Innate second gen potato receives Canadian clearance

Innate second gen potato receives Canadian clearance

The second generation of Innate potatoes contains four beneficial traits of relevance to potato growers, processors and consumers

Laser technology protects fruit from bird pests

Laser technology protects fruit from bird pests

For fruit growers across the globe, birds are a common bane

August 16, 2017, Ottawa, Ont. - Canadian fruit growers need the best varieties of plants to be successful. In the case of Canadian strawberry growers, they grow the best varieties of plants, which foreign buyers demand. The import and export of fruit plants, however, must go through the Canadian Food Inspection Agency (CFIA) to test for potentially devastating plant viruses. Currently, this testing and quarantine process takes an average of three years to complete, significantly hampering the speed of trade.Today, the Honourable Lawrence MacAulay, Minister of Agriculture and Agri-Food, announced that the CFIA will lead two projects worth $500,000 that use new DNA-based technologies to reduce the quarantine testing time, helping to boost trade and economic competitiveness in the $240 million Canadian fruit tree industry."Together with provincial partners and industry, our government is making the investments in innovative science that enables agriculture to be a leading growth sector of Canada's economy. Together we can help meet the world's growing demand for high-quality, sustainable food and help grow our middle class," Minister MacAulay, said. The first project will dramatically shorten the testing period of seeds, cuttings and bulbs imported into Canada to grow new varieties of plants. With this funding, scientists will use DNA technology to test for all viruses associated with imported plants to get an early indication of any plant diseases present. This approach could reduce the quarantine testing time by up to two and a half years.The second project streamlines the testing of strawberry plants. Traditionally, multiple tests for viruses are required before exporting strawberry plants to foreign markets. This project will test for multiple viruses in one single test, dramatically reducing the time and cost to get plants to market.Funding for these projects is provided through a partnership between the CFIA, Genome British Columbia, Summerland Varieties Corporation, Phyto Diagnostics, the British Columbia Cherry Association, and Vineland Research and Innovations Centre."Canadian import/export markets will be stronger and more competitive because of these genomics-based tools. Early detection of pathogens and viruses is a vital outcome of genomics and it is being applied across many key economic sectors." Dr. Catalina Lopez-Correa, Chief Scientific Officer and Vice President, Genome British Columbia said. 
August 16, 2017, Lethbridge, Alta. - Alberta’s potato industry is worth more than $1 billion to our economy. But it’s threatened by a tiny bacteriumThis year, a Lethbridge scientist reports, it hasn’t shown up.“That’s good news,” says Dan Johnson, a biogeography professor at the University of Lethbridge. He explains the bacteria are linked with zebra chip disease – already affecting crops in the U.S., Mexico and New Zealand. It turned up as early as May in Idaho this year.Potatoes infected by the bacteria develop unsightly black lines when they’re fried, making them unfit for sale. The bacteria are carried by an insect, the potato psyllid. READ MORE
August 11, 2017, Langley, BC – There are more than 24,000 people employed in British Columbia’s agriculture industry and sun and heat exposure are workplace hazards for many of them. Agriculture workers have a 2.5 to 3.5 times greater risk of developing skin cancer than indoor workers, according to a Sun Safety At Work Canada 2016 report. Employers are responsible for addressing this risk. AgSafe, BC’s agriculture health and safety association, suggests the best way to reduce the risk of sun and heat exposure in the workplace is to implement a sun and heat safety action plan for outside workers. “There are resources available for those who employ outdoor workers to help them develop and implement a sun and heat safety plan,” says Wendy Bennett, executive director of AgSafe. “The key is controlling the worker’s exposure to sun and the possibility of heat stress.” Checking Environment Canada’s UV index regularly to monitor worker risk and providing a shade structure, where practical or enabling shade breaks on the worksite will help reduce the effects of sun exposure. Scheduling heavy work outside of the hottest times of the day – before 11 a.m. and after 3 p.m. – when UV levels are lower, along with regular “cool-down” rest periods, will help reduce the risk of heat stress. Knowing the signs of heat stress – decrease in alertness, extreme fatigue, nausea, dizziness, confusion, muscle cramps, and fast shallow breathing, is very important and should be acted upon immediately if they present. Bennett adds that the risk of heat stress is higher when employees are working outdoors with equipment that gives off heat. Tips to avoid sun exposure and heat stress: Wear loose-fitting tightly woven or UV-protective labelled clothing; wide brimmed hats that shade the face, ears and neck; apply sunscreen throughout the day Wear sunglasses to protect eyes from UV rays Hydrate regularly with water Take breaks in the shade Additional sun and heat safety information is available by visiting www.SunSafetyAtWork.ca or www.Weather.gc.ca.
August 10, 2017, Morgan Hill, CA – Next week, Sakata Seed America will host its annual California Field Days in Salinas [August 14-16] and Woodland [August 16-18], Calif. This will be the 31st year Sakata has hosted the event, which continues to grow every year. “We began hosting these trials in the small field in Salinas back in 1986,” said John Nelson, sales and marketing director with the company. “Since, it’s continues to expand with our growing infrastructure and has become our largest vegetable event of the year, showcasing the best of Sakata’s genetics and serving host to our customers, media, retail and more. We look forward to celebrating 40 years of business in NAFTA at this year’s trials.” Those attending Sakata’s field days this year will see a few new modifications. Most notably, it will be the inaugural year Sakata will host its Woodland (warm-season crops – melon, onion, pepper, tomato, pumpkin, squash, watermelon) trials at the new Woodland Research Station; an investment in land, greenhouses, offices and other facilities slated for completion of the first phases in 2018. To learn more about Sakata’s Woodland development, check out the 40th Anniversary video. In Salinas (cool-season crops – broccoli, beet, spinach, etc.) trials, customers will be greeted with an updated Broccoli Master. This information-rich piece of literature serves as the ultimate reference guide for all things Sakata broccoli, including ideal varieties for every growing region and other important information for successful broccoli cultivation. “This will be the third generation of our Broccoli Master, and it has always been well-used by our dealers and growers alike,” said Matt Linder, senior broccoli product manager and Salinas Valley area sales manager. “It contains all the great information you need on our varieties right at your fingertips, and is heavy-duty enough to be kept in your truck or pocket when in the field. It’s been a few years since we’ve had an updated version, so we’re excited to include some great new additions we’ve recently added to our broccoli line, such as Millennium, Diamante, Eastern Magic, Eastern Crown and Emerald Star.” For a digital copy, visit Sakata’s website; physical copies will be debuted at next week’s trials, and available for direct mail thereafter.
August 9, 2017, Edmonton, Alta – The Agri-tourism and Farm Direct Marketing Bus Tour takes place September 11, 2017, in the Spruce Grove/West Yellowhead region. “The tour will feature family-run businesses doing innovative things on smaller farms in rural Alberta,” says Colin Gosselin, with Alberta Agriculture and Forestry based in Stony Plain. “It will also feature a delicious local food lunch, an artisan winery tour, an experienced agri-tourism coach, and opportunities for networking, sharing, and discussion.” Stops are at Happy Acres U-Pick, Shady Lane Estate and Leaman Exchange. Cost for the tour is $25 per person, and includes tour transportation, lunch and refreshments. The bus pick-up and drop-off point will be in the Spruce Grove area. An alternate drop-off point in the Wildwood area is possible. To register, call 1-800-387-603 by September 6. For more information, contact Colin Gosselin at 780-968-3518.
August 2, 2017, Ottawa, Ont. - Domestic subsidies in many countries encourage production increases that result in considerable surpluses and lower prices on global markets, according to a new study released today by the Canadian Agri-Food Policy Institute (CAPI). The study also found these production increases fuel highly unsustainable production practices and the misallocation of natural resources.The comprehensive study, Understanding Agricultural Support, was prepared by Al Mussell, Douglas Hedley, Kamal Karunagoda, and Brenda Dyack of Agri-Food Economic Systems, with support from the Canadian Federation of Agriculture and Ontario Ministry of Agriculture, Food and Rural Affairs. The report seeks a better understanding of the impacts of domestic income support programs in key markets and competitors on the competitiveness of Canada's agriculture and agri-food sector.
