue culture has opened new avenues for the pharmaceutical and cosmetic industries. These metabolites, often extracted from medicinal plants, have applications in the development of drugs, fragrances, and skincare products. Plant tissue culture offers a sustainable and scalable way to produce these bioactive compounds.

Market Challenges

Despite its many benefits, the plant tissue culture market faces several challenges. One of the primary barriers is the high initial cost of setting up tissue culture labs and maintaining sterile conditions, which can be a significant financial burden for small-scale farmers and startups. Additionally, the need for specialized skills and knowledge to manage tissue culture processes presents a challenge, particularly in developing regions where training opportunities are limited.

Moreover, concerns related to the genetic stability of tissue-cultured plants and the risk of somaclonal variation (genetic mutations that occur during the tissue culture process) can hinder market growth. Continuous R&D efforts are essential to overcome these challenges and improve the overall reliability of tissue culture techniques.

Future Outlook

The future of the plant tissue culture market looks promising, with increasing investment in biotechnology and sustainable agriculture practices. The growing emphasis on food security, coupled with advancements in tissue culture technologies, is expected to drive market growth in the coming years. Additionally, the rise of vertical farming and the use of plant tissue culture in space research are emerging trends that could reshape the industry.

Key Player Analysis:

Thermo Fisher Scientific Inc.

Merck KGaA

Agilent Technologies, Inc.

Caisson Laboratories, Inc.

Corning Incorporated

HiMedia Laboratories

Phyto Technology Laboratories

Plant Cell Technology

Sigma-Aldrich Co. LLC

DuPont

Invitrotech

Twist Bioscience

Mirus Bio LLC

Clontech Laboratories, Inc.

Biosynth Carbosynth

General Hydroponics, Inc.

Segmentation:

Based on Product Type:

Micropropagation

Somatic Embryogenesis

Organogenesis

Others

Based on Technology:

Manual Methods

Automated Systems

Bioreactor Technologies

Based on End User:

Agriculture

Horticulture

Forestry

Research Institutions

Based on Region:

North America (e.g., United States, Canada)

Europe (e.g., Germany, France, United Kingdom)

Asia-Pacific (e.g., China, India, Japan)

Latin America (e.g., Brazil, Mexico)

Middle East and Africa (e.g., South Africa, UAE)

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Agricultural Biotechnology Market: Revolutionizing Crop Production and Sustainability

The Agricultural Biotechnology market is at the forefront of transforming global agriculture by enhancing crop yields, improving resistance to pests and diseases, and promoting sustainability. As the demand for food security and sustainable farming practices increases, the agricultural biotechnology market is experiencing significant growth. This article delves into the latest trends, market segmentation, key growth drivers, and leading companies in the agricultural biotechnology industry, offering essential insights for decision-makers.

Market Overview

According to SkyQuest’s Agricultural Biotechnology Market report, the market is currently valued at USD XX, with a projected CAGR of XX%. The growth of this market is driven by advancements in genetic engineering, increasing adoption of biotech crops, and the need for sustainable agricultural practices.

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Market Segmentation

By Product Type:

Transgenic Seeds: Includes genetically modified seeds for crops like corn, soybeans, cotton, and others, designed for higher yields and resistance to pests.

Biopesticides: Natural or genetically engineered pesticides offering an eco-friendly alternative to chemical pesticides.

Biofertilizers: Microbial inoculants that promote plant growth and improve soil fertility.

Other Biotechnological Tools: Includes molecular markers, tissue culture, and micropropagation techniques used in crop improvement.

By Application:

Crop Protection: Utilizes biotechnology for developing pest-resistant and herbicide-tolerant crops, reducing the need for chemical inputs.

Animal Biotechnology: Focuses on improving livestock breeds, enhancing resistance to diseases, and increasing productivity.

Environmental Biotechnology: Involves bioremediation techniques to clean up contaminated soils and promote sustainable land use.

Genetically Modified Organisms (GMOs): The development of GMOs for improved crop characteristics, such as drought tolerance and enhanced nutritional content.

By End-User:

Farmers: Primary users of biotech crops and products for enhanced agricultural productivity.

Agricultural Companies: Invest in R&D and commercialization of biotech products for global markets.

Research Institutes: Focus on developing innovative biotechnology solutions for agriculture.

Government and Regulatory Bodies: Play a crucial role in the approval and regulation of biotech products.

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Key Growth Drivers

Rising Global Food Demand: Increasing population and food security concerns drive the adoption of biotech crops for higher yields.

Technological Advancements: Innovations in genetic engineering, CRISPR, and other biotechnological tools are propelling market growth.

Sustainable Farming Practices: The shift towards sustainable agriculture, with a focus on reducing chemical inputs, supports the growth of biopesticides and biofertilizers.

Government Support and Regulation: Favorable policies and regulatory frameworks encourage the development and adoption of agricultural biotechnology.

Leading Companies in the Market

SkyQuest’s report highlights several key players in the Agricultural Biotechnology market, including:

KWS SAAT SE & Co. KGaA, ChemChina, Limagrain, Nufarm, Marrone Bio Innovations, Performance Plants Inc., Corteva, ADAMA Ltd, MITSUI & CO. LTD, Evogene Ltd., Valent BioSciences LLC, Bayer AG.

