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E-commerce, Pulses, Trade

Lower imports by India, the world’s biggest consumer of protein-rich pulses, will help to support domestic prices, but will affect farming communities in Canada, Australia, Myanmar and Russia. 

India’s imports of pulses such as chickpeas could slump by 60% to a million tonnes in the 2020-21 financial year on bumper domestic production and government measures to curb overseas purchases, said Jitu Bheda president of IPGA (India Pulses and Grain Association) a leading trade body . 

Lower imports by India, the world’s biggest consumer of protein-rich pulses, will help to support domestic prices, but will affect farming communities in Canada, Australia, Myanmar and Russia.

 Bheda also added that India’s pulse imports are likely to treble to 2.5 million tonnes in the 2019-20 financial year to March, on the sidelines of the Pulses Conclave industry conference. Given that record imports of pulses led to a crash in domestic prices in 2016-17, India introduced import quotas for varieties such as yellow peas, green gram and chickpeas.

 

According to government quotas, traders could ship in only a million tonnes of pulses, but dealers imported an extra 1.5 million tonnes by petitioning various courts. Moreover, traders could ship in only a million tonnes of pulses, but dealers imported an extra 1.5 million tonnes by petitioning various courts as per to government quotas. Trade and industry officials say authorities have tightened loopholes to ensure that traders do not get to import beyond the quota fixed by the government. 

Next year traders may be able to import only the 1 million tonnes allowed by the government, Bheda said. 

Yellow peas, a substitute for home-gown chickpeas, account for nearly half of India’s total pulse imports. But this year’s domestic chickpea output is expected to exceed the previous year’s production of 10.13 million tonnes, obviating import needs. Chickpea prices are currently trading at about 4,000 rupees per 100 kg, substantially lower than the government-set guaranteed price of 4,875 rupees.

 This could force the government to ask agencies such as the National Agricultural Cooperative Marketing Federation of India (NAFED), a leading farmers’ cooperative, to buy produce from farmers, Bheda said. 

NAFED could make more purchases at the government-set price this year than last year to help farmers, said NAFED executive Sunil Kumar Singh. In 2019 NAFED bought 2.7 million tonnes of chickpeas from farmers. “We are ready for as much procurement as required. There is not a set target,” Singh said.

Lower imports by India, the world’s biggest

Agrotech, Country, E-commerce, Singapore, Trade

The plant will have a production capacity of seven million litres per year, to cover 20 million ha of farmland and employ a staff of more than 25 employees.

BASF broke ground on a new regional production hub in Singapore for its crop protection products in Asia Pacific. Groundbreaking ceremony marks start of a new BASF production hub for crop protection in Singapore.

Scheduled for completion in Q3 2021, the multipurpose facility has been designed to handle six different formulation technologies and will supply the company’s patented crop protection products to farmers across the fast-growing Asia-Pacific region.

 When fully operational, the plant will have a production capacity of seven million litres per year, to cover 20 million ha of farmland and employ a staff of more than 25 employees. Khalil A Bakar, director of energy and chemicals at the Singapore Economic Development Board, said that BASF’s regional production hub in Singapore is expected to enhance the supply of safe, nutritious and affordable food in the region. 

Vincent Gros, president of BASF’s agricultural solutions division, remarked, “With this new facility, we will be able to help farmers in Asia, including many smallholders, improve the productivity and sustainability of their farms. We are very optimistic about the future of agriculture in the region, and the potential for Singapore to help serve as a hub for agricultural technology for the Asia-Pacific.”

 

 

 

The plant will have a production capacity

Agrotech, E-commerce, R&D

Bayer’s annual investment of 2.3 billion euros in crop science R&D powers the most productive pipeline in the industry.

 

Bayer recently announced pipeline project advancements and newly unveiled research in a dedicated research and development (R&D) pipeline update for the Crop Science Division. In 2019, Bayer’s pipeline delivered 55 key project and formulation advancements while providing farmers around the world with more than 450 newly commercialized hybrids and varieties of corn, soybeans, cotton and vegetables. Bayer’s annual investment of 2.3 billion euros in crop science R&D powers the most productive pipeline in the industry. With an estimated peak sales value of up to 30 billion euros, Bayer continually converts its R&D investment into innovative products that match the complexities farmers, consumers and the planet are anticipated to face. 