August 2, 2018, Guelph Ont. – Reducing food waste is not just the right thing to do; it’s also a way to improve business efficiency and profitability.That’s the outcome of a food waste reduction project spearheaded by the Ontario Produce Marketing Association (OPMA) with funding provided by Growing Forward 2.OPMA teamed up with Value Chain Management International (VCMI) to develop a workbook, prepare several case studies, and roll out a series of workshops to help OPMA members wrap their heads around how they can reduce waste in their businesses while making more money in the process.“This is to identify opportunities for improvement in the value chain; if you improve process, you automatically reduce waste in areas like labour, energy, product, packaging and transportation,” project lead Martin Gooch told participants in the Agricultural Adaptation Council’s summer tour on June 14. “This will position the Ontario produce industry as a leader in reducing food waste, but it’s also a business opportunity for the entire value chain.”The first Ontario industry case study was recently released, with three more nearing completion. The case study with a progressive Ontario potato supplier, EarthFresh Foods, clearly shows the business opportunity in addressing food waste: a 29 per cent increase in grade-out of potatoes results in a 74 per cent increase in producer margin.Most of the produce loss can be directly attributed to production practices, storage and handling, but addressing the problem requires a slight shift in thinking for farmers.“Farmers often look at what their production per acre is, but don’t connect that with how much is actually being marketed and that’s where they are paid,” he said. “If you can prevent that 29 per cent loss of product, that’s an overall $17,000 increase in return on a single trailer load of potatoes. Businesses also benefit from incurring lower costs.”To date, close to 100 people have participated in the waste reduction workshops developed by VCMI. The accompanying workbook uses a whole value chain perspective, and was designed to be an easy to use tool for businesses small and large with 10 easy steps to follow.“You don’t need to have a PhD in math or be a statistical genius to improve your business,” Gooch said. “It’s about identifying where the opportunities are, what the causes are, and how do we address those causes in a constructive way.”Overall, participants come away from the workshop with solutions they can use to improve performance in their businesses and no longer simply accept waste and “shrink” as part of doing business. Media interest in the initiative has been strong with global coverage, and other sectors, like meat processing, are making inquiries about applicability of the program to their industries.More information is available at www.theopma.ca.This project was funded in part through Growing Forward 2 (GF2), a federal-provincial-territorial initiative. The Agricultural Adaptation Council assists in the delivery of GF2 in Ontario.
July 31, 2017, Milton, Ont. - It’s no secret — the lavender plant provides a bouquet of benefits. The fields are stunning, the blooms aromatic, and it has proven itself to be a versatile remedy for centuries, with oils rich in health benefits.So it’s really no surprise that the prized plant isn’t so bad for agri-tourism too.With about 40,000 plants, Terre Bleu Lavender Farm near Milton in Halton Region is now the largest lavender farm in Ontario. Their vast fragrant fields, handmade natural products, and charming open-air events bring heaps of visitors out year after year. And they’re only getting busier. (On some weekends now, they even reach capacity.) READ MORE 
July 28, 2017, North Carolina - Laura Lengnick is a big thinker on agriculture and the environment. She has been guided in her work by the understanding that the problems generated by the U.S. industrial food system have been as significant as its ability to produce vast quantities of food. As she sees it, it’s not enough to produce food if there’s not a reckoning of costs and benefits from an unbalanced system.This comprehensive outlook is a hallmark of Lengnick’s work, as is her positive vision for a more equitable and sustainable future. When it comes to her career, the question is not what work Lengnick has done to explore resilient, sustainable agriculture, but what hasn’t she done. Soil scientist, policymaker as a Senate staffer, USDA researcher, professor, sustainability consultant, advocate—Lengnick has done it all.With her home nestled in a sunny cove in the North Carolina mountains, she bio-intensively tends to her 3,000-square-foot micro-farm. (She grows everything from greens and radishes to figs and sweet potatoes.) Based on her rich experience and deep expertise, Lengnick now views herself as a science interpreter in her interactions with farmers, public officials and the public at large. (She calls it “science-in-place"). Lengnick is the author of many articles and papers for scholars, practitioners and the general public, including the useful and engaging book Resilient Agriculture: Cultivating Food Systems for a Changing Climate. She was also selected as a contributor to the Third National Climate Assessment, the authoritative U.S. climate report. Over the years she’s traveled throughout the United States to meet with farmers to investigate the challenges and successes in the field and present her findings to many different audiences. Most recently, Lengnick has been invited to collaborate with the world-renowned Stockholm Resilience Centre, which will bring her views to an even larger audience. In a series of conversations, Lengnick and I spoke about her background, career, and philosophy to better explain where she is today. READ MORE 
July 27, 2017, Vineland, Ont – It’s been 10 years since a new horticultural research facility in Niagara Region was launched as the Vineland Research and Innovation Centre (Vineland).Since then, Vineland has been turning heads across Canada and internationally with its needs-based innovations. The organization reflects the entire horticulture value chain from farmers to consumers, and they’re not afraid to take big steps to help the industry solve problems.“We started by understanding what needed to be done and how we needed to work to make a difference, which is real results with real impact from acres in the field to shelf space in the store,” says Vineland’s CEO, Dr. Jim Brandle.Addressing the labour intensive nature of horticultural production was a need identified early on. Today, machines designed in Vineland’s robotics program and built in Ontario are coming into use in fruit and vegetable greenhouses, which Brandle says will go a long way in helping to keep growers competitive, as well as boost the local manufacturing and automation sector.Sweet potatoes, okra and Asian eggplant are offering new market opportunities for growers and consumers eager to eat more locally produced food.And Vineland’s rose breeding program made a big splash earlier this year when its Canadian Shield rose – a trademarked low-maintenance and winter hardy variety bred in Canada – was named Flower of the Year at Canada Blooms.Another significant milestone was the construction of the largest, most modern horticultural research greenhouse in North America with commercial-scale height and growing rooms dedicated to horticulture, which opened in 2016 and was built around the needs of Canada’s greenhouse vegetable and flower growers.“Today, we’re commercializing innovations, from the Canadian Shield rose to new apple and pear varieties,” Brandle says. “We are having the kind of impact that we sought in those early days.”Natural ways to control greenhouse pests – called biocontrols – are making a real difference to flower growers and a new technology that can identify genetic variants for traits in all plants has just been spun-off into a for-profit company.“We’re creating a reputation and that alone is an achievement because we’re the new kid on the block,” he says. “We have a ton of good people with and around the organization and on our board who are making this happen.”Vineland is an important partner to the horticulture industry, according to Jan VanderHout, a greenhouse vegetable grower and Chair of the Ontario Fruit and Vegetable Growers’ Association.“They are very good at asking us what we want and taking a whole value chain approach to research and innovation,” VanderHout says. “You need the right facilities and expertise and Vineland fills that need to the benefit of the industry as a whole.”Looking to the future, both Brandle and VanderHout predict that cap and trade pressure and high energy costs will result in more work around energy use and carbon footprint reduction.And Vineland’s consumer-focused approaches will continue to drive new innovation, from high flavour greenhouse tomatoes to Ontario-grown apple varieties.“We will further lever consumer-driven plant breeding and work with the intent around pleasing consumers and trying to understand what they want so we can build that into our selection criteria,” Brandle says.
July 17, 2017 - Entomopathogenic nematodes are soft bodied, non-segmented roundworms that are obligate or sometimes facultative parasites of insects. Entomopathogenic nematodes occur naturally in soil environments and locate their host in response to carbon dioxide, vibration and other chemical cues. Species in two families (Heterorhabditidae and Steinernematidae) have been effectively used as biological insecticides in pest management programs. Entomopathogenic nematodes fit nicely into integrated pest management or IPM programs because they are considered non-toxic to humans, relatively specific to their target pests, and can be applied with standard pesticide equipment. This video will provide a breif overview of how to check the viability of nematodes and how to apply them.
July 14, 2017, Gainesville, FL – Some people love to eat a juicy, seedless watermelon for a tasty, refreshing snack during a hot summer day. University of Florida scientists have found a way to stave off potential diseases while retaining that flavour. Consumers increasingly savour the convenience and taste of seedless watermelons, said Xin Zhao, a UF Institute of Food and Agricultural Sciences associate professor of horticultural sciences and lead author of a new study examining rootstocks, flavour and texture of watermelons. Many growers produce seedless cultivars because that’s what consumers want, and it’s important to maintain the fruit’s yield and taste, as seedless cultivars might be more susceptible to fusarium wilt, a major soil-borne disease issue in watermelon production, Zhao said. For the study, UF/IFAS researchers grafted seedless watermelon onto squash rootstocks to ward off soil-borne diseases, such as fusarium wilt. In plant grafting, scientists call the upper part of the plant the scion, while the lower part is the rootstock. In the case of vegetable grafting, a grafted plant comes from joining a vigorous rootstock plant – often with resistance or tolerance to certain soil-borne pathogens – with a scion plant with desirable aboveground traits. Grafting is a useful tool to manage soil-borne diseases, but in this study, researchers were concerned that if they grafted watermelon onto squash rootstocks, they might reduce its fruit quality and taste. Overall, study results showed no loss in taste and major fruit quality attributes, like total soluble solids and lycopene content, Zhao said. Consumers in UF taste panels confirmed the flavour remained largely consistent between grafted and non-grafted plant treatments under different production conditions. Furthermore, said Zhao, compared with the non-grafted seedless watermelons, plants grafted onto the squash rootstocks exhibited a consistently higher level of flesh firmness. “We are continuing our grafted watermelon research to optimize management of grafted watermelon production, maximize its full potential and seek answers to economic feasibility,” she said. Still to come is a paper that specifically tells researchers whether they warded off fusarium wilt under high disease pressure, Zhao said. Grafting with selected rootstocks as a cultural practice is viewed as an integrated disease management tool in the toolbox for watermelon growers to consider when dealing with fusarium wilt “hot spots” in the field, she said. However, most squash rootstocks are generally more susceptible to root-knot nematodes, a potential challenge with using grafted plants. Other UF/IFAS researchers are tackling that issue. The new UF/IFAS study is published in the Journal of the Science of Food and Agriculture.