Challenges and Opportunities

The agricultural biotechnology market faces challenges such as public perception and regulatory hurdles concerning GMOs. However, these challenges also present opportunities for innovation in non-GMO biotechnologies and expanding market reach in developing regions.

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Future Outlook

The Agricultural Biotechnology market is poised for continued growth as advancements in genetic engineering and increasing demand for sustainable farming practices drive market dynamics. Companies that invest in cutting-edge biotechnological tools and address global food security challenges will lead the way in this dynamic market. For comprehensive insights and strategic recommendations, consult SkyQuest’s in-depth Agricultural Biotechnology Market report.

The Agricultural Biotechnology market is revolutionizing the agriculture industry by offering innovative solutions for crop production and sustainability. Decision-makers who invest in biotechnological advancements will be at the forefront of this rapidly evolving sector. For more detailed insights and emerging trends, refer to SkyQuest's Agricultural Biotechnology Market report.

Genetically Modified Seeds: The Controversial Agricultural Revolution

Genetically modified (GM) crops are plants used in agriculture whose DNA has been modified using genetic engineering methods. The most common traits introduced to GM crops are herbicide tolerance and insect resistance. Herbicide Tolerance in Genetically Modified Seeds One of the earliest applications of genetic engineering in agriculture was to make crops tolerant to herbicides, so that weeds could be eliminated with herbicide spraying without killing the crops. Two main herbicide tolerance traits that have been introduced through genetic engineering are glyphosate tolerance and glufosinate tolerance. Glyphosate, marketed by Monsanto under the trade name Roundup, is a broad-spectrum herbicide that kills weeds but not crops engineered to be tolerant. Glufosinate is another broad-spectrum herbicide to which some crops have been engineered to be tolerant. These modifications allow farmers to spray herbicide over the top of entire fields and only kill the weeds, not the crops. Insect Resistance through Bt Technology Many GM crops are genetically engineered to produce one or more insecticidal proteins from the soil bacterium Bacillus thuringiensis (Bt). Known as Bt crops, they are insects resistant. Corn and cotton are the main crops engineered with Bt technology to be resistant to certain Lepidopteran or Coleopteran insect pests. The Bt proteins expressed in these GM crops only affect insect species within these orders and have no reported effects on other organisms including humans. Bt crops allow farmers to reduce or eliminate insecticide applications for key pests. Potential Benefits of GM Crops Besides reducing herbicide and insecticide use, Genetically Modified Seeds are promoted as having benefits such as increased crop yields through built-in pest and weed management, economic gains for farmers, increased food security by boosting global food supplies, and environmental benefits from reducing tillage needs. Many farmers have adopted GM crops due to economic and productivity advantages, reduced labor needs, and opportunities to farm more sustainably. Supporters argue that GM technology can play an important role in helping agriculture meet the challenging demands of feeding a growing global population. Skepticism and Criticism around GM Crops While GM crops have been embraced globally, controversy and skepticism also exists. Some criticism includes concerns over unknown long-term health and environmental risks, possibility of new superweeds and superpests developing resistance, lack of testing and regulation, domination of the seed industry by a few major corporations, and socioeconomic issues around licensing practices and seed patents. Opponents argue that natural plant breeding methods can achieve the same goals as GM without exposing the food supply or environment to potentially hazardous risks that genetic engineering may entail. There are also concerns that the spread of transgenes from genetically modified seeds to wild relatives or conventional crops cannot be prevented and could impact biodiversity. Developing countries are more cautious about adopting GM crops due to lack of local research capacity and health monitoring infrastructure.

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Genetically Modified Seeds Market Trends: A Growing Agricultural Revolution

The genetically modified seeds market has revolutionized agricultural practices through the development of crop varieties that exhibit superior traits like herbicide tolerance and insect resistance. Genetically engineered seeds help farmers produce higher crop yields through traits that enhance stress tolerance, increase nutritional value, and prolong shelf life. Global demand for food isprojected to increase substantially due to the rising global population, which is estimated to reach nearly 10 billion by 2050. This growing global food demand can only be met through sustainable intensification of agricultural production with the help of GM seeds that boost productivity per acre of land. The Global genetically modified seeds market is estimated to be valued at US$ 20.34 Bn in 2024 and is expected to exhibit a CAGR of 10% over the forecast period of 2023 to 2030. Genetically modified seeds find widespread application in cultivating major crops like soybean, maize, cotton, canola and others. They help reduce dependence on pesticides and herbicides while maximizing agricultural output. The ability of GM seeds to withstand biotic and abiotic stressors makes them an indispensable tool for ensuring global food security. Key Takeaways

Key players operating in the genetically modified seeds market are Bayer CropScience, BASF SE, Syngenta, and JR Simplot Co. These leading seed companies are investing heavily in R&D to develop novel seed traits and capture greater market share. Growing global population coupled with changing dietary preferences is fueling the demand for food grains worldwide. Genetically modified seeds with traits like herbicide tolerance and insect resistance help boost agricultural productivity to meet this rising food demand. Several countries in Latin America, Asia and Africa are increasing their adoption of biotech crops due to the yield advantages offered by GM seeds. Global seed companies are also expanding to emerging nations to tap the vast growth opportunities in these markets. Market Key Trends

One of the major trends in the genetically modified seeds market is the development of drought-resistant and heat-tolerant seeds. With climate change leading to unpredictable weather patterns, GM seeds that can withstand extreme temperatures and water scarcity are gaining traction. Leading companies like Bayer are engaged in modifying crop genomes to produce varieties suited to arid conditions. Another prominent trend is the engineering of seeds that enhance nutrition. Biofortified seeds enriched with vitamins, minerals and nutrients can help address global micronutrient deficiencies. Meanwhile, gene-editing technologies like CRISPR are allowing for more precise genetic modifications without transgene integration. This is expanding the toolkit for breeders to develop proprietary biotech traits.

Porter's Analysis

Threat of new entrants: The high costs associated with R&D make it difficult for new companies to enter this market. Bargaining power of buyers: Large buyers like crop producers can negotiate lower prices due to high demand for GM seeds. Bargaining power of suppliers: A few large suppliers like Bayer and Syngenta dominate the GM seed supply chain which limits options for buyers. Threat of new substitutes: Alternatives such as organic seeds are still limited. Intensive R&D protects GM seeds from new substitutes. Competitive rivalry: Intense competition exists between major players to capture more market share through new product innovations and acquisitions. Geographical Regions North America accounts for the largest share of the GM seeds market currently due to widespread adoption in major crops like corn and soybean. The USA alone accounts for over 50% of global GM crop production. Asia Pacific is projected to grow at the fastest pace during the forecast period driven by population growth and rising demand for food. Countries like India and China are encouraging GM crop farming to boost agricultural yields to feed their large populations. Adoption of insect-resistant and herbicide-tolerant cotton seeds has been highest in India.

Genetically Modified Seeds Market Update: Advancing Agricultural Genetics

The Genetically Modified Seeds Market is transforming agriculture trends by increasing sustainable farming The genetically modified seeds market has revolutionized agriculture globally by introducing seeds that are resistant to herbicides and resistant to pests and diseases. Genetically engineered crops have enhanced agronomic characteristics like drought tolerance, higher nutritional value, and increased productivity. The global Genetically Modified seeds market is estimated to be valued at US$ 20.34 billion in 2024 and is expected to exhibit a CAGR of 10 percent over the forecast period from 2023 to 2030. Key players operating in the genetically modified seeds market are Bayer CropScience, BASF SE, Syngenta, and JR Simplot Co. Genetically engineered traits enable farmers to maximize crop yields and minimize crop losses. Some key advantages of genetically modified seeds include herbicide tolerance, insect resistance, drought tolerance, and disease resistance. The growing need to meet the rising global food demand is driving adoption of genetically modified crops globally. Key Takeaways Key players: Bayer CropScience, BASF SE, Syngenta, and JR Simplot Co are among the major players in the genetically modified seeds market. Bayer CropScience offers genetically modified maize, soybean and cotton seeds with traits like insect resistance and herbicide tolerance. BASF SE provides drought-tolerant and insect-resistant GM seeds for corn and soy. Growing demand: The rapidly growing global population is increasing the demand for food. Genetically modified seeds can help boost agricultural productivity to meet rising food demand. Developing nations are increasingly adopting GM crops to ensure food security. Global expansion: Leading seed companies are expanding their GM seed portfolio and geographical presence globally. International collaborations and partnerships are helping transfer biotechnology to developing nations and expand usage of GM seeds in new markets. Market Key Trends A key trend in the genetically modified seeds market is the development of stacked traits. Seed developers are engineering seeds with multiple genetic traits like insect resistance, herbicide tolerance and drought tolerance. Stacked trait seeds offer farmers better pest protection and higher yields. Emerging biotechnologies like gene editing are also allowing more precise genetic modifications while avoiding regulatory hurdles faced by transgenic seeds. This is expected to drive innovation and adoption of new genetically modified crop varieties in the coming years.

Porter’s Analysis Threat of new entrants: Low cost of production and existing intellectual property rights prevents new competitors from entering the market. Bargaining power of buyers: Large seed companies possess strong bargaining power as the market is concentrated, allowing them to negotiate lower prices. Bargaining power of suppliers: Suppliers of biotechnology have some bargaining power in the market due to their specialized expertise and access to new technologies for seed development. Threat of new substitutes: There is low threat of substitute crops as genetically modified seeds provides higher yields, pest resistance and suitability to varied climatic conditions. Competitive rivalry: Strong competition exists between major players to invest in seed research and distribution networks to enhance market share. Geographical Regions North America accounts for the largest share in the global market as countries like the US, Canada are highly adopting genetically modified crops. Major GM crops grown are soybean, corn and cotton. Asia Pacific region is witnessing the fastest growth in genetically modified seeds market. Emerging economies like India, China and countries in Southeast Asia are increasingly cultivating Bt cotton and other GM crops to meet rising food demand of growing population. Supportive policies by governments is propelling market expansion in the region.

Film Review - Jurassic World: Dominion

Continuing our look into 2022 cinema releases, let’s shift from the MCU to another long-running science fiction franchise and look at the sixth instalment in the Jurassic film franchise, Jurassic World: Dominion…

Plot (as adapted from Wikipedia):

Four years after the Lockwood Estate incident and the volcanic eruption on Isla Nublar, once-extinct dinosaurs freely roam the Earth. Amid global efforts to control them, Biosyn Genetics establishes a dinosaur preserve in Italy's Dolomites which conducts genomics research, ostensibly for pharmacological applications.

Claire Dearing, Zia Rodriguez, and Franklin Webb investigate illegal dinosaur breeding sites; Claire's partner, Owen Grady, helps relocate stray dinosaurs. At their remote cabin in the Sierra Nevada Mountains, Claire and Owen secretly raise 14-year-old Maisie Lockwood, Benjamin Lockwood's biogenetic granddaughter, and protect her from groups seeking to exploit her unique genetic makeup. When Blue, the Velociraptor raised by Owen, arrives at the cabin with an asexually-reproduced hatchling, Maisie names it Beta. Increasingly frustrated living in seclusion, Maisie sneaks away to explore. Mercenaries searching for Maisie find and kidnap her and capture Beta.

Meanwhile, swarms of giant locusts are decimating U.S. crops. Dr. Ellie Sattler, who is no longer married, observes that crops grown with Biosyn seeds are left uneaten, raising suspicions that Biosyn created the insects. Ellie takes a captured locust to her former partner, palaeontologist Dr. Alan Grant. They determine the locust was genetically engineered with Cretaceous-period arthropod DNA and contemporary migratory locusts.

Franklin, now with the CIA's dangerous-species division in San Francisco, informs Claire and Owen that Maisie may have been taken to Malta. Upon arrival, Claire and Owen infiltrate a dinosaur black market with Owen's former Jurassic World colleague Barry Sembène, who is leading a French Intelligence raid. Carnivorous dinosaurs are unleashed during the foray, wreaking havoc. When Claire and Owen learn that Maisie and Beta were transported to Biosyn, sympathetic cargo pilot Kayla Watts agrees to fly them there.

Chaotician Dr. Ian Malcolm now works for Biosyn. He sought Ellie's help to expose CEO Dr. Lewis Dodgson after communications director Ramsay Cole warned him of Dodgson's illegal activities. Dodgson is exploiting dinosaurs and coerces former InGen geneticist Dr. Henry Wu to modify the transgenic locust to let Biosyn corner the world's food supply. Wu denounces the plan, saying it will cause an ecological collapse as the locusts spread unchecked. Wu meets Maisie and explains that his former colleague, Dr. Charlotte Lockwood (Benjamin Lockwood's deceased daughter), used her own DNA to replicate and give birth to the genetically identical Maisie. Charlotte altered Maisie's DNA to prevent her from inheriting the fatal disease which she had. Wu believes that Maisie and Beta's asexual conception and DNA are key to creating a pathogen to halt the locust outbreak.

A Quetzalcoatlus attacks Kayla's plane in Biosyn's airspace, forcing Owen and Kayla to crash land while Claire is ejected. After separate encounters with a Therizinosaurus, Pyroraptor and Dilophosaurus, the three regroup. Inside Biosyn, Ian and Ramsay covertly advise Ellie and Alan on where to obtain a locust DNA sample. While searching for the lab, they encounter Maisie. Discovering the breach, Dodgson attempts to incinerate the locusts to destroy evidence; some locusts escape through an air vent, sparking a wildfire around the preserve.

Alan, Ellie, and Maisie barely escape the facility before finding Ian. They meet Owen, Claire and Kayla, with Ramsay later joining them. Dodgson flees with dinosaur embryos via a hyperloop, but becomes trapped after Claire and Ellie reroute the power and is then killed by three Dilophosaurus. As the group works together, Owen, with Alan and Maisie's help, captures Beta. They and Wu escape in a Biosyn helicopter during a battle between a Giganotosaurus and the first park's veteran��Tyrannosaurus, aided by the Therizinosaurus.

Ellie and Alan rekindle their romantic relationship before testifying with Ian and Ramsay against Biosyn. Owen, Claire, and Maisie return home and reunite Beta and Blue. Wu releases a host locust carrying the pathogen, gradually eradicating the swarms. Dinosaurs and humans adapt to a new co-existence, and the United Nations declares Biosyn Valley an international dinosaur sanctuary.

Review:

So over three new Jurassic films, we’ve gone from a second attempt at a dinosaur theme park that used “world” in the title to a world in which dinosaurs have now reached the wider world, yet it hasn’t really lived up the title of the trilogy at all.  Instead, we’re pulled up short, and not in the best manner possible.  I mean, I can understand why to some degree.  The studio executives at Universal doubtless want to keep the franchise alive over the long-term, and of course they’re probably anxious not to imitate something like Planet of the Apes where humanity is being supplanted by another species due to scientific meddling.

However, by not putting us into a humans vs dinosaurs survival scenario, the film lacks any real resonance.  The plot largely revolves around one genetically engineered human girl and a bunch of locusts modified with prehistoric genetics, making the dinosaurs virtually superfluous and not really tackling their impact on the world.  I expected more around dinosaurs out-competing modern animals, causing widespread ecological mayhem by themselves and some debate on whether they should be killed to restore the eco-systems we know, contained to minimise further damage, or could humanity adapt by scaling up our current approaches to animal management.

The result of not doing this is the Jurassic franchise wasting time rehashing old plot points and issues we’ve already seen umpteen times already, and then trying to compensate with the blatant fan-service of putting the original trilogy of Dern, Goldblum and Neill in alongside the Jurassic World duo.  Another original JP character comes back in the form of Dodgson, but due to the original actor having since been tried and convicted of child sex offences (at least according to Wikipedia), we get a change of actor.  Apparently, Dodgson plays a larger role in the novels that the initial films were based on, and core elements of the character remain consistent across both film and books, but I’m not wild about the Steve Jobs-like presentation of the character given by actor Campbell Scott in this film.

The key reason why I’m not wild about this is because a few years ago, Disney did a Ducktales reboot series in which they do the same kind of thing with a new character for that series, and it also plays too much into the trope of human villains in Jurassic films being weaselly, smarmy jerks that present little to no real threat.  They ultimately just wind up as dinosaur food without really doing anything beyond spouting the odd line or two that basically broadcasts that they’re detestable people.  Just once, it would be nice to see a human villain in a Jurassic film pose a major threat instead of being some irksome twit.  Only the hunter Roland Tembo from Jurassic Park: The Lost World comes close in that respect.

As much as I respect this film for its decent plot, issue exploration, acting and good fan service, it fails to keep the dinosaurs central to the plot or provide a better class of antagonist, issues that I think the upcoming seventh Jurassic film will need to address to keep the franchise viable.  Overall, I give it 7 out of 10.

BDB India is a Best Agriculture Market Research Company

BDB India gives information about Agricultural Market Research

Agricultural Machinery and Farm Equipment

Indian Agricultural Machinery and Farm Equipment market is one of the most prominent in the world. Global majors have made inroads here (and Indian companies have established themselves overseas). The major drivers of a double digit growth rate in this sector are availability of credit, focus on productivity and mass migration of entire communities from rural to urban areas leading to an urgent need for mechanization in farming. BDB India is a Best Agriculture Market Research Company

BDB India is one of the leading agricultural market research company. BDB has identified a plethora of opportunities for global companies. BDB has successfully undertaken strategy consulting assignments in the field of tractors, drip irrigation, sprinklers, pump sets, sprayers, threshers, tillers and combined harvesters. The agriculture industry has been widely exposed to international trends and has shown considerable adaptability to change and mechanization.

Agrochemicals, Fertilizers & Seeds

BDB’s familiarity with agriculture inputs is admirable. In India crop losses due to pest attack are among the highest in the world, while pesticide usage is among the lowest which stands at 381g per hectare as against world average of 500g.

Whether it is transgenic seeds, speciality fertilizers or new generation pesticides; BDB’s domain expertise has enabled clients to grow rapidly in this diversified and dynamic Indian market.

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Innovations Galore: Exploring the Expanding Horizons of the Recombinant DNA Technology Market

Introduction

Recombinant DNA technology, often referred to as genetic engineering, is a revolutionary field that has transformed the landscape of biotechnology and healthcare. This cutting-edge technology allows scientists to manipulate and modify DNA in ways that were once only imagined in the realm of science fiction. Today, the Recombinant DNA Technology Market stands at the forefront of innovation, promising a myriad of applications in medicine, agriculture, and beyond.

Understanding Recombinant DNA Technology

Recombinant DNA technology involves the combination of genetic material from different sources to create novel genetic sequences. This technology has enabled scientists to produce genetically modified organisms (GMOs), develop gene therapies, and create biopharmaceuticals. It offers a range of possibilities, including the production of insulin, growth hormones, and vaccines.

Market Growth and Drivers

The Recombinant DNA Technology Market has been on a continuous growth trajectory due to various factors. The increasing prevalence of genetic disorders, the need for efficient drug development, and the demand for sustainable agriculture are some of the key drivers propelling the market's expansion.

1. Medicine and Healthcare: Recombinant DNA technology has revolutionized the pharmaceutical industry. It allows for the production of biopharmaceuticals, such as monoclonal antibodies and vaccines. Gene therapies for various genetic disorders, such as cystic fibrosis and muscular dystrophy, are on the horizon, offering hope for patients who were previously without treatment options.

2. Agriculture: In agriculture, genetically modified crops have become prevalent. These crops are engineered to be resistant to pests and diseases, leading to increased crop yields and reduced reliance on chemical pesticides. The market for genetically modified seeds is growing as farmers seek sustainable solutions to address food security challenges.

3. Research and Development: The research sector also heavily relies on recombinant DNA technology. It enables scientists to create transgenic animals and develop cellular models for studying diseases and drug testing. The market for research tools and kits, such as plasmids and vectors, has expanded as a result.

Challenges and Ethical Considerations

Despite its promise, recombinant DNA technology is not without challenges and ethical concerns. The potential risks of unintended consequences, such as the creation of harmful GMOs or ecological disruption, need to be carefully considered. Ethical debates surrounding genetic modification, especially in humans, continue to shape the regulatory landscape.

Market Trends and Innovations

1. CRISPR-Cas9 Technology: The emergence of CRISPR-Cas9 technology has revolutionized gene editing. It offers precise and efficient gene modification, making it a game-changer in fields like gene therapy and agriculture.

2. Personalized Medicine: The concept of personalized medicine, driven by genetic information, is gaining momentum. Recombinant DNA technology plays a pivotal role in tailoring medical treatments to an individual's genetic profile.

3. Synthetic Biology: Advances in synthetic biology are pushing the boundaries of recombinant DNA technology. Scientists are now designing and constructing entirely new DNA sequences for various applications, including the development of biofuels and biomaterials.

Conclusion

The Recombinant DNA Technology Market is poised for continued growth and innovation. Its applications in medicine, agriculture, and research are transforming industries and offering solutions to some of the most pressing global challenges. While challenges and ethical concerns persist, careful regulation and responsible practices are essential to ensure the technology's benefits are harnessed effectively.

As scientists continue to push the boundaries of genetic engineering, the potential for breakthrough discoveries and transformative applications remains vast. The Recombinant DNA Technology Market represents a journey into the future of biotechnology, where the power of genetic manipulation is harnessed for the betterment of humanity.

Agriculture Biotechnology Market Global industry share, growth, drivers, emerging technologies, and forecast research report 2030

The latest market report published by Credence Research, Inc. “Global Agriculture Biotechnology Market: Growth, Future Prospects, and Competitive Analysis, 2022 – 2030. The agricultural biotechnology market is projected to attain USD 156,479.86 million by 2030, growing at a CAGR of 6.97% during the length from 2023 to 2030.

Agricultural biotechnology represents a collection of scientific techniques used to improve plants, animals, and microorganisms. By manipulating DNA and genetic structures, biotech can bolster crop yields, enhance nutritional content, and create more resilient agricultural ecosystems.

Agriculture Biotechnology Market Key Growth Trends refer to the significant patterns and developments shaping the agricultural industry through the application of biotechnology. This market has witnessed a remarkable surge in recent years, owing to its potential for enhancing crop yield, quality, and resistance against pests and diseases. One key growth trend is the increasing adoption of genetically modified (GM) crops that possess desirable traits such as herbicide tolerance or insect resistance. These GM crops have revolutionized agriculture by reducing chemical inputs, improving productivity, and addressing food security challenges worldwide.

Applications:

Transgenic Crops (GMOs): These are genetically modified to resist pests, diseases, and environmental conditions, or to enhance their nutritional value.

Biopesticides: Microorganisms are used to combat pests, reducing the need for chemical pesticides.

Tissue Culture: Used for disease elimination, plant breeding, and the production of a consistent, high-quality plant material.

Molecular Breeding: Speeds up the traditional plant breeding process.

Vaccines: Development of edible vaccines in plants.

Animal Biotechnology: Used to genetically modify animals to improve their suitability for pharmaceutical, agricultural, or industrial applications.

Market Dynamics:

Drivers: Growing global food demand, the need for resistance against pests and diseases, the demand for more nutritious food, and the need to adapt to changing climates.

Restraints: Ethical concerns, potential health impacts, and environmental concerns associated with GMOs. Regulatory hurdles also slow down approvals for genetically modified crops.

Regional Dynamics:

North America, especially the U.S., has been a major adopter of agbiotech solutions.

Asia-Pacific is witnessing rapid growth due to its rising food demand, population growth, and acceptance of GMO crops in some countries.

Europe remains mixed with stringent regulations on GMOs in many countries but openness in others.

Key Players:

Companies like Monsanto (now a part of Bayer), Syngenta, DuPont Pioneer, and BASF are some of the major players in this domain. These entities have been involved in research, product development, and distribution of various biotech seeds and products.

Trends and Innovations:

CRISPR-Cas9: The rise of the CRISPR gene-editing technology could revolutionize agbiotech by enabling precise edits without introducing foreign DNA.

Precision Agriculture: The combination of IoT devices, drones, and biotech helps farmers make real-time decisions about their crops.

Microbiome Research: Understanding the soil and plant microbiomes can lead to innovative biotech solutions that enhance crop health and yield.

Challenges:

Public Perception: Public skepticism and resistance to genetically modified organisms can influence market growth.

Regulatory Challenges: Getting approvals for GMOs can be lengthy and challenging in many jurisdictions.

Environmental Concerns: There are concerns about the long-term impacts of GMOs on ecosystems and biodiversity.

Future Outlook:

With the global population set to reach nearly 10 billion by 2050, agricultural biotechnology will play a crucial role in ensuring food security.

As research progresses and newer technologies emerge, the potential for agbiotech to offer sustainable and efficient solutions to agricultural challenges will likely increase.

Browse 228 pages report Agriculture Biotechnology Market by technology (Genome Editing, Genetic Engineering, Synthetic Biology, Biochips, Others), by application (Crop Improvement, Animal Improvement, Biofuels, Others), and by-product (Seeds, Traits, Other Products) - Growth, Future Prospects & Competitive Analysis, 2016 – 2030)- https://www.credenceresearch.com/report/agriculture-biotechnology-market

The agricultural biotechnology market exhibits different growth patterns, acceptance levels, and challenges across various regions. The regional analysis of the agricultural biotechnology market gives insights into how geopolitical, economic, cultural, and regulatory factors influence its development in different parts of the world. Here's a regional analysis as of my last update in 2021:

North America:

Drivers: High investment in R&D, acceptance of GMO crops, advanced farming practices, and technological adoption.

Market Leaders: The U.S. and Canada. The U.S. has been a major adopter and developer of agbiotech solutions, with a significant portion of its crops being genetically modified.

Challenges: Occasional public skepticism, though less compared to regions like Europe.

Europe:

Drivers: Some countries are open to biotech crops for feed and import, and there's significant research happening in the biotech space.

Market Leaders: Spain and Portugal have shown more acceptance of biotech crops.

Challenges: Stringent EU regulations on GMOs, strong public skepticism in certain countries, and frequent anti-GMO campaigns.

Asia-Pacific:

Drivers: Rising food demand, population growth, increasing acceptance of GMO crops in certain countries, and the need to enhance agricultural productivity.

Market Leaders: India, China, and Australia. While China invests heavily in biotech research, India has approved certain GM crops like Bt cotton.

Challenges: Regulatory hurdles, public skepticism in some nations, and concerns about biodiversity.

South America:

Drivers: Need to boost agricultural exports, favorable climates for diverse crops, and positive results from early GMO adopters.

Market Leaders: Brazil and Argentina are significant adopters of genetically modified soybean, corn, and cotton.

Challenges: Concerns about biodiversity, especially in areas close to the Amazon, and local resistance in some regions.

Africa:

Drivers: The challenge of food security, changing climates affecting traditional farming, support from entities like the African Agricultural Technology Foundation.

Market Leaders: South Africa has been a notable adopter of GMOs. Countries like Nigeria and Kenya have shown interest in exploring biotech solutions.

Challenges: Public perception, lack of infrastructure for biotech research, and concerns about foreign entities dominating their agriculture.

Middle East:

Drivers: Need for sustainable farming solutions in arid regions, potential for increased crop yields.

Market Status: More on the research side, with countries like Israel being at the forefront of agbiotech research.

Challenges: Water scarcity, geopolitical issues, and traditional farming practices.

Why to Buy This Report-

The report provides a qualitative as well as quantitative analysis of the global Agriculture Biotechnology Market by segments, current trends, drivers, restraints, opportunities, challenges, and market dynamics with the historical period from 2016-2020, the base year- 2021, and the projection period 2022-2028.

The report includes information on the competitive landscape, such as how the market's top competitors operate at the global, regional, and country levels.

Major nations in each region with their import/export statistics

The global Agriculture Biotechnology Market report also includes the analysis of the market at a global, regional, and country-level along with key market trends, major players analysis, market growth strategies, and key application areas.

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Transgenic Seeds Market - Development Factors, Business Insights, Latest Revenues, Future Growth by 2029

Transgenic Seeds market research report indicates that the market is expected to surge at a steady rate in the coming years. This large scale market report provides a comprehensive review of the global market. Analysts have identified the key drivers and restraints in the overall market. The historical milestones achieved by the global market and emerging trends have also been studied in this business report. Adopting such market analysis report is becoming very essential for the businesses as it supports with the better decision making, revenue generation, prioritizing market goals and profitable business.

The credible Transgenic Seeds market analysis report is objective in nature but includes valuable comments by subject-matter experts. The market report authenticates and affirms the findings listed by the research analysts. The analytical approach of the research report allows the readers to get a detailed understanding of the finest nuances affecting the market dynamics. This report opens a discussion about the changing economy, governing policies, and political shifts that are expected to shape the market. What is more, Transgenic Seeds market report assists in figuring out brand awareness, market landscape, possible future issues, industry trends and customer behavior which ultimately leads to refined business strategies.

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This transgenic seeds market report provides details of new recent developments, trade regulations, import export analysis, production analysis, value chain optimization, market share, impact of domestic and localised market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographic expansions, technological innovations in the market. To gain more info on transgenic seeds market contact Data Bridge Market Research for an Analyst Brief, our team will help you take an informed market decision to achieve market growth.

Global Transgenic Seeds Market Scope and Market Size

The transgenic seeds market is segmented on the basis of trait and crop type. The growth among segments helps you analyse niche pockets of growth and strategies to approach the market and determine your core application areas and the difference in your target markets.

·         On the basis of crop type, the transgenic seeds market is segmented into corn, oilseeds, and others.  Oilseeds segment is further segmented into soybean, cotton and canola. Others segment is further segmented into fruits and vegetables, alfalfa and, other grain and oilseed crops.

·         On the basis of trait, the transgenic seeds market is segmented into herbicide tolerance (HT), insect resistance (IR), and other commercial traits.  Other commercial traits segment is further segmented into modified product quality, disease resistance and abiotic stress tolerance.

Transgenic Seeds Market Share Analysis

The transgenic seeds market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, global presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies’ focus related to transgenic seeds market.

Some of the major players operating in the transgenic seeds market report are E.I. du Pont de Nemours & Company, Dow AgroSciences LLC, Suntory Holdings Ltd., Syngenta AG, Bayer Crop Science AG, Monsanto, Vilmorin & Cie SA among other.

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Transgenic Seeds Market Country Level Analysis

The global transgenic seeds market is analyses and market size, volume information is provided by country by trait and crop type as referenced above.

The countries covered in the transgenic seeds market report are U.S., Canada, Mexico in North America, Germany, Poland, Ireland, Italy, U.K., France, Spain, Netherlands, Belgium, Switzerland, Turkey, Russia, Rest of Europe in Europe, Japan, China, India, South Korea, New Zealand, Vietnam, Australia, Singapore, Malaysia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific (APAC) in Asia-Pacific (APAC), Brazil, Argentina, Chile, Rest of South America as a part of South America, UAE, Saudi Arabia, Egypt, Kuwait, South Africa, Rest of Middle East and Africa(MEA) as a part of Middle East and Africa(MEA).

North-America is dominating the transgenic seeds market due to technological advancements and high investment in agricultural activities However, Asia-Pacific region is undergoing substantial gains and is projected to score the highest compound annual growth rate (CAGR) during the forecast period of 2022-2029. This is because of the boosting the demand for transgenic seeds in the region. Soybean, maize, canola, and cotton are the major transgenic crops cultivated.

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For a strategy, it is critical to have an objective understanding of market opinions. Our research provides a clear picture of market mood. We maintain this surveillance by engaging with Key Opinion Leaders from each industry's value chain.

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Our analysis assesses market investment centres based on projected demand, returns, and profit margins. By using our market research, our clients may concentrate on the most important investment centres.

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Our research and insights assist our clients in identifying business partners.

Key questions answered in the report:

·         What will the market development pace of Transgenic Seeds market?

·         What are the key factors driving the Global Transgenic Seeds market?

·         Who are the key manufacturers in market space?

·         What are the market openings, market hazard and market outline of the market?

·         What are sales, revenue, and price analysis of top manufacturers of Transgenic Seeds market?

·         Who are the distributors, traders, and dealers of Transgenic Seeds market?

·         What are the Transgenic Seeds market opportunities and threats faced by the vendors in the Global Transgenic Seeds industries?

·         What are deals, income, and value examination by types and utilizations of the market?

·         What are deals, income, and value examination by areas of enterprises?

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The China Rice Seed Market is segmented by Breeding Technology ( Hybrids, Open Pollinated Varieties & Hybrid Derivatives )

Agricultural Biotechnology Market Status and Outlook 2022-2029, Emerging Technologies, Industry Size and Share, Analysis of Covid-19 Impact, Competitive Strategies

Agricultural Biotechnology Market is grow at a CAGR 10.44% in the forecast 2022 to 2029.

Agricultural Biotechnology Market Scope and Size

·        On the basis of type, the agricultural biotechnology market is segmented into molecular diagnostics, molecular markers, tissue culture, vaccines, genetic engineering, and others.

·        On the basis of application, the agricultural biotechnology market is bifurcated into transgenic crops, flower culturing, nutritional supplements, biofuels, antibiotic development, vaccine development and others.

·        On the basis of organism type, the agricultural biotechnology market is divided into plants, animals, microbes, and others.

·        On the basis of technology, the agricultural biotechnology market is fragmented into genome editing tools, ribonucleic acid interference [RNAi], biochips, deoxy ribonucleic acid [DNA] sequencing, and synthetic biology.

·        Based on the product, the agricultural biotechnology market is segregated into crop protection products, transgenic seeds, and synthetic biology-enables products. Crop protection products are further sub-categorized into biostimulants, and biopesticides. Transgenic seeds are further sub-segmented into soybean, fruits and vegetables, maize, cotton, and others.

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Agricultural Biotechnology Market Country Level Analysis

The global agricultural biotechnology market is segmented on the product type, livestock, source and form.

 The countries covered in the agricultural biotechnology market report are U.S., Canada, Mexico in North America, Germany, Poland, Ireland, Italy, U.K., France, Spain, Netherlands, Belgium, Switzerland, Turkey, Russia, Rest of Europe in Europe, Japan, China, India, South Korea, New Zealand, Vietnam, Australia, Singapore, Malaysia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific (APAC) in Asia-Pacific (APAC), Brazil, Argentina, Chile, Rest of South America as a part of South America, UAE, Saudi Arabia, Egypt, Kuwait, South Africa, Rest of Middle East and Africa(MEA) as a part of Middle East and Africa(MEA).

MAJOR TOC OF THE REPORT

Chapter One: Agricultural Biotechnology Market Overview

Chapter Two: Manufacturers Profiles

Chapter Three : Agricultural Biotechnology Market Competition, by Players

Chapter Four: Global Agricultural Biotechnology Market Size by Regions

Chapter Five: North Agricultural Biotechnology Market by Countries

Chapter Six: Europe Agricultural Biotechnology Market Revenue by Countries

Chapter Seven: Asia-Pacific Agricultural Biotechnology Market Revenue by Countries

Chapter Eight: South Agricultural Biotechnology Market Revenue by Countries

Chapter Nine: Middle East and Agricultural Biotechnology Market Revenue Equipment by Countries

Chapter Ten: Global Agricultural Biotechnology Market Segment by Type

Chapter Eleven: Global Agricultural Biotechnology Market by Application

Get TOC Details:   https://www.databridgemarketresearch.com/toc/?dbmr=global-agricultural-biotechnology-market

major players operating in the agricultural biotechnology market are KWS SAAT SE & Co. KGaA, ChemChina, Corteva., Limagrain, MITSUI & CO., LTD., AgPlenus ltd., Biomica, Evogene Ltd., Canonic ltd., Bayer AG, Valent BioSciences LLC, Nufarm Limited, Marrone Bio Innovations., Performance Plants Inc., ADAMA Ltd.. Cargill, Incorporated., DuPont., Kemin Industries, Inc., Novozymes and DSM among others.

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