At Bayer, we are driven to help solve some of the world’s toughest challenges. In agriculture, this means helping feed the world without starving our planet. Farmers with operations of all sizes need innovation not only to grow enough nutritious food, but also to do this in a sustainable manner that respects our planetary boundaries,” said Liam Condon, member of the Bayer Board of Management and president of the Crop Science Division. “Our employees are united around this goal, and our unrivaled pipeline is delivering against it.” 

Bayer’s leadership is built on an innovation strategy that balances both incremental and disruptive approaches to R&D. With unmatched expertise across seeds and traits, crop protection and digital agriculture, Bayer invests in improving high-performing products customers already benefit from today, while also imagining new ways to farm.

 

Bayer’s annual investment of 2.3 billion euros

Country, E-commerce, North America, Seeds, Trade

The Joint Venture is expected to be operational within the 1st Quarter of 2020.  

  Appiphany Technologies Holdings Corp., a company focused on the emerging and dynamic Hemp industry, announced that it has signed a joint venture agreement with Tsilaan, LLC and Kola Venture Group, LLC (KVG), providing for the formation of a new company which will cultivate and distribute throughout North America valuable seeds and genetics for the industrial hemp industry. 

“We are very excited about this new Joint Venture which anchors Appiphany in the hemp industry with extremely experienced and successful partners,” comments Scott Cox, Appiphany CEO. “The combination of the scientific seed and genetic experience of Tsilaan and the network and marketing reach of Kola Venture Group allows Appiphany the opportunity to be a part of what we expect to become a very successful operation.”

 The Joint Venture operations will be located in Washington and Colorado as part of Tsilaan’s and KVG’s current facilities. It will utilize the initial seed stock of two million seeds provided by Tsilaan to develop advanced genetics for essential oils and fiber applications, produce seed starts and further seed propagation within several regions throughout the U.S. Both KVG and Tsilaan will market seeds, seed starts and clones.

 Andrew Elliot, manager of Tsilaan and an industry pioneer, comments: “We are honored to work with Kola and Appiphany to have the opportunity to showcase the result of our work on the Hemp genome. Our stable, consistent strains of hemp products will undoubtedly separate us from the rest in the space. Under the direction of Dr. Paul Matthews, we have isolated key molecular markers to bring sustainable hemp to regions that haven’t had the opportunity to produce the hemp species until now. This venture is a perfect combination of product, operational management and capital.”

 

“The timing of this venture could not be more perfect,” comments Mark Mersman, manager of Kola Venture Group. “As we look to the future of hemp, we must first start by figuring out how to control the quality and cost of the inputs that go into the production cycle. We look forward to a successful partnership with the deep seed and genetics expertise of Tsilaan and the proven leadership in the finance arena that Scott and Appiphany have to offer.”

 

“The seed and genetics area of the hemp industry is currently an exciting sector which is growing exponentially. We are establishing Verde Bio Holdings to respond to opportunities such as this where we can bridge the gap between the hemp industry’s need for capital and the industry’s limited access to the larger capital markets,” Cox says.

 

 

The Joint Venture is expected to be

E-commerce, Finance, Start ups, Trade

The funds will be used to grow its farm network and diversify their offerings  

 

 

Greenhouse Agritech startup Clover has raised over $5.5 million in a Series A funding round, from venture capital (VC) firm Omnivore and existing investors Accel and Mayfield. 

Clover is an Agritech platform that works with farmers across India and markets greenhouse-grown produce through business to business (B2B) and business to consumer (B2C) channels. The company will use the funds to grow its farm network and diversify their offerings, said its co-founder Avinash B R. 

The Bengaluru-based company was co-founded by Avinash, Gururaj Rao, Arvind Murali, and Santhosh Narasipura.“We are thrilled to partner with Omnivore, Accel, and Mayfield as we scale our operations across multiple metro areas. This additional funding will help to accelerate the growth of our managed farm network, support our entry into new cities, and diversify our B2B and B2C fresh produce offerings,” Avinash said in a statement. 

“We believe that Clover is building India’s first fresh produce supply chain adapted to the challenge of climate change. By leveraging peri-urban greenhouses, Clover can deliver the highest quality vegetables and fruits to B2B and B2C consumers in India’s largest metro areas,” said Mark Kahn, Managing Partner of Omnivore. 