August 15, 2017 - The PMRA have proposed to cancel the registration of both lambda-cyhalothrin (Matador/Silencer/Warrior) and phosmet (Imidan). The decisions can be found here:Lambda-cyhalothrin – https://onvegetables.files.wordpress.com/2017/08/cyhalothrinlambdaprvd2017-03.pdfPhosmet – https://onvegetables.files.wordpress.com/2017/08/phosmetprvd2017-07.pdfThe decisions state that lambda-cyhalothrin poses an unacceptable risk from dietary exposure (worst case scenario cumulative food residues would be too high), while phosmet poses a risk during application and post-application activities. The proposed precautions such as revised restricted entry intervals would not be agronomically feasible (e.g. 12 day REI for scouting carrots, 43 days for moving irrigation pipe).Public consultation is now open until September 23 (lambda-cyhalothrin) or September 30 (phosmet) so if growers wish to make comments on these proposed decisions you can submit them to This e-mail address is being protected from spambots. You need JavaScript enabled to view it , or talk to your growers’ association who can comment on your behalf.
July 26, 2017, Ontario - Stemphylium leaf blight (Stemphylium vesicarium) of onion starts as yellow-tan, water-soaked lesions developing into elongated spots. As these spots cover the entire leaves, onions prematurely defoliate thereby reducing the yield and causing the crop to be more susceptible to other pathogens. Stemphylium was first identified in Ontario in 2008 and has since spread throughout the Holland Marsh and other onion growing areas in southwestern Ontario.Stemphylium leaf blight can sometimes be misdiagnosed as purple blotch (Alternaria porri), as they both have very similar symptoms initially. Purple blotch has sunken tan to white lesions with purple centers while Stemphylium tends to have tan lesions without the purple centers.Stemphylium spores are dispersed by wind. Spore sampling at the Muck Crops Research Station using a Burkard seven-day spore sampler detected an average of 33 spores/m3 in 2015 and seven spores/m3 in 2016. In ideal conditions, leaf spot symptoms occur six days after initial infection. Stemphylium tends to infect dead tissue or wounds, often as a result of herbicide damage, insect feeding or from extreme weather. Older onion leaves are more susceptible to infection than younger leaves and symptoms are traditionally observed after the plants have reached the three- to four-leaf stage.Over the last few years, Botrytis leaf blight (Botrytis squamosa) has become less of an issue and has been overtaken by Stemphylium as the most important onion disease — other than maybe downy mildew. This may be because the fungicides used to target Stemphylium are likely managing Botrytis as well. Since Stemphylium can be so devastating and hard to control, fungicides are now being applied earlier in the season which may be preventing Botrytis to become established. Botrytis squamosa overwinters as sclerotia in the soil and on crop debris left from the previous year and infects onions in mid-June when temperatures and leaf wetness are favourable for infection. In the Holland Marsh, Stemphylium lesions were first observed on June 29, 2015 and July 7, 2016.The primary method of management is through foliar fungicides such as Luna Tranquility, Quadris Top and Sercadis. Keep in mind that Sercadis and Luna Tranquility both contain a group 7 fungicide so remember to rotate and do not make sequential applications. The effectiveness of these fungicides in the future depends on the spray programs you choose today. There are already Stemphylium isolates insensitive to several fungicides in New York so resistance is a real and very serious issue with this disease. Remember to rotate fungicide groups with different modes of actions to reduce the possibility of resistance. A protective fungicide is best applied when the onion crop has reached the three-leaf stage, however it may not be necessary in dry years.Research is currently being conducted at the Muck Crops Research Station to improve forecasting models to identify the optimal timing for commercial growers to achieve good control. BOTCAST disease forecasting model is available in some areas of Ontario to help growers predict the activity of the disease. Warm, wet weather between 18-26°C is most favourable for disease development. Regular field scouting is still the best method to assess disease levels.Plant spacing that permits better air movement and irrigation schedules that do not extend leaf wetness periods may be helpful in some areas. Recent work at the Muck Crops Research Station has shown that spores increase two to 72 hours after rainfall with eight hours of leaf wetness to be optimal for the pathogen. Irrigate overnight if possible so by morning the leaves can dry out and you don’t prolong that leaf wetness period.To lower inoculum levels it is crucial to remove or bury cull piles and to bury leaf debris left from the previous year’s crop through deep cultivation. Stemphylium of onion has many hosts including leeks, garlic, asparagus and even European pear. Take the time to rogue out volunteer onions or other Allium species in other crops nearby and remove unnecessary asparagus or pear trees to lower inoculum levels. As with any other foliar disease of onion, it is beneficial to rotate with non-host crops for three years.To prevent the development of resistance, it is essential to always rotate between different fungicide groups and/or tank mix with a broad spectrum insecticide. Current products registered for Stemphylium leaf blight of onion are listed by fungicide group below:Group 7 - SercadisGroup 7/9 - Luna TranquilityGroup 11/3 - Quadris Top
July 25, 2017, Ontario - The Pest Management Regulatory Agency (PMRA) recently announced the approval of URMULE registrations for Confine Extra fungicide (mono and di-potassium salts of phosphorus acid 53%) for the suppression of bacterial leaf spot (Xanthomonas campestris p.v. vitians) on leaf lettuce in Canada.Where possible, rotate the use of Confine Extra (Group 33) with fungicides that have different modes of actions. Apply at a rate of 7 L/ha in a minimum of 100 L of water/hectare. Use a maximum of 6 foliar applications per growing season. Pre-harvest Interval (PHI) is 1 day.Confine Extra is currently registered for downy mildew of lettuce, endive, radicchio as well as most brassica crops.Follow all other precautions and directions for use on the Confine Extra label carefully.For a copy of the new minor use label visit the PMRA label site: http://pr-rp.hc-sc.gc.ca/ls-re/index-eng.php
The tip-and-pour method, as well as poorly designed pumps, can expose workers to injury and companies to significant financial losses.Every day, handlers and applicators transfer potentially hazardous chemicals and concentrates such as pesticides, herbicides, insecticides, fungicides, and liquid fertilizers from large drums into smaller containers or mixing tanks. This transfer process can have serious consequences if manual “tip-and-pour” techniques or poorly designed pumps are used.Whether the chemicals are toxic, corrosive, or flammable, the danger of accidental contact can pose a severe hazard to workers.In fact, each year 1,800 to 3,000 preventable occupational incidents involving pesticide exposure are reported in the U.S. A closed system of transferring chemicals reduces unnecessary exposures by providing controlled delivery of chemical products without fear of worker exposure, over-pouring, spilling, or releasing vapours.“When handling pesticides, toxicity and corrosiveness are the main dangers, but even organic pesticides can be harmful if there is exposure,” says Kerry Richards, Ph.D., president elect of the American Association of Pesticide Safety Educators and former director of Penn State’s Pesticide Safety Education Program. “No matter what their toxicity level, all chemicals, even those that are organic are a particular contact exposure risk if they are corrosive.”In addition to the potential for injury, there can also be serious financial ramifications for the grower or ag product manufacturing facility if pesticides or liquid chemicals spill.“Beyond workers compensation issues related to exposure, there can be other huge potential liabilities,” Richards says. “This is particularly true if a pesticide gets into a water source, kills fish, or contaminates drinking water.”Richards, who works with the National Pesticide Safety Education Center, has seen and heard many examples of worker and environmental exposure from pesticides during more than 30 years of pesticide safety education experience.“Exposure risk is highest for those loading chemicals into mix tanks because it is more concentrated and hazardous before diluted with water,” she says. “Any time you lose containment of the chemical, such as a spill, the risks can be serious and spiral out of control.”Corrosive chemicals, for example, can severely burn skin or eyes, and many chemical pesticides are toxic when touched or inhaled.“Some organic herbicides are so highly acidic that they essentially burn the waxy cuticle off the above ground parts of plants, killing them,” says Richards. “If you splash it in your eye or on your skin, it can burn in the same way and cause significant damage.”Some chemicals are flammable as well, and if not properly handled and contained, can be ignited by sparking from nearby motors or mechanical equipment. The danger of a fire spreading can be serious both in the field and at ag product manufacturing facilities.In addition to the cost of cleanup or treating injuries, substantial indirect costs can also be incurred. These include supervisors’ time to document the incident and respond to any added government inspection or scrutiny, as well as the potential for slowed grower production or even a temporary shutdown at ag manufacturing plants.