Upcoming Growth Trends in the Plant Breeding and CRISPR Plants Market

The plant breeding and CRISPR plants market is estimated to account for USD 7.6 billion in 2018 and is projected to reach USD 14.6 billion by 2023, at a CAGR of 13.95% during the forecast period. Strong funding by the private and public sectors toward plant biotechnology such as the development of high-throughput sequencing systems and application of MAS and genomic selection in field and vegetable crops are projected to drive the growth of the market over the next five years.

On the basis of application, the cereals & grains segment is projected to witness the fastest growth during the forecast period.

Corn, wheat, and rice are the major cereals bred with advanced technologies such as molecular breeding and genetic techniques. The availability of germplasm for these crops encourages the adoption of advanced techniques for crop breeding. The economic importance of corn due to its application in various sectors and increasing demand for high-quality wheat and rice in the food industry are other reasons for the adoption of hybrid breeding technologies among seed producers.

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On the basis of type, the biotechnological method is projected to witness the fastest growth in the plant breeding and CRISPR plants market during the forecast period

The increasing adoption of hybrid and molecular breeding techniques in developing countries and the growing cultivation of GM crops in the Americas are factors contributing to its high growth. The growing market for crop genetics in various countries of the Americas and the declining cost of genetic procedures in the past decade are factors driving the demand for genetic engineering and genome editing in the region. Unlike genetic techniques, no regulations are implied by the government for molecular breeding across the globe, which is projected to drive the growth of the biotechnological method at a higher rate during the forecast period. Advances in the field of CRISPR gene editing technology have brought about the third revolution in crop improvement and these tools can be used along with existing technologies. Growing innovation would facilitate the growth of CRISPR technology in agriculture, especially in countries such as the US, China, Japan, Brazil, and South Africa.

On the basis of trait, the herbicide tolerance segment is projected to witness the fastest growth in the plant breeding and CRISPR plants market

Increasing regulations on the use of chemical pesticides and rising instances of pest attacks during the early germination phase have increased the need for pesticide-tolerant seeds. Herbicide tolerance has been one of the major traits targeted by plant genetic companies for transgenic and non-transgenic crops. Non-transgenic Clearfield herbicide tolerance technology, developed by BASF and Syngenta, is recognized as one of the groundbreaking innovations in hybrid breeding technology, and more companies have exhibited their interest to enter this industry, which is projected to contribute to the growth in the next five years.

North America is estimated to dominate the market in 2018, while the Asia Pacific is projected to witness the fastest growth through 2023.

The increasing industrial value for corn and soybean in the US has been encouraging breeders to adopt advanced technologies for better yield, owing to which the adoption rate for crop genetics in this country has been high. Also, the limited regulatory control and high promotional support for intellectual property affairs in genetic technology have been extremely favorable toward the adoption of plant biotechnological tools in agriculture. Hence, North America dominated the global plant breeding market in 2017. On the other hand, there has been an ever-increasing demand for commercial seeds in the Asian market, in line with the improving economic conditions. Also, seed manufacturers such as Bayer, Monsanto, and Syngenta have been showing increasing interest in tapping this potential market, wherein the companies have been expanding their R&D centers across the Asia Pacific.

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This report includes a study of development strategies of leading companies. The scope of this report includes a detailed study of major seed manufacturers that have in-house plant breeding facilities; these companies include players such as Bayer (Germany), Syngenta (Switzerland), DowDuPont (US), KWS SAAT (Germany), Limagrain (France), and DLF Trifolium (Denmark), and also major service providers, such as Eurofins (Luxembourg), SGS SA (Switzerland), Pacific Biosciences (US), Benson Hill Systems (US), Hudson River Biotechnology (US), Evogene (Israel), Bioconsortia (US), and Equinom (Israel).

Key Trends Shaping the Biofortification Market

 The report “Biofortification Market by Crop (Sweet Potato, Cassava, Rice, Corn, Wheat, Beans, and Pearl Millet), Target Nutrient (Zinc, Iron, and Vitamins), and Region (Latin America, Africa, and Asia Pacific) – Global Forecast to 2023 “, is estimated at USD 78 million in 2018, and it is projected to grow at a CAGR of 8.6% from 2018 to reach USD 118 million by 2023. Biofortified crops are usually sweet potato, cassava, rice, corn, wheat, beans, pearl millet, and other crops such as tomato, banana, sorghum, and barley. The growth of the biofortification market is driven by the rising demand for high nutritional content in food.

By crop, the biofortified sweet potato is projected to dominate the biofortification market during the forecast period.

The sweet potato segment is estimated to hold the largest share of the biofortified crop market in 2018. The demand for biofortified crops such as sweet potato and cassava has increased with the rising technological advancements to increase the nutrient content, particularly in orange-fleshed sweet potato (OFSP). Sweet potato has been an important source of energy in the human diet for centuries owing to its high carbohydrate content. However, its vitamin A content from carotene only became recognized over the past century. Using biofortification, sweet potato breeding in Africa is focused on higher yields, sweeter taste, and higher dry matter, which increase its carotene concentration.

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By target nutrient, the vitamins segment is projected to be the fastest-growing segment in the biofortification market during the forecast period.

On the basis of target nutrient, the biofortification market is segmented into iron, zinc, vitamins, and others. The vitamins segment is the fastest-growing target nutrient in the biofortification market from 2018 to 2023. The demand for biofortified crops is increasing due to the increasing demand for high nutrient content in food. The rising demand for vitamins as feed additives or in premixes from the animal nutrition industry and the increasing demand for high-quality meat products have also been essential factors responsible for the increase in the demand for vitamins across the world.

Asia Pacific to be the dominant region in the biofortification market in 2018

The Asia Pacific is the dominant region in the biofortification market. Biofortification of crops has strong growth potential in agriculture, and it also improves the nutrition content in food. The biofortification market has grown considerably over the last five years, and this trend is expected to continue in the near future. The growing consumer demand for high nutritional content in food is projected to fuel the demand for biofortified crops, globally. Since the last decade, many countries in the Asia Pacific region have banned the usage of GM technology, and the researchers are opting to adopt biofortified crops as a key to unlock the region’s food production.

This report includes a study of marketing and development strategies along with the product portfolios of the leading companies in the biofortification market. It also includes the profiles of leading companies such as Bayer (Germany), Syngenta (Switzerland), Monsanto (US), and DowDuPont (US).

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Key Questions Addressed by the Report:

• What are the new target nutrients areas, which the biofortification companies are exploring?
• Which are the key players in the market and how intense is the competition?
• What kind of competitors and stakeholders such as biofortification companies, would be interested in this market? What will be their go-to strategy for this market and which emerging market will be of significant interest?

Food Authenticity Testing Market to Witness Unprecedented Growth in Coming Years

 The food authenticity testing market, in terms of value, is projected to reach USD 7.50 billion by 2022, at a CAGR of 7.6% from 2016 to 2022. The growing international trade is one of the factors driving this market as compels the manufacturers to comply with the global mandates and regulations for food authenticity due to the growing economically motivated adulterations (EMAs). As international trade increases complexities in the supply chain and the chances of cross-contamination and fraud, the demand for food authentication services is projected to remain high.

The objectives of the report:

• To define, segment, and project the size of the global food authenticity testing market on the basis of target testing, technology, and food tested
• To understand the structure of the food authenticity testing market by identifying its various subsegments
• To provide detailed information about the key factors influencing the growth of the market (drivers, restraints, opportunities, and industry-specific challenges)
• To strategically analyze micromarkets with respect to individual growth trends, future prospects, and their contribution to the total market
• To analyze the opportunities in the market for stakeholders and provide a competitive landscape of market trends
• To project the size of the market and its submarkets, in terms of value, with respect to four regions (along with their respective key countries)–North America, Europe, Asia-Pacific, and the Rest of the World (RoW)

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The food authenticity testing market, based on target testing, is segmented as meat speciation, country of origin and aging, adulteration tests, and false labeling. The adulteration tests segment is projected to be largest, and the meat speciation segment is projected to be the fastest growing in the food authenticity testing market through 2022. The increasing number of food frauds due to the complexity of the supply chain also contributed to the market growth.

The food authenticity testing market, on the basis of technology, is segmented into PCR-based, LC-MS/MS, isotope methods, immunoassay-based, and others, which includes NMR spectroscopy, test kits, and chemical tests. The PCR-based technology witnesses an increased use in food authenticity testing. It is a molecular technique that uses DNA for the analysis of meat and food products, providing precise results on testing. The technology amplifies fragments of DNA extracted from the food product samples to accurately identify the DNA of each species in the product. This enables cross-checking of the product’s authenticity and confirmation of product claims. LC-MS/MS represents the second largest technology segment in the market. This technology is used to detect the authenticity in the food products as well. The testing market through PCR-based technologies is largely driven by its wide applicability, accurate determination of adulterant, meat species or GMO in products even at 0.1% levels of detection.

The food authenticity testing market, based on food tested, is categorized into meat & meat products, dairy & dairy products, processed foods, ingredients, cereals, grains, and pulses. The processed food segment is projected to be the largest segment, whereas the meat & meat products segment is projected to witness the fastest growth in the market. The growth of the processed food segment is attributed to a wide number of processing applications of products such as infant formula, packaged food, wine, and other processed food products. Due to the increasing fraud and counterfeit instances in processed food products, the demand for the food authentication testing services remains high in this segment. On account of these factors, the processed food segment is projected to be the largest in the food authenticity testing market.

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The Asia-Pacific region is projected to be the fastest-growing market through 2022 due to the increasing food safety concerns among the consumers and the growing market for processed food. France is projected to be fastest-growing country in the European region. European countries have recorded many issues related to food authenticity; as a result, stringent policies have been established to ensure complete food authenticity. Food safety authorities in Europe aim to protect consumer health by ensuring the quality of the food supply chain.

This report includes a study of marketing and development strategies, along with the product portfolios of leading companies. It includes the profiles of leading companies such as SGS SA (Switzerland), Intertek Group plc (U.K.), Eurofins Scientific (Luxembourg), ALS Limited (Australia), LGC Science Group Ltd (U.K.), Merieux Nutrisciences Corporation (U.S), Microbac Laboratories Inc. (U.S.), EMSL Analytical Inc. (U.S.), Romer Labs Diagnostic GmbH (Austria), and Genetic ID NA, Inc. (U.S.).

Growth Strategies Adopted by Major Players in the Antibacterial Market

 The global antibacterial market in agriculture is projected to reach USD 11.89 Billion by 2022, at a CAGR of 4.6% during the forecast period. The market growth is driven by multiple factors such as the rise in the need for food security for the growing population, advancement in farming practices and technologies, and ease of application of antibacterial in agriculture. The antibacterial market is further driven by factors such as the increase in demand for fruits & vegetables, increase in acceptance for Integrated Pest Management (IPM) by farmers, and high opportunities in developing countries.

The objectives of the report are as follows:

• To define, segment, and measure the antibacterial market based on type, crop type, mode of application, form, and region
• To provide detailed information regarding the crucial factors influencing the growth of the market (drivers, restraints, opportunities, industry-specific challenges, and burning issues)
• To analyze opportunities in the market for stakeholders and details of the competitive landscape for market leaders
• To analyze competitive developments such as new product launches, acquisitions, investments, expansions, partnerships, agreements, joint ventures, and collaborations in the agricultural bactericides market
• Analyzing the demand-side factors based on the impact of macro and microeconomic factors on the market and shifts in demand patterns across different subsegments and regions

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Significant growth expected in the dithiocarbamate segment

Antibacterials in agriculture are highly used to control bacterial disease by specifically inhibiting or killing the bacterial causing the disease. They can be mixed with water, and hence easily applied through foliar spray, soil treatment. The ease in application mode has made these antibacterial products more convenient to use for the farmers. Dithiocarbamate are projected to be the fastest-growing types in the next six years.

The cereals & grains segment projected to be the fastest-growing market during the forecast period

Cereals & grains dominated the antibacterial market in agriculture in 2015; it is projected to grow at the highest CAGR of from 2016 to 2022. Rise in demand for cereals & grains, owing to the increased awareness regarding their nutritional benefits is driving the cereals & grains segment.

With a global increase in consumption of fruits & vegetables and growth in demand for tropical and exotic fruits & vegetables in the developing countries, this segment is likely to witness a growth by 2022.

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Increase in need for food security, high investment in R&D, and change in farming practices key to success in the European region

Europe is one of the largest contributors to the global antibacterial market in agriculture due to the increase in use of antibacterial products through advanced agricultural techniques and rise in need for food security in the European countries. Italy and France constituted the largest country-level markets in the European region in 2015. High market penetration by the leading antibacterial companies, for enhancing the agricultural growth and productivity, and the decrease in arable land are the main factors influencing the growth of the antibacterial market in agriculture in Europe.

This report includes a study of marketing and development strategies, along with the product portfolio of leading companies. These companies include BASF SE (Germany), Dow AgroSciences LLC (U.S.), Sumitomo Chemical Co., Ltd (Japan), and Bayer CropScience AG (Germany); these are well-established and financially stable players that have been operating in the industry for several years. Other players include Syngenta AG (Switzerland), Nippon Soda Co. Ltd. (Japan), and Nufarm Ltd. (Australia).

Sustainable Growth Opportunities in the Starter Feed Market

 The report “Starter Feed Market by Type (Medicated and Non-medicated), Ingredient (Wheat, Corn, Soybean, Oats, and Barley), Livestock (Ruminants, Swine, Poultry, Aquatic, and Equine), Form (Pellets and Crumbles), and Region – Global Forecast Up to 2022″, The global market for starter feed was valued at USD 21.45 Billion in 2015; this is projected to grow at a CAGR of 4.57% from 2016, to reach USD 29.15 Billion by 2022. The market is driven by factors such as the need to increase livestock production to cater to the growing demand for animal sourced products, and adoption of precision nutrition techniques.

Based on type, the global market is segmented into medicated and non-medicated. The medicated was the larger segment in 2015. The medicated starter feed segment is also projected to grow at a comparatively higher CAGR during the forecast period.

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The inclusion of oats in starter feed, based on ingredients, is projected to grow at a significant rate during the forecast period. Oats are easier to feed to animals than other cereals; they are mainly used in poultry feed of their high fiber and beta-glucan content. This is to drive the oats segment during the forecast period.

Based on livestock, the poultry segment was the largest in 2015; this is also to grow at the highest CAGR from 2016 to 2022. The poultry starter feed is a balanced nutritional formulation and helps poultry to establish a healthy appetite at the initial stage of growth. It also contains coccidiostat, which helps in the treatment of coccidiosis in young chicks. These factors drive the poultry starter feed market.

Based on form, the pellet segment was the largest in 2015; this is also projected to grow at the highest CAGR from 2016 to 2022. It is easy to feed to the animals, easy to store, and is the most common preference by the chicken farmers and triggers early feed intake.

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The Asia-Pacific market is projected to grow at the highest CAGR during the forecast period. The region is heterogeneous, with diversity in income levels, technology, and demand for better quality feed to livestock, leading to enhanced scope for future growth.

This report includes a study of marketing and development strategies, along with the product portfolio of leading companies such as Cargill, Incorporated (U.S.), BASF SE (Germany), Archer Daniels Midland Company (U.S.), Evonik Industries AG (Germany), and Koninklijke DSM NV (Netherlands).

Upcoming Growth Trends in the Food grade Alcohol Market

 The report "Food-grade Alcohol Market by Type (Ethanol, Polyols), Application (Food, Beverages, Healthcare & Pharmaceuticals), Source (Sugarcane & Molasses, Grains, Fruits), Functionality, and Region - Global Forecast to 2022", The food-grade alcohol market is projected to reach USD 12.86 Billion by 2022, at a CAGR of 3.9% from 2017 to 2022. The market is driven increasing global beer production and popularity of craft beer. Also, the increasing consumption of alcoholic beverages in the developing regions supported with the expansion of potential export markets due to demographic and economic reasons, have developed a growing platform for increased alcohol trade which is in turn driving the food-grade alcohol market.

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Based on type, the market has been segmented into Polyols and Ethanol. Ethanol accounted for the largest share in Europe’s food grade alcohol market in 2015. While proven health benefits of polyols have resulted in an increase in their use as an ingredient in the health care industry, the increase in production of beer and growth in alcohol trade has resulted in the increased use of ethanol as a major food grade alcohol in the beverage industry. There has also been a surge in the use of ethanol as a preservative in the food industry for increasing the shelf-life of the end products.

Based on application, food grade alcohol is used as a coloring and flavoring agent in the food and pharmaceutical industries. The proven benefits of polyols have resulted in the increase in the usage of food grade alcohol as an ingredient in the healthcare and pharmaceutical industries. As an excellent solvent, ethanol finds its usage in the manufacturing of antibiotics, tablets, pills, vitamins, and in a variety of medicines.

Based on source, sugarcane accounted for the largest market share in 2015. Sugarcane contains high levels of sucrose; and hence, it is fermented to make alcohol. Low product price associated with raw sugar in the global market has led to the increased use of sugarcane in the production of ethanol.

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Food-grade alcohol is used not only for manufacturing alcoholic beverages but also for food and healthcare & pharmaceutical products. Hence, as the demand for these consumables increases from end users, manufacturers use food-grade alcohol for making innovative food products. Europe has adopted the usage of food-grade alcohol in food, beverages, and pharma applications. The Asia-Pacific region is estimated to drive the market with the increase in demand for food-grade alcohol. The increase in consumption of alcoholic beverages and convenience food products are significantly impacting the growth of the market in this region, with the growing food-processing industry.

This report includes a study of marketing and development strategies, along with the product portfolio of key players. It includes the profiles of leading companies such as Archer Daniels Midland Company (U.S.), Cargill Inc. (U.S.), MGP Ingredients (U.S.) Sigma-Aldrich (U.S.), and Roquette Freres S.A. (France).

COVID-19 Impact on the Digital Agriculture Market

The report "COVID-19 Impact on Digital Agriculture Market by Smart Farming Systems (Livestock Monitoring, Yield Monitoring, Crop Scouting, Field Mapping, Real-Time Safety Testing, and Climate Smart), and Region - Global Forecast to 2021", Post COVID-19, the global digital agriculture market size is estimated to grow from USD 5.6 billion in 2020 and is projected to reach USD 6.2 billion by 2021, recording a CAGR of 9.9%.

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“Precision farming is the most attractive end-user industry in the digital agriculture market.”

The precision farming market is likely to increase in the long term after the COVID-19 outbreak, as precision farming makes it possible to monitor the state of the crops while not being physically present through the usage of automation, minimizing the need to contact other people, which is crucial during these times. This farming is an approach where inputs are utilized in precise amounts to get increased average yields, compared to traditional cultivation techniques. However, in the short term, COVID-19 would affect the market and the growth of the market would be relatively slower in the first and second quarters of the year 2020 due to economic slowdown and inflation.

These practices save time and costs: reduce fertilizer and chemical application costs, reduce pollution through less use of chemicals. Also, they help in monitoring the soil and plant physiochemical conditions: by placing sensors to measure parameters such as electrical conductivity, nitrates, temperature, evapotranspiration, radiation, and leaf and soil moisture, so that the optimal conditions required for plant growth can be achieved. These factors help to obtain a greater output with limited labor force during this pandemic situation where there is a shortage of labor and thus would help in a regular supply of food, thereby ensuring food security.

“Farm labor management remains the worst affected market during COVID-19.”

With the COVID-19 outbreak, farm labor management remains worst affected in the digital agriculture industry. The pandemic has a significant negative impact on the livelihoods of millions of workers engaged in export-oriented, labor-intensive agricultural production in developing countries. The pandemic may also have a serious impact on processing due to labor shortages and the temporary cessation of production. For example, according to International Labour Organization (ILO) 2020, Europe’s agricultural sector is facing dramatic labor shortages due to border closures that prevent hundreds of thousands of seasonal workers from reaching farms that rely on their labor during the harvest period. The impact on the sector is expected to be long term. Many major European agricultural producers, including France, Germany, Italy, Spain, and Poland, are particularly vulnerable. According to Coldiretti, the Italian organization representing farmers, over a quarter of the food produced in the country relies on approximately 370,000 regular seasonal migrant workers.

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“Asia Pacific to be the fastest-growing market in digital agriculture market during the forecast period”

The market for digital agriculture, by region, has been segmented into Asia Pacific, Europe, the US, and RoW. The Asia Pacific segment accounted for the fastest-growing market in 2021, by value, in the digital agriculture market. Asia Pacific comprises the most populated countries such as China and India, with increasing demand for agricultural products. These countries are also the most two of the most affected countries during COVID-19. The government policies supporting the digitization of farm processes and the need for efficient usage of natural resources, and decreasing availability of migrant labor are expected to increase the adoption of digital agriculture techniques.

Some of the major players in the market are DTN (US), Farmers Edge (Canada), Taranis (Israel), Eurofins (Luxembourg), and AgriWebb (Australia). DTN specializes in subscription-based services for the analysis and delivery of real-time weather, agricultural, energy, and commodity market information. The company mainly operates through four business segments, namely, agriculture, energy, weather, and financial analytics. The company offers different smart farming systems through the agriculture segment. Its agriculture segment provides an analysis of commodity markets; hyper-local weather and disease insights to guide planting, growing and harvesting operations to farmers and agribusinesses; and a real-time pulse on the industry so they are aware of the trends and how they may affect their operations