Prashanth Prakash, Partner at Accel, said, “Clover is transforming the perishables supply chain to better serve the new-age Indian consumer who values high quality produce. We look forward to the journey with a team that has a deep understanding of this space.”

The funds will be used to grow

R&D

Origin has developed a double stacked insect resistance and glyphosate tolerance corn with a proprietary new Cry1Ah Bt gene for insect resistance.

Origin Agritech Ltd. updates the progress of biotech research programs and strategies for the commercialization of GMO corn seeds and traits.  

As the Chinese Ministry of Agriculture and Rural Affairs (MOA) has recently issued two more biosafety certificates for biotechnology corn traits, it is now more widely expected that the Chinese authorities will approve the planting and commercialization of biotech corn seed in China. As the leading corn seed biotechnology developer, Origin has been preparing for the commercialization of its technology for many years and has a rich pipeline to meet the potential demand for corn seed biotechnologies.

Glyphosate(G2) tolerance and insect resistance (Bt) corn: With the cooperation program between Origin and China Academy of Agriculture Science (CAAS), Origin has developed a double stacked insect resistance and glyphosate tolerance corn with a proprietary new Cry1Ah Bt gene for insect resistance and a proprietary new G2 gene for glyphosate tolerance. This double-stacked trait has completed several years of production test and is now in the final phase of biosafety certificate review from Chinese MOA. This double stacked trait has also been integrated into the Company’s elite corn hybrids.

Origin has commercial cooperation programs with several multinational and local seed producers, including DuPont Pioneer and KWS. These programs are progressing very well, and the related technical work, including integration of Origin’s traits into their corn hybrids, mostly has been completed.

Furthermore, the next generation of insect resistance traits involving new Bt genes has been evaluated. New double-stacked and triple-stacked traits have been under intermediate testing. These traits are expected to expand the insecticidal spectrum and durability.

Phytase: The Company’s phytase trait is the first biotechnology corn trait receiving the biosafety certificate from the MOA in 2009. Four commercial hybrids with phytase traits have completed a number of variety production tests. These varieties with phytase traits have been submitted to the Chinese MOA to obtain variety safety certificates.

Origin continues to work with CAAS in developing next generation GMO genes to expand its GMO trait pipeline. Origin also works closely with CAAS for the biosafety certificate applications and commercialization of GMO corn seeds in China. 

As announced previously, the Company is working with Beijing Changping Technology Innodevelop Group (BC-TID) to establish a joint venture to focus on the commercialization of genetically modified (GM) corn seed technologies. At this point, BC-TID has deposited RMB15 million (US$2.1 million) in an escrow account and the Company is completing the final steps of preparatory work so that BC-TID can inject the first tranche of cash investment as soon as possible.

In summary, the issuance of the biosafety certificate for two corn seed traits last month is a strong indication that the Chinese MOA is moving towards approving the commercialization and planting of GM corn seeds in China. The Company’s double-stacked corn traits of glyphosate tolerance and insect resistance is now in the final phase of biosafety certificate review by the Chinese MOA. Further cooperation with CAAS and the funding from BC-TID through the joint venture could provide the Company strong technical and financial support. Origin is prepared to take advantage of the opportunities in the field of agriculture biotechnology.

Origin has developed a double stacked insect

Agrotech

CropIn will help to streamline the CCE process and make it more accurate and scalable.

Government of India has partnered with Bengaluru-based agritech startup CropIn Technologies to streamline the CCE (Crop Cutting Experiment) process and make it more accurate and scalable. 

CCE is an assessment method that was employed by the Government of India as part of its Pradhan Mantri Fasal Bima Yojana (PMFBY), launched in 2016. CCE is aimed at accurately estimating the yield of a crop in a region during a given cultivation cycle. 

However, under the influence of climate change, weather fluctuations, and other variable factors, the traditional method of CCE such as surveys, made accurate data collection difficult. Such challenging situations resulted in the government to have a robust system for assessing crop loss and fool-proofing the insurance claim settlement process. 

According to a statement released by the startup, the goal of this partnership is to prevent improper data collection and provide complete digitisation of farms and farmers-level data. 

AI and data-led CropIn will help the government in providing technical support to conduct reliable, accurate, and large scale CCE within a short harvesting window and limited manpower, using its capabilities such as live reporting, analysis, interpretation, and insight that span across geographies. 

Commenting on the partnership, Jitesh Shah, Chief Revenue Officer, CropIn Technologies said, “In the last two years, we have done substantial work with the government to optimise the CCE process for cotton, paddy, maize, and other crops in states such as Maharashtra, Madhya Pradesh, and Karnataka. CropIn’s solutions have helped these states to significantly reduce the processing time for settling insurance claims. CropIn’s efforts are aligned with the PMFBY’s vision to have a database of land records of all farmers in the country by October 2020, and link insurance policies to the land records.” 

The government uses the data gathered from CCE to disburse payment for farmers’ insurance claims. The PMFBY requires each state to carry out at least four CCEs in every village panchayat for each crop and submit the yield data to insurance companies within one month of harvest. 

The government will be leveraging CropIn’s digital platforms such as SmartFarm and SmartRisk solutions to ensure that these claims and payment processes are backed by data, and are as accurate as they can get. 

In 2019, CropIn had partnered with the government to conduct experiments on cotton crops in Jalna district of Maharashtra; on soybean and paddy crops in Sehore and Jabalpur districts in Madhya Pradesh respectively; and on cotton and paddy crops in Bellary and Koppal districts in Karnataka respectively.

 
 
 

CropIn will help to streamline the CCE

Inputs

Cindy Brown, president of Global Pulses Confederation was speaking at 5th edition of Pulses Conclave 2020, organised by Indian Pulses and Grains Association started at Amby Valley Lonavala.

Global Pulse Confederation (GPC) – the world wide body of the pulses value chain is looking to partner with various stakeholders in the pulses industry in India to grow both consumption and cultivation of pulses in the country, said Cindy Brown president of GPC. Brown was speaking in the Pulses Conclave 2020 which is organised by Indian Pulses and Grains association started at Amby Valley Lonavala.

 Cindy Brown, GPC president while speaking to www.agrospectrumindia.com, said “India’s shift from being the biggest importer of pulses has affected the global marketing also. Since the last few years increased availability of domestically grown pulses have changed India’s status as the biggest importer of pulses. This has affected the global market.”

“It has affected the world pulses trade . I believe the world has changed in pulses production that they grow,” she said. Canada is now exporting more yellow peas than it ever did, added Cindy Brown.

 Brown said, GPC is looking to partner with Indian producers and traders to help Indian farmers grow such pulses in the country.

Talking about the flat consumption of pulses in the country, Brown stressed on the need for government push for the same. Pulses, although being a part of the Indian diet has taken backshift considering the shift towards Western diet.

 “GPC is looking towards partnerships to increase consumption of pulses and also to make pulses available easily,” she said. Branding of pulses through government agencies like NAFED can change the scenario can in improving availability. Increased production can also make a difference in the country said Brown emphasizing on the role of agricultural extension activities.

 

Cindy Brown, president of Global Pulses Confederation

Pulses

Following the import restrictions, the yellow peas, has seen a sharp fallIndia should pursue consistent farm trade policies to help to avoid uncertainty among Canada’s farmers, big suppliers of pulses to New Delhi, a Canadian government minister said on Thursday.

Caption – L To R – Mr. Jitu Bheda, Chairman – Indian Pulses and Grain Association ,Mr. G Chandrashekhar, Senior Editor and Policy Commentator ,Mr. Pravin Dongre – Director  ,Ms. Cindy Brown, President – Global Pulses Confederation  ,Mr. David Marit, Hon’ble Minister of Agriculture, Govt. of Saskatchewan, Canada ,Mr. Ashish Bahuguna, Former Secretary – Agriculture and Former Chairperson – FSSAI,Mr. Sunil Kumar Singh, Addl. MD – NAFED

Protein-rich pulses are a staple of the Indian diet, and Canada is the world’s top exporter of peas and lentils.

India’s record imports of 6.6 million tonnes of pulses in the 2016/17 fiscal year prompted Canadian and Australian farmers to expand production but New Delhi introduced import curbs the following year, hurting overseas producers.

David Marit, agriculture minister of Canada’s Saskatchewan province, said India’s trade policy flip-flops fuelled uncertainty among Canada’s farmers.

 

Saskatchewan is Canada’s biggest pulses producer.

“We would like to see consistency and transparency in market access,” Marit told reporters on the sidelines of the Pulses Conclave, an industry conference.

In the 2016/17 fiscal year, Canada shipped a record 2.4 million tonnes of pulses but last year Canadian imports dropped to 121,861 tonnes.

Record imports led to a drop in domestic prices in 2016/17. India then raised import taxes on some pulses to as high as 50% and introduced import quotas for others such as yellow peas, green gram and chickpeas.

The import restrictions unnerved India’s traditional suppliers who grow pulses to meet the country’s annual requirements.                            

The Centre had imposed quantitative curbs on import of pulses in 2017 by imposing higher duties in the context of growing domestic production and to protect domestic growers from cheaper imports. Production of pulses in the country has seen a sharp increase.

Following the import restrictions, the yellow peas, has seen a sharp fall. From a peak of around Canadian $1.5 billion in 2015, pulses exports from Saskatchewan to India dropped to around Canadian $329 million in 2019.

Marit said the import restrictions in India had forced Saskatchewan to focus more on processing and that exporters were looking at other markets in countries such as China, Bangladesh, West Asia, Europe and the US, where the demand for plant-based protein was on the rise. The food industry in the West was looking at wheat alternatives and there are huge investments taking place in protein extraction facilities from pulses, he said.

Further, Marit said that the Government of Saskatchewan remains committed to India in the long term to help address food security challenges and pulses were part of the story. The Government of Saskatchewan is looking to open a trade office in India to boost the trade between the two countries.

Jitu Bheda, Chairman, IPGA, said the country’s trade policy on pulses should be flexible and that there was a need to strike a balance between farmer and consumer interests.

Sunil Kumar Singh, Additional Managing Director, NAFED, said the nodal agency was all geared up to procure pulses in States where prices are ruling below the minimum support price. The procurement of toor has begun in Karnataka, while registration of farmers has begun in Maharashtra.

Singh also added that NAFED was currently holding pulses stocks of around 34.5 lakh tonnes, mainly gram.

Following the import restrictions, the yellow peas,

Start ups

The collaboration will improve the crop and water management analytics in India

Two of the foremost New Space start-ups of India – Pixxel and SatSure have signed a Memorandum of Understanding (MoU) that will allow utilizing Pixxel’s unique satellite imagery for building innovative data products.

Satsure’s platform will combine this satellite imagery with agricultural datasets that can help in improving the existing crop and water management analytics.

This collaboration will not only provide Satsure access to Pixxel’s high quality satellite imagery data but also enable them to monitor agricultural farms, proper disbursement of farmer loans, assess flood and other natural calamity in real-time with location specific insights.

Awais Ahmed, CEO, Pixxel said, “Collaborating with SatSure was a natural step since both companies share a common goal in using space data for building niche geospatial software products. SatSure is one of the leading firms in the space data analytics domain and we are excited about the possibilities of jointly exploring the global market with them as we embark on our journey to build the first commercial satellite constellation from India.”

Prateep Basu, CEO, SatSure said, “We are thrilled to be working with Pixxel and believe in their capabilities to provide high quality and unique satellite imagery, which will be used by SatSure to expand upon our existing set of products for the agriculture and natural resource management markets’.”

The signing of this MoU was done at the Space Park Kerala organized EDGE 2020 conference in Trivandrum, which saw more than 300 delegates from national and international organizations in the space industry. 

The collaboration will improve the crop and

Text Blog

Dr. Bhushan Bhavsar, Managing Director, Vetphage Pharmaceutical Pvt Ltd shares his views on emerging role of Bacteriophages in livestock & poultry

In 2019, a team of scientists reported treating a life-threatening infection in a young cystic fibrosis patient in London with the use of genetically engineered bacteriophages — viruses that attack and destroy bacteria. The patient who was struggling with a multidrug-resistant Mycobacterium infection was cleared of the infection six months after she began receiving a cocktail of bacteriophages. This case is among a very few such episodes of bacteriophages being used as a last resort treatment of drug resistant bacterial diseases. However, it offers a new ray of hope to humanity struggling with the rapid evolution of disease-causing bacteria.

The term ‘bacteriophage’ literally translates into “bacteria eater”. It is a type of virus that attaches itself to a bacterium and infects the host cell, subsequently destroying it. These microorganisms destroy their host cells through a natural process without interacting with human or animal cells. Since these viruses attack only bacteria; phages are harmless to people, animals, and plants. This makes the solution natural and highly safe. Researchers in different fields including medicine and animal husbandry are realizing the potential benefits of using bacteriophages in our collective war against bacterial diseases. While the use of bacteriophages in humans is still a rarity in modern medicine, their usage in animal husbandry, rearing poultry and fish is already showing positive results.

A weapon against antibiotic resistance

Antibiotic resistance is arguably one of the biggest healthcare threats of this century. The rate of evolution of bacteria has surpassed the rate of creation of new antibiotics resulting in superbugs that are practically untreatable with the help of known antibiotics. This menace has not only made treatment of several diseases difficult but has also invaded our food systems and food chain.

It is estimated that at least 700,000 people die every year due to drug-resistant diseases, including 230,000 people who die from multidrug-resistant tuberculosis. According to a report by the UN Ad hoc Interagency Coordinating Group on Antimicrobial Resistance, as many as 10 million deaths annually could occur every year due to drug resistant diseases by 2050 if no action was taken to resist this challenge. The same report estimated that by 2030, drug resistance could push to 24 million people into poverty.

This is where the role of phage therapy as a possible alternative becomes important. Phages are everywhere, i.e. on human hands, skin, in the animal gut and in the soil. They are the oldest and most numerous organisms on Earth and have been protecting humans and animals from bacteria for 3.5 billion years. Phages not only eliminate selected bacteria harmlessly, they also do so without causing any damage to the gut microbiome of animals (and humans).

Bacteriophages: Ensuring Safety of Poultry Animals

One of the most important sectors where the use of bacteriophages has emerged as very important is the poultry and aquaculture. Bacterial diseases cause multi-billion-dollar economic losses for the livestock industry. It is estimated that Salmonella and Campylobacter infections that are rampant in poultry together account for 9 in 10 reported cases of bacteria-related food poisonings globally. Diseases resulting from Escherichia coli bacteria are another significant health concern recognized as a major cause of morbidity and mortality in chickens. Often, mass culling’s are necessitated to curb such infections causing huge losses to the industry. To treat such diseases, poultry farmers are compelled to use significant amounts of anti-microbials. Globally, 70% of all antibiotics used are used in animal farming, and only 30% are used directly in humans. This overuse of antibiotics leads to antimicrobial-resistant bacteria, creating multi-tiered human health, food safety, and environmental risk.

Though Bacteriophages were first discovered more than 100 years ago but using them in an industrial animal farming environment has been difficult for two main reasons: firstly, the ability to identify the right phages, and engineering solutions that would ensure their stability in an industrial animal farming environment. Proteon, the parent company of Vetphage Pharmaceuticals, has been the first to overcome both of these technological challenges and deliver highly effective phage products. By directly eliminating pathogenic bacteria and without any harm to the microbiome, Proteon’s products are revolutionizing the approach to bacterial control in food animal farming, helping prevent many of the diseases currently plaguing animal farming industry. As bacteria evolve and develop defense mechanisms, phages also adapt in response to counter the altered host systems. This ensures the bacteria do not become resistant to this approach.

With food-borne pathogens a major concern for food safety, the use of phage therapy to tackle bacterial diseases and promote food safety is expected to emerge as a viable approach on a larger scale, particularly at a time when antibiotic resistance is a significant health concern.

Dr. Bhushan Bhavsar, Managing Director, Vetphage Pharmaceutical

Agro chems – Pesticides, Agrotech, Country, North America, R&D

Total market enlist E3™ Soybean Acreage Projections for 2020 nearly doubled

Corteva, Inc. (NYSE: CTVA) recently announced that the Company is accelerating the ramp-up of Enlist E3™ soybeans to U.S. and Canadian farmers over the next five years – reinforcing the Company’s commitment to its Enlist technology and continued focus on bringing greater choice and value to growers. Corteva continues to see strong demand for the technology from farmers, retailers and independent seed companies; and expects planted acreage projections in 2020 to approach 20 percent of the U.S. market – double original expectations. 

“The decision to accelerate production of Enlist E3 soybeans, along with the Enlist One® and Enlist Duo® herbicides, ahead of the 2021 selling season reflects our continued focus on rapidly ramping up differentiated technology solutions that we expect will enable greater choice and value for growers over time,” said James C. Collins, Jr., Corteva Chief Executive Officer. “Our Enlist weed control system illustrates the power of Corteva across platforms, integrating seed and chemistry – providing much-needed solutions to farmers that address complex challenges, such as weed resistance, while strengthening Corteva’s proprietary trait offering.” 

Enlist E3 soybeans are an industry-leading triple-stack of herbicide tolerance, jointly developed and owned by M.S. Technologies, L.L.C. They incorporate glyphosate and glufosinate and enable use of Corteva’s new 2, 4-D formulations in Enlist One® and Enlist Duo® herbicides with near-zero volatility and minimized potential for physical drift when label directions are followed.

 Solid on-farm performance of Enlist E3 soybeans last fall has led to continued interest among growers and retailers, as well as independent seed companies seeking to license this innovative technology. More than 20 additional licensees have signed contracts to access the technology, bringing total licensee agreements to more than 120 in the United States and Canada. 

During the five-year ramp-up period, Corteva is expected to significantly reduce the volume of products with the Roundup Ready 2 Yield® and Roundup Ready 2 Xtend® herbicide tolerance traits beginning in 2021, with expected minimal use of the trait platform after the completion of the ramp-up of the Enlist weed control system.

The Company also announced that it recently received import authorization in China for the Conkesta™ soybean insect control trait, which will be offered as a stack with the Enlist E3 soybean herbicide trait in Latin America in the early 2020s.

Total market enlist E3™ Soybean Acreage Projections

R&D, Water

The MoU aims to install drip irrigation in sugarcane farms of over 5,000 hectares in two Uttar Pradesh districts

 

 DCM Shriram has signed a memorandum of understanding with Rabobank and Rivulis Irrigation India, the Indian arm of Israeli micro irrigation firm Rivulis, to install drip irrigation in sugarcane farms of over 5,000 hectares in two Uttar Pradesh districts, the company said in a statement recently.

 The proposed installation of drip irrigation in four units of the company located at Ajbapur, Rupapur, Hariawan and Loni in Lakhimpur Kheri and Hardoi districts is meant to give further fillip to the water conservation efforts.

 “The project is being taken up with the aim of increase the yield while conserving water in cultivation of sugarcane. With this project, the cost of sugarcane cultivation will reduce, thereby increasing the income of farmers,” Roshan Lal Tamak, ED and CEO for DCM Shriram’s sugar business, said in the statement. 

According to the company, the Lucknow-based Indian Institute of Sugarcane Research, an apex organization of sugarcane research in the country, certified various good agricultural practices and water conservation measures adopted by DCM Shriram sugar factories in its catchment areas in these districts have already resulted in water saving of 275 billion litres in the last three years.

The MoU aims to install drip irrigation

Agro Universities, R&D, Types

 A joint research programmes will be undertaken to develop & adopt effective management strategies for pests, diseases, nematodes & weeds for key agricultural and horticultural crops in Tamil Nadu. 

Agri Business Major Syngenta and Tamil Nadu Agricultural University (TNAU) have signed a Memorandum of Understanding to facilitate joint research in the field of agriculture. AS per the MoU, joint research programmes will be undertaken by Syngenta and TNAU to develop & adopt effective management strategies for pests, diseases, nematodes & weeds for key agricultural and horticultural crops in Tamil Nadu.

 N Kumar, TNAU Vice Chancellor said that such MoU mode partnership will benefit TNAU and Syngenta to tackle and mitigate the new & rising invasive pest issues, locusts, etc. Kumar also highlighted the need of such public private partnership on extension outreach programmes & stewardship. 

Dr Andre Oliveira, Head of Crop Protection Development APAC Syngenta said that “Syngenta would be delighted to furthering their research work in association with the TNAU considering the expertise & pragmatic approach, on sustainable crop solutions through innovative labor saving formulation technologies & good agricultural practices to deliver value for farmers in India. These initiatives will be a win-win for all leading to better resource use & higher farmers ‘household incomes”.

 Head of Crop Protection Development, India Dr Sunil Kurchania emphasized the need to extend innovations to the entire agricultural sectors & food value chain so as to meet the challenges of increasing farm output, and partnership approach with State Agricultural Universities all over the country.

 Dr A.S. Krishnamoorthy, the Registrar of TNAU and Dr Sunil Kurchania of Syngenta signed the MoU in the presence of VC, N Kumar & other senior officials.

 

 A joint research programmes will be undertaken