“The direct and indirect costs of a pesticide spill or injury can be substantial, not the least of which is the loss of wasted chemicals,” says Richards. “Pesticides, particularly newer concentrated formulations, are very expensive so spilling a few ounces could cost you several hundred dollars in lost product during a single transfer.”Traditional practices of transferring liquid chemicals suffer from a number of drawbacks.Manual techniques, such as the tip-and-pour method, are still common today. Tipping heavy barrels or even 2.5-gallon containers, however, can lead to a loss of control and over pouring.“When manually transferring chemicals from bulk containers, it is very difficult to control heavy drums,” cautions Richards. “I’d advise against it because of the significantly increased risk of exposure or a spill, and the added potential of a back injury or muscle strain.”Although a number of pump types exist for chemical transfer (rotary, siphon, lever-action, piston and electric), most are not engineered as a sealed, contained system. In addition, these pumps can have seals that leak, are known to wear out quickly, and can be difficult to operate, making precise volume control and dispensing difficult.In contrast, closed systems can dramatically improve the safety and efficiency of chemical transfer. California’s Department of Pesticide Regulation, in fact, requires a closed system for mixing and loading for certain pesticides so handlers are not directly exposed to the pesticide.“The availability of new technology that creates a closed or sealed system is ideal for handling pesticides or other dangerous chemicals, and should become a best management practice,” suggests Richards. “With such devices ... pesticide handlers can maintain a controlled containment from one vessel to another and significantly reduce any potential for exposure or spill.”A sealed system delivers liquids to an intermediate measuring device and is useful for low toxicity liquids. A closed system moves the material from point A to point B through hoses using dry-break fittings on the connection points. This prevents leaking and exposure to the handler which helps guarantee safety. Liquids are transferred from the source container, into the measuring system, and then to the mix tank.Small, versatile, hand-operated pressure pumps are engineered to work as a system, which can be either closed or sealed. The pumps can be used for the safe transfer of more than 1,400 industrial chemicals, including the most aggressive pesticides.These pumps function essentially like a beer tap. The operator attaches the pump, presses the plunger several times to build up a low amount of internal pressure, and then dispenses the liquid. The device is configured to provide precise control over the fluid delivery, from slow (1ML/ 1 oz.) up to 4.5-gallons per minute, depending on viscosity.Because such pumps use very low pressure (<6 PSI) to transfer fluids through the line and contain automatic pressure relief valves, they are safe to use with virtually any container from 2-gallon jugs to 55-gallon drums.When Jon DiPiero managed Ricci Vineyards, a small wine grape vineyard in Sonoma, Calif., he sought a safer, more efficient way to transfer pesticides for mixing and spraying that complied with the state’s closed system requirement for certain pesticides.“We had to fill 2.5-gallon containers from a 55-gallon drum,” says DiPiero. “Traditional tipping and pouring from a drum wasn’t going to work due to the potential for spills, splashes, over pouring and chemical exposure, as well as the state mandate for a closed system for some pesticides.”DiPiero turned to GoatThroat Pumps and was happy with the results for a number of reasons.“Because the pump is closed, sealed, and allows containers to remain in an upright position, it complied with state regulation and virtually eliminated the potential for all forms of chemical exposure,” DiPiero says.He adds the air pressure supplied by the hand pump allows the precise flow required into a measuring cylinder.In case of overfill, “the operator can open a valve to release air pressure and the pesticide will backflow into the tank with no cross contamination,” DiPiero says. “This gave us the exact amount we needed so there was no waste.”According to DiPiero, a multi-directional spray attachment also enables rinsing of every corner of the container without having to pour into it and shake it. He says this helps to minimize exposure when cleaning a container for reuse and satisfies California “triple rinsing” requirements.“Whether for pesticides, herbicides, fungicides, or liquid fertilizers, a closed and sealed pump design could help with the safe production or mixing of any liquid chemical,” says DiPiero.When Lancaster Farms, a wholesale container plant nursery serving the Mid-Atlantic and New England regions, required a lower pH to adjust its well water for a pesticide spray application, it had to transfer sulfuric acid to buffer the spray water.According to Shawn Jones, Lancaster Farms’ propagation and research manager, the nursery chose to purchase 55-gallon drums of sulfuric acid to raise chemical pH. The drums of chemicals were much more cost effective than multiple 2.5-gallon containers and much easier to recycle. However, Jones was wary of the danger that tipping and pouring acid from the drums would pose, along with pouring bleach and another strong disinfectants for different uses in the propagation area.“We use 40 percent sulfuric acid to buffer our spray water,” Jones says. “Our irrigation water is all recycled from ponds, with the drum storage areas relatively close to our water source, so we wanted to avoid any possibility of accidental spillage.”Previously, the nursery had used siphon pumps to transfer the acid, bleach, and disinfectant, but Jones was dissatisfied with this approach.“None of our siphon pumps lasted more than six months before we had to replace them, and none allowed metering with the kind of precision we required,” he says.Instead, Jones chose to implement several closed, sealed GoatThroat Pumps, along with graduated cylinders for precise measurement.“With the pumps, the drums always remain in an upright position so they won’t tip over accidentally,” Jones says.The one-touch flow control dispenses liquids at a controlled rate.“We get precise measurement into our mix tanks. We use every drop, spill nothing, and waste nothing.”In terms of longevity, Jones’ first sealed pump has already lasted six years and outlasted a dozen previous siphon pumps.“Our GoatThroat Pumps paid for themselves in safety and savings our first growing season, and should last a decade or more with just routine maintenance or repair,” Jones concludes. “Any grower, farmer, or nursery that needs to move or measure dangerous liquids safely and reliably should consider one.”Agricultural chemicals are very expensive, and growers are always looking for ways to decrease the cost of inputs to help increase profits. Sealed systems and closed systems allow for accurate and precise measuring of chemicals, which ensures that you’re using only the amount of product required and not one extra drop.Taking the guesswork out of measuring costly materials, and providing an efficient means of transferring custom blended or dilute products from original containers to mix tanks or back pack sprayers cuts input costs. This keeps expenses to a minimum, with the important bonus of increasing the safety of handlers by reducing the potential exposure to the chemical, which helps increase the bottom line and can assist with regulatory compliance.
July 19, 2017 - In 2016, Health Canada’s Pest Management Regulation Agency (PMRA) completed a re-evaluation of carbaryl, a common chemical thinning regime for Canadian apple producers.The re-evaluation led to some changes and restrictions on the product label. This included eliminating its use in residential areas plus as an insecticide on some fruit and vegetable crops. Apple thinning has remained on the label but at reduced rates: Maximum seasonal rate of 1.5 kg a.i./ha and an REI of 14 days for hand thinning [high-density trellis production such as spindle or super spindle] Maximum seasonal rate of 1.0 kg a.i./ha and an REI of 17 days for hand thinning [dwarf, semi-dwarf and full-sized trees] As a result, research is underway to discover a new thinning regime for Canadian apple producers.Researchers from Cornell Cooperative, CCE Lake Ontario Fruit Program educator and the Lamont Fruit farm conducted a three-year mechanical thinning trial. Watch above for more!
June 16, 2017, Saint John, NB – A honey bee pest, the small hive beetle, Aethina tumida, has been reported in New Brunswick for the first time. It has been found in honey bee colonies imported from Ontario in wild blueberry fields at the following locations: Alnwick (near Brantville) Pont-Lafrance in Gloucester County two locations near Saint-Sauveur (Lord and Foy area) Saint-Isidore All imported colonies and NB colonies in blueberry fields from the areas indicated above are in quarantine until further notice. They are not permitted to be moved within blueberry fields or between blueberry fields. In order to locate NB bee colonies in these areas, DAAF would like NB blueberry growers with fields in these areas to contact department staff and indicate where the NB colonies are located and who they belong to.
June 15, 2017, Guelph, Ont. - It seems like recently there have been a rash of proposed or pending pesticide regulation changes that affect field growers, and tomato growers are no exception. There are re-evaluations ongoing for a number of products used in tomatoes, including mancozeb, neonicotinoids, and Lannate, as well as Ethrel, but the big one that comes to mind for field tomato growers is the proposed changes to the use of chlorothalonil (Bravo, Echo). The final outcome of this review is not yet known, but it’s likely that significant changes to the chlorothalonil labels are coming.Chlorothalonil is a go-to fungicide for tomato growers. Data from trials at Ridgetown Campus demonstrate its value. Chlorothalonil is often just as good at controlling early blight, Septoria leaf spot, and anthracnose fruit rot as alternative fungicides, and it also provides protection from late blight, which many targeted fungicides do not. It’s a good value active ingredient for tomato disease management and has a low risk of resistance development. But, if proposed changes go through, the number of chlorothalonil applications you can use will be drastically cut. READ MORE 
May 17, 2017 - In an effort to educate growers about the use of injectors in chemigation and fertigation agricultural applications, Mazzei has put together a PowerPoint training program.The program is available in both English and Spanish and can be viewed for free through the Mazzei website and the MazzeiSolutions YouTube page.The presentation was designed to help users properly size Mazzei chemigation/fertigation systems for various applications and to better understand the most effective methods.
The post-application risk of carbaryl to workers and growers alike has recently been re-evaluated by Health Canada’s Pest Management Regulatory Agency (PMRA) and some cautionary changes have been made for both low and high-density apple trellis systems.“Rates are not reduced,” assured Amanda Green, tree fruit specialist with the Ontario Ministry of Agriculture, Food and Rural Affairs (OMAFRA), and apple session moderator at the Ontario Fruit and Vegetable Growers’ Convention (OFVC). “It’s the number of applications per year and total amount applied per year that is reduced.”She explained that growers are now limited to just one carbaryl application per season and they must stay under 1.0 kg of a.i. per hectare for low-density orchards, and 1.5 kg a.i. per hectare for high-density orchards.“This has been quite a challenge,” Green said, adding that three panelists – Charles Stevens of Wilmot Orchards; Zac Farmer of Watson Farms Ltd. and Sean Bartlett with N.M. Bartlett Inc. – had been invited to speak about their thinning experiences and how they plan to manage crop load in the future.Charles StevensStevens opened the panel discussion with a question for the audience.“If you have perfect bloom, perfect set, and you have chemically thinned and left all king blooms – have you over thinned, under thinned or got it just right? How many in this room have over thinned or under thinned?” he asked. Not a single hand was raised. He answered that given 10 per cent of bloom set gives a full crop of apples and you have left 20 per cent of apples on the tree, you have under thinned by 10 per cent.“My wife says it’s like I have PMS for two weeks every year,” Stevens said. “Thinning is one of the most stressful jobs on the farm and makes us moody, grumpy and stressed out.”“I want to touch on three different apples: Honeycrisp, Gala and Ambrosia. Last year, we thinned Honeycrisp in a totally different way. We found out from Michigan, where they did some research, that two doses of NAA [napthaleneacetic acid] by itself at 10 parts per million – one at full bloom and one at petal fall – came out with perfect thinning jobs after performing two trials,” Stevens said.“So, we applied 10 parts per million at full bloom and then it got hot and we got a bit scared. We backed off to 7.5 parts per million at petal fall. Fear is the detriment of thinning. At the end of the day, all fruit buds had very few seconds, or side blooms. If I had to do it over again, I would have gone in again at 10 to 12 mm fruit size with a full dose of Sevin [carbaryl] and 10 parts per million of NAA, resulting in me chemically thinning three times. At the end of the day, Sevin was not used for thinning Honeycrisp last year,” he said.“We used ATS [ammonium thiosulphate] on Honeycrisp last year instead of Sevin as an alternative and had little response. It’s very sensitive to environmental conditions and thus was not an effective alternative,” said Stevens.“The Galas were under thinned again last year. Normally, we do a full dose of Sevin on everything at petal fall but we missed that window. There was too much going on and it got hot, so we didn’t get it on. And, because of the restrictions, we’re not going to do that down the road,” he said.“Sevin is the most important thinning chemistry at this time as the balance of the thinning chemistries perform better when mixed with Sevin. For Galas, we put on a full dose of Sevin, 115 parts per million of 6-BA at 8 to 10 mm fruit size, and we felt we did a good job. But, at the end of the day, we still left too many apples on the trees,” said Stevens.“We will use 6-BA for size enhancement. It’s not strong as a chemical thinner so, without Sevin, it does not do a good job on anything,” he said.“In all my chemical thinning days, Ambrosia is the only crop that I dropped on the ground one year because it was temperature and climate related. I used the same chemistry as the years before and it was cloudy for a couple of days. I sprayed and the next day it was 28 degrees [Celsius]. We dropped all our Ambrosia on the ground. That was probably the only over thinning of apples I have ever done,” said Stevens.“Last year, we did a perfect job on Ambrosia. I feel that the size of the apple at around at least 11 to 12 mm bud size is the time to thin. From my experience, anything earlier and you’ll over thin Ambrosia. We use a full dose of Sevin and about 60 parts per million of 6-BA. So, that’s the story on Ambrosia. It’s a little simpler apple to thin and makes for a beautiful crop,” he said.“In the world of chemistries that are coming along, there are two acids that are in the works and hopefully will be registered for use here in Canada. One is called ACC [1-aminocyclopropane carboxylic acid] and the other is Brevis,” he said. “Both ACC and Brevis are stand alone products that don’t require the use of Sevin and also have a wider range of use, meaning that they can be used on a larger apple.”Zac Farmer“I’m going to touch on the same three apples as Charles: Honeycrisp, Gala and Ambrosia. We were in the same boat as him. In the past, we took the same approach with a Sevin (application) at petal fall early,” said Farmer.“We chose not to do that last year to jump-start our learning curve on living without Sevin, using it just once a season.”On younger Honeycrisp trees, Farmer applied 10 parts per million of NAA, thinning at the 100-gallon rate.“It seemed to work nicely with two applications,” he said. “We live just 10 minutes from Charles and we got the same heat but we didn’t back off on the second application except for two blocks at 5 parts instead of 10 parts per million NAA. We wish we hadn’t. We did less hand thinning last year, and I still wasn't happy with the amount we took off.”“We did some trials with ATS, our second year with it, and we’re running two per cent oil. At full bloom, you’re aiming for the kings. You have to watch the bees to make sure they’re done pollinating or you’ll burn a lot more off than you wanted. We did that on a block of Gala. Not everything got burned but there was a valley in the field where pretty much everything there got smoked due to lack of pollination. It was all sprayed at the same time so it’s very weather and time sensitive,” said Farmer.They also did some trials with lime-sulphur at 1.2 per cent with two per cent oil.“We did it again this year and we’re happy with it. It’s a lot more finicky than ATS so we’re going to do more ATS this year,” he said.“All that stuff we try to do early, then we come back in with a litre of Sevin or two litres of MaxCel, plus one or two per cent oil. If we’re limited on the Sevin, we’re going to have to do more with the NAA and those new thinners once they come along,” said Farmer.“On Ambrosia, we’ve never used a lot of Sevin. We do thin a little bit earlier than Charles but usually one litre of MaxCel is enough, or a half litre of Sevin on the really heavy stuff. They seem to respond really well to that. I think Ambrosia is very manageable with one application of Sevin, it’s Gala that’s a really hard one.”Last year, Watson Farms Ltd. had a drought so thinned hard on the Gala. The variety never did size and part of that was due to lack of moisture.“On older trees, we did some side by side trials with Gala and Honeycrisp with two per cent ATS versus 10 parts NAA at full bloom, and there was a noticeable difference between the two.”“If you hit that ATS on the nose, it thins as fast as you can walk by the tree. We’re very happy with that. I’m not saying that’s what we’ll rely on as it’s very weather sensitive but we’ll keep working on it and fine tuning it so we can knock those fruit off at early bloom,” concluded Farmer.Sean Bartlett“I just want to touch on some of the different things guys across the province are doing for apple thinning,” said Bartlett.“Ultimately we are doing more and more to get down to the promised land for fruit per tree to create the best returns at the end of the day. With this, we have started to follow many precision thinning tools to do this, including pruning models, carbohydrate model, and pollen growth tube model, to name a few. With these models in mind, we have started thinning at different timings and more often lending itself to the nibble thinning approach,” he said.“We’re also having to re-invent old chemistry using bloom thinners, like lime sulphur and oil, and ATS and NAA. Of course, we’re looking for some new chemistries down the road, like Brevis and ACC. We have also started reaching out to other non-chemical alternatives, such as mechanical thinning,” said Bartlett.“Mechanical thinning is popular in Europe where over 600 of the Darwin Blossom Thinners are in use in pome and stone fruit orchards. These are popular in peaches in North America but slow to take hold in apples, perhaps because there are some great thinning products available there,” he said.“A three-year study by Cornell University found that it was possible to replace a conventional thinning program with mechanical thinning. In the study, they compared a comprehensive thinning program with NAA, 6BA and Sevin to mechanically thinning with a follow up of 6BA. In the end, they were able to perform comparably with the standard on Honeycrisp and Gala,” said Bartlett.“The important factors in this were the correct spindle speed, depth, and speed of the tractor. It took them a few attempts to perfect the thinning response. It will be different for most blocks as canopies are never the same,” he said.“What we have learned is more strings are better, and the deeper into the canopy they can get is also better. Hedged rows are optimal and 6BA has a synergistic affect with the use of mechanical thinners. Thus far, the work has not shown to cause fire blight but, if in doubt or a troubled block, I would recommend following up with a strep.”“Do your own trials and keep good records. Research is proving that mechanical blossom thinning is a viable option,” he concluded.
Days may be numbered for carbaryl, an insecticide and apple-thinning agent commonly sold under the brand name Sevin by Bayer.Health Canada’s Pest Management Regulation Agency (PMRA) completed a re-evaluation of carbaryl in 2016, which led to some changes and restrictions on the product label. This included eliminating its use in residential areas plus as an insecticide on some fruit and vegetable crops. Apple thinning has remained on the label but at reduced rates: Maximum seasonal rate of 1.5 kg a.i./ha and an REI of 14 days for hand thinning [high-density trellis production such as spindle or super spindle] Maximum seasonal rate of 1.0 kg a.i./ha and an REI of 17 days for hand thinning [dwarf, semi-dwarf and full-sized trees] As a result, research is underway to discover a new thinning regime for Canadian apple producers.“We’re restricted to one application per season with further restrictions on re-entry into the orchard,” explained Dr. John Cline, apple researcher and associate professor at the University of Guelph. “We’re looking for an alternative that works as well as carbaryl.”He recently shared the initial findings of his work, which he undertook with the assistance of graduate student Michelle Arsenault, during the Ontario Fruit & Vegetable Convention held in Niagara Falls, Ont.“Apple thinning is something done to prevent over cropping and small fruit,” said Dr. Cline. “When we thin early, we are able to focus more energy resources into the fruit that persist until harvest. When you have larger fruit, harvest efficiencies increase dramatically.”Hand thinning is the least desirable way of managing crop load because it has the least effect on return bloom and final size at harvest but it is still an option. It also requires a large labour requirement.“We rely on bio-regulators or chemical thinners as a result,” Dr. Cline said. “We have to remember that fruit drop in early June is a natural process. The tree goes through this process naturally and the bio-regulators are meant to augment it.”There are a number of bio-regulators registered and these affect the plant metabolism and add to the natural process of fruit drop. The registered products in Canada are Sevin XLR Plus [carbaryl], MaxCel [6BA] and Fruitone [NAA]. The industry is hopeful some alternatives will become available. One product registered in the U.S. is Ethephon or Ethrel, which involves ethylene needed for fruit drop.Dr. Cline’s research team’s objectives were to determine the optimal concentration of new and existing plant bio-regulators for the thinning of Gala during fruit set. Doing an early spray followed by a second spray was the focus of their work plus what thinners perform the best, and what the final crop load, yield and final size would be.The first experiment was done on Gala using a hand-thinned control plot and compared to carbaryl and 6BA/MaxCel sprays.Late frost in 2015 forced the researchers to find another orchard where they applied thinners at the 17 mm stage. The treatment was thought to be ineffective because it was conceivably applied too late. Compared with 2014, they found fruit set was 40 per cent, considered too high for a commercial crop, and 2015 was slightly less than that.“In 2014, we found that 6BA tank mixed with NAA reduced fruit set by 50 per cent, whereas the ACC compound did not work at all,” Dr. Cline said. “In 2015, 6BA tank mixed with 5ABA and ACC reduced fruit set to a level comparable with carbaryl.”The crop load at harvest was reduced with thinners in 2015, explained Dr. Cline. The hand thinned was just under three fruits per trunk cross-sectional area while the target was about five to seven, so crop load was light so the trees probably didn’t need the aggressive thinning that might be needed in a heavy crop year.The researchers tried high and medium rates with the thinners and found a reduction in yield but no effect on quality factors, such as sugars, titratable acidity, starch index and fruit firmness.Conclusions on the two-year study suggest that at low rates, the ethylene precursors were effective the one year. However, crop loads were light in both years of the study and response could change with a heavier crop. Dr. Cline said the study needs to be repeated over several years to get a more definite answer.ACC and 5ABA appear to be effective alternatives for Gala if carbaryl is removed from registration, he added.“I think the results are encouraging.”In a study working with Gala conducted over 2013 and 2014 – before the concern with carbaryl came up – researchers wanted to know if growers applied the first thinning spray at 8 mm, what happened when the second spray was applied? This was a concern for growers who wanted to know if they should go in with a second spray and, if so, what should they use.In 2013, researchers used a standard rate of carbaryl, as recommended for Gala, and applied at 8 mm, then again with a second spray in seven days, near the closing of the window for thinning. It seemed to work, Dr. Cline said, adding carbaryl did reduce fruit set.“A tank mix of 6BA and carbaryl applied at 8 mm followed by carbaryl at 15 mm thinned the most.”Fruit size, for the untreated, was around 140 grams. In 2013, 6BA followed by a carbaryl spray produced the largest fruit size.“Yields always go down when you thin but hopefully you are compensated by the higher price of the fewer but larger fruits,” Dr. Cline said.“To summarize, 12 to 14 days was required from the time of the first spray to initiate fruit drop. A single application at 8 mm, applied separately or tank mixed, of 6BA and carbaryl was the most effective.”When it comes to future research, new thinning techniques and mechanical blossom thinning are on the list to be examined. According to the industry, string thinners are more effective now with the movement toward high-density, spindle-type orchards. New products, such as Metamitron – a herbicide registered in the EU and U.S. – are also of interest.“We will ... be looking at that,” Dr. Cline said.
May 5, 2017, Montreal, Que. - Inocucor Technologies Inc. of Montreal signed an agreement with Axter Agroscience Inc., one of Canada's leading providers and distributors of foliar feeding crop solutions, to distribute Inocucor's biological crop input Synergro™ in Canada.Under the agreement, Axter will also have certain prime-mover rights to rapidly develop the market in Quebec and Ontario.Synergro™ is a live-cell formulation for high-value produce, such as strawberries, tomatoes, lettuce and broccoli.This state-of-the-art biological product, approved by the Canadian Food Inspection Agency (CFIA) in December 2016, is among the first microbial products registered in Canada.It is also a Pro-Cert Approved Input for use in organic growing in Canada.Inocucor uses a patented fermentation process to combine multi-strains of bacteria and yeasts into powerful soil and plant optimizers that are safe for people and the environment.Synergro will be available through Axter's well-established distribution network in all the Canadian provinces.For more information, visit www.inocucor.com, www.axter.ca
April 17, 2017, Guelph, Ont – The Pest Management Regulatory Agency (PMRA) recently announced the approval of an URMULE registration for Prowl H2O herbicide for control of labeled weeds on direct seeded, green (bunching) onions grown on muck soil in eastern Canada and British Columbia. Prowl H2O herbicide was already labeled for use on a number of crops in Canada for control of weeds. The minor use project for green onions grown on muck soil was sponsored by Agriculture and Agri-Food Canada, Pest Management Centre (AAFC-PMC) as a result of minor use priorities established by growers and extension personnel. Prowl H2O herbicide is toxic to aquatic organisms and non-target terrestrial plants. Do not apply this product or allow drift to other crops or non-target areas. Do not contaminate off-target areas or aquatic habitats when spraying or when cleaning and rinsing spray equipment or containers. Follow all precautions and detailed directions for use on the Prowl H2O herbicide label carefully. For a copy of the new minor use label contact your local crop specialist, regional supply outlet or visit the PMRA label site http://www.hc-sc.gc.ca/cps-spc/pest/registrant-titulaire/tools-outils/label-etiq-eng.php .
July 27, 2017, Waterloo, Ont. - A biotechnology company that created a spray that helps farmers and growers protect crops from frost damage was among the big winners at the Velocity Fund Finals held recently at the University of Waterloo. Velocity is a comprehensive entrepreneurship program at Waterloo.Innovative Protein Technologies created Frost Armour, a spray-on-foam, after witnessing the effects of a devastating spring frost in 2012 that knocked out about 80 per cent of Ontario’s apple crop. Farmers would remove it after several days with another solution that converts it into a fertilizer."Frost damage not only affects farmers’ livelihoods, but also our food supply," said Erin Laidley, a Waterloo alumnus, who co-founded the company with Tom Keeling and Dan Krska, two alumni from the University of Guelph. "There are other spray-on solutions, but ours is non-toxic and has no negative environmental impact.”During the competition, 10 companies pitched their businesses to a panel of judges representing the investment, startup and business communities. Judges considered innovation, market potential, market viability and overall pitch.The following three companies were also grand-prize winners of $25,000 and space at Velocity. Three of the five top-prize-winning companies are based at Velocity Science. Altius Analytics Labs is a health-tech startup that helps occupational groups better manage musculoskeletal injuries. EPOCH is a skills and services marketplace that connects refugees and community members, using time as a means of exchange. VivaSpire is making lightweight wearable machines that purify oxygen from the air without the need for high pressure. For the first time, the prize of $10,000 for best hardware or science company went to a team that was not among the grand-prize winners. Vena Medical is making navigating through arteries faster, easier and safer by providing physicians with a camera that sees through blood.During the VFF event, an additional 10 teams of University of Waterloo students competed for three prizes of $5,000 and access to Velocity workspaces.The winners of the Velocity $5K are: HALo works to provide manual wheelchair users with accessible solutions to motorize their wheelchairs. QuantWave provides faster, cheaper and simpler pathogen detection for drinking water and food suppliers. SheLeads is a story-based game that helps girls realize their unlimited leadership potential. “Building a business is one of the boldest risks you can take, and yet our companies continue to demonstrate the vision, talent, and drive to think big and tackle challenging problems,” said Jay Shah, director of Velocity. “Today we are fortunate to benefit from an enormous wealth of experience from our judges who are leaders from the global investment, health and artificial-intelligence communities and entrepreneurs at heart. In helping Velocity award $125,000 in funding to these companies, we have taken a bet of our own in these founders, and said be bold, think big, and go out and change the world.”The judges for the Velocity Fund $25K competition travelled from Palo Alto, San Francisco and Toronto. They were Seth Bannon, founding partner, Fifty Years; Dianne Carmichael, chief advisor of health tech, Council of Canadian Innovators; Eric Migicovsky, visiting partner, Y Combinator; Tomi Poutanen, co-CEO, Layer 6 AI.The judges for the Velocity Fund $5K competition were Kane Hsieh, investor, Root Ventures; Tobiasz Dankiewicz, co-founder, Reebee; Karen Webb, principal, KWebb Solutions Inc.For more information on the Velocity Fund Finals, please visit www.velocityfundfinals.com
July 20, 2017, Ontario - Grapes and apples are high-value crops that require adequate water to grow properly. low water conditions such as drought stress have a negative impact on grapes and apples, lowering yields and reducing fruit quality.The Water Adaption Management and Quality Initiative project is using a suite of technology to determine soil moisture for grapes, apple and tender fruit and improve recording and monitoring of natural and artificial irrigation events to create best management practices and improve water conservation and efficiency while increasing yields. For more, check out the video above!
July 19, 2017, Guelph Ont. - A new weather database providing real-time updates from 80 automated weather stations along with customized weather-based recommendations from agronomists is helping Ontario crop farmers make key growing decisions in real time.Access to this new type of information means farmers can adjust the timing of everything from planting and necessary crop applications to harvest to get the most out of each acre.Three major Ontario co-operatives, AGRIS Co-operative, Wanstead Co-operative and Haggerty Creek, recognized the need for a weather database providing real-time updates and customized recommendations from agronomists to Ontario growers.In 2016, with Growing Forward 2 (GF2) funding accessed through the Agricultural Adaptation Council, the group successfully launched the AGGrower Dashboard, a project bringing southwestern Ontario growers together and assisting farmers making informed agronomic decisions.The AGGrower Dashboard gives producers an edge when it comes to dealing with weather; one of the most unpredictable and volatile aspects of farming. Participating growers have access to a database dashboard with 80 automated weather stations across southwestern Ontario measuring variables including temperature, rainfall and heat units.“We allow farmers to go onto the database and plot their individual field locations,” explains Dale Cowan, senior agronomist, AGRIS and Wanstead co-operatives. “Once they input their planting information, we give them field specific rainfall and heat unit data and then start to map out the growth stages in the crops throughout the growing season.”This project is a game-changer for the Ontario agricultural industry because it not only allows farmers to access information from the entire region, but also sends farmers timely agronomic advice and recommendations for their crops based on the crop stage and weather.“Everyone’s interested in how much it rains,” explains Cowan, “but what you have to know from a farm management standpoint, is if it rains, what do I need to do based on my crop growth stage?”The collaboration of the three co-operatives allows producers to make smart, informed decisions that end up benefiting not just the producer, but also the industry, land and environment.Cowan explains the database using nitrogen fertilizer application as an example. A farmer would never apply nitrogen the day before a big rainfall because the moisture would cause leaching.As a member of the database dashboard, the farmer could have a more accurate reading on weather or receive a warning and know to hold off on nitrogen application. Small management changes like this go a long way in helping the farmer act as an environmental steward of the land.When producers sign up, they enter geographical and crop information for each of their fields and adjust notification settings to what fits their lifestyle best. Farmers can group fields together to reduce the amount of notifications they receive, or check the site manually.“Once you put your data in, you can see the entire growth season for your fields,” says Cowan. “Farmers can log onto the website and see weather-wise what’s going on in their fields in near real time.”This is the first year all 80 weather stations are operating and recording data, but even during partial roll-out the previous year, the 160 early adopters using the dashboard were pleased with the results and Cowan expects to see an increase in farmer memberships this year.This project was funded in part through Growing Forward 2 (GF2), a federal-provincial-territorial initiative. The Agricultural Adaptation Council assists in the delivery of GF2 in Ontario.
July 18, 2017, Ontario - New storage bins are currently being tested that could extend the shelf life of fresh Ontario produce.Dr. Jennifer DeEll, frest market quality program lead with Ontario Ministry of Agriculture, Food and Rural Affairs, is currently leading a two-year project to test the effectiveness of the Janny MT modified atmosphere storage bins on Ontario fruits and vegetable crops.Check out the video for more!
July 17, 2017, Niagara on the Lake, Ont. - The Penn Refrigeration forced air system dramatically reduces the time peaches need to reach the optimal temperature. Take a look at how the equipment is being used at the Niagara on the Lake, P.G. Enns & Sons' facility.
July 11, 2017, Waterloo, Ont. – Good lighting can do more than illuminate your salad. It can actually tell you the quality of those soon-to-be ingested leafy greens.With the right technology, light can be used to measure the quality of food in real-time. When it comes to food processing, that can help make for more efficient and less wasteful production systems.With funding through Growing Forward 2 (GF2), Waterloo’s P & P Optica has patented a system allowing them to incorporate hyperspectral imaging technology into a fast-paced, food processing environment.“We developed what we call PPO Smart Imaging, which is a process that uses light to analyze the chemical makeup of a specific food product,” said Kevin Turnbull, Vice President of Sales for P & P Optica.“The science lets us see what products make the grade, and which ones don’t. Incorporating it into a food production system can help processors improve their grading and sorting efficiency,” he said.Hyperspectral imaging (also called chemical imaging) involves illuminating an object with bright light. Special cameras pick up hundreds of different colour variations as the object passes under the light – conventional consumer cameras work at a much, much lower level – and generate data from those colours. In turn, that data indicates what the object is made out of and what quality the material is.Turnbull and his colleagues are now working with local spinach processor Ippolito Produce Ltd. and Conestoga College to operationalize their technology in a working environment. Similar technology has been used by P & P Optica in recycling and in the biomedical field, but this is the first time it has been brought to the food world.A major benefit, according to Turnbull, is significantly reducing food waste.“Hand-sorting is either ineffective or impractical, so processors often use limited technologies like primitive vision, X-ray or metal detectors,” he said. “Still, waste and foreign material contamination persists, sending good food to the waste pile and potentially allowing foreign materials to reach the consumer. Our system will address that.”While Turnbull does not yet know the exact impact his company’s method will have, he said they are anticipating “significant waste reduction.”“Even if only 25 per cent less spinach is thrown out, that will translate to hundreds of thousands of dollars every year,” he said.The prototype from P & P Optica was just recently installed at the Ippolito plant in Burlington. Now the companies are working closely to actively test and fine-tune the system.According to Turnbull, the goal is to improve the system so it can be can be brought to other food processors – including companies managing meat and animal-based products – as a workable solution for inline food grading and safety.While the field test is not slated to finish until later in the year, Turnbull said they have already seen growing interest in the technology.“Riga Farms, which is a carrot producer from the Holland Marsh, and Earth Fresh Foods, a Burlington-potato company, are also partners in the project. When we applied to Growing Forward 2, they jumped onboard and made their own investment contributions,” he said. “They have enthusiastically supported this project from the beginning.”
July 7, 2017, Mississauga, Ont. – Canada’s food and beverage processing industry is an important driver of economic growth in Canada. The Government of Canada continues to support the innovation and competitiveness of the food and beverage sector, so that it can create better job opportunities for Canadians and add value to our agricultural sector.Minister of Innovation, Science and Economic Development and Member of Parliament for Mississauga–Malton, Navdeep Bains and the Minister of Agriculture and Agri-Food, Lawrence MacAulay, announced today an investment of up to $6.3 million to the Greenhouse Juice Company to invest in new-to-Canada, cold pasteurization technologies to help increase the shelf life of its organic juices, while maintaining the nutrition and freshness of its products.“Our food and beverage processing industry must stay on the cutting edge through investments in innovation, to succeed in today’s marketplace. Investments such as this one will help grow Canadian agri-businesses and expand their markets, while strengthening the middle class,” said Lawrence MacAulay, Minister of Agriculture and Agri-Food.This investment enables Greenhouse Juice to expand into their new Mississauga facility, generating hundreds of job opportunities in the region. With the facility expansion and the adoption of the cold-pasteurization technology, Greenhouse Juice will purchase significantly more Canadian-grown fruits and vegetables, and produce juice for both Canadian and international markets."As a young company on an ambitious mission—to offer widespread, sustainable access to plant-based nutrition of the highest quality—we at Greenhouse could not be more grateful for this opportunity bestowed by Minister MacAulay, the Ministry of Agriculture, and the Government of Canada. The AgriInnovation Program is making it possible for us to integrate innovative technologies from Canada and around the world to create a novel process that will allow us to grow without in any way compromising the quality or sustainability of our products. In so doing we will create hundreds of new jobs; increase the amount of organic, local produce we purchase by 10 fold over the next four years; and follow through on our mission of contributing to a healthier nation,” said Anthony Green, Co-founder and CEO, Greenhouse Juice Co.
July 5, 2017, Langley, B.C. – Approximately 2,000 wildfires occur each year in British Columbia. The effect of wildfires on the province’s agriculture community can be devastating and costly.More than half of the wildfires in 2016 were caused by humans.With the wildfire season upon on us in B.C., there are measures that ranchers, farmers, growers, and others who make their living in agriculture can do to protect their workers and their property. Addressing potential fire hazards will significantly reduce the chances of a large-scale fire affecting your operation.Controlling the environment is important. Clear vegetation and wood debris to at least 10 metres from fences and structures; collect and remove generated wastes whether it is solid, semi-solid, or liquid; and reduce the timber fuel load elsewhere on your property and Crown or lease land to help mitigate the risk.In the case that you have to address fire on your property, have a well-rehearsed Emergency Response Plan (ERP) in place. The ERP should also include an Evacuation Plan for workers and livestock.“Having a map of your property, including Crown and lease lands, and a list of all of your workers and their locations is extremely helpful for evacuation and useful for first responders,” says Wendy Bennett, Executive Director of AgSafe. A list of materials and a safety data sheet of all liquid and spray chemicals and their locations should also be made available to attending firefighters.Bennett suggests checking the Government of BC Wildfire Status website regularly to report or monitor the status of fires in your area.For over twenty years AgSafe has been the expert on safety in the workplace for British Columbia’s agriculture industry and is committed to reducing the number of agriculture-related workplace deaths and injuries by offering health and safety programs, training, evaluation and consultation services.For more information about agriculture workplace safety or AgSafe services call 1-877-533-1789 or visit www.AgSafeBC.ca.
June 13, 2017, Tampa, FL – Harvest CROO Robotics announced the introduction of their autonomous vehicle. This is a major step towards the completion of the Alpha Unit, which is expected to be picking strawberries in Florida next winter.As part of Phase I of the National Science Foundation Grant, Harvest CROO Robotics is developing software and hardware tools. They include the vehicle’s GPS navigation system, LIDAR technology, and other camera and sensor features.The mobile platform is a modified version of a Colby Harvest Pro Machine. With four-wheel steering, turning movement will be smooth and precise, providing a zero turning radius for greater maneuverability than a standard tractor. Special levelling hardware and software has been developed and added to allow the vehicle to compensate for varying bed heights.The vehicle will carry 16 picking robots through the field and span 6 beds of plants, picking the four middle beds. The Harvest CROO machine is equipped with a dual GPS system. The Harvester uses both GPS systems to interpolate the position of the platform to be able to position the robots precisely over the plants.“Having the machine navigate the fields autonomously is the culmination of years of work and prototyping,” said Bob Pitzer, Co-Founder and CTO of Harvest CROO. “It is very gratifying to see our team effort come to fruition.”Harvest CROO Robotics continues to develop and test the latest technology for agricultural robotics. Using the proprietary vision system, all ripe berries will be harvested from the plants. The fruit will then be transferred up to the platform level of the machine using a series of conveyers. There, the packing module of the machine will perform a secondary inspection and grade the fruit. Depending on quality, it will either be packed into consumer units, diverted to process trays, or discarded. The use of this technology will improve the quality of the berries picked, reduce energy usage, and increase strawberry yields.In December, the National Science Foundation awarded a grant worth up to $1 million. Harvest CROO Robotics used part of these funds to bring several highly qualified and experienced individuals on board the project. Scott Jantz, Electrical Engineering Manager, said, “We all feel like we are part of something special.”While fundraising for the project has been ongoing, the current investment round will likely be closed at the end of July, when field testing of the vehicle is completed. “We will possibly open a new investment round early next year, at a higher valuation.”, stated Gary Wishnatzki, Co-Founder. “The new unit price will reflect the successful deployment of the Alpha Unit, a key milestone.”
June 6, 2017, Charlottetown, PEI – As potato growers across P.E.I. plant this year's crop, many are using the latest GPS technology to guide them. "I'd say probably 80 per cent of growers out there would have something like this," said Will MacNeill, owner of Atlantic Precision Agri-Services, in West Devon, P.E.I. READ MORE
June 6, 2017, Kingston Ont – Farming is a complex business, and keeping track of everything can sometimes be troublesome, if not a bit overwhelming. With this in mind, Kingston-based software company Dragonfly IT developed Croptracker – a multi-faceted, cloud-based monitoring system designed to give fruit and vegetable growers real-time updates on their businesses. “Croptracker offers an easy-to-use software package that monitors growing practices throughout the season,” said Matthew Deir, company founder. “Growers sign up for our system and can access all of their daily inputs from one central hub. It helps both traceability and cost saving.” Croptracker highlights three key areas relevant to growers’ economic, environmental, and social sustainability, with food traceability taking the top spot, followed by operational costs and yield analysis. The software itself is a consolidation of similar systems previously developed by Deir’s company, including Fruit Tracker, Apple Tracker, and Nursery Tracker. By combining these and several other systems, he says, Dragonfly IT has tried to make the software useful for all growers of all kinds. He also emphasized that Croptracker is “literally grower-built,” being the result of “thousands of hours meeting with growers and learning what their needs were.” The Croptracker cloud system allows growers to map how their crop is produced – what time it was planted, what inputs went into it, and so on – as well as where it came from. According to Deir, the software can literally trace each basket of product back to the field from which it was harvested, and potentially, even the person who harvested it. Croptracker can also be used as a human resources interface, helping keep track of employee time and activity. There’s even a “punch clock” feature that can show growers who is doing what, for how long, and when. By being able to see how long it takes to perform different tasks, Deir said farmers can pinpoint where their costs are coming from, and if necessary, investigate why. At the end of the growing season, the Croptracker system can also help monitor how good – or bad – the harvest was at different times and from different parts of the farm. Giving an opportunity for contrast and comparison, Deir said, means growers can further distil the potential sources of any yield discrepancy they might encounter. Approximately 1,000 farmers currently have access to the software for free (their producer associations buy the rights on their behalf), but individual growers can still access Croptracker on a pay-per-package basis. And it’s not just Ontario farmers who can use the service either; growers producing more exotic fruits in places far afield have also shown interest – most recently, for example, a New Zealand avocado grower. “I never thought about [the software] working for that kind of crop, but the farmer definitely thought otherwise,” Deir said.
June 5, 2017, Montreal, QB – The Agri-business Division of La Coop fédérée has just signed a strategic agreement with a major player in digital agriculture in California.This easy-to-use online solution presents a comprehensive approach to data collection and analysis in crop production. Combined with the agronomic knowledge of the Agri-business Division, it will enable Canadian farmers to maximize productivity and profitability on their farms. La Coop fédérée retailers will also benefit from this tool which will enable farmers and advisors to work closer together.This partnership fully supports the digital transformation of the Agri-business Division as it provides farmers, advisors and retailers with innovative tools to assist in the management of their farms.In addition to precision farming, the solution will include improved management of record keeping and regulatory compliance requirements at the provincial and national levels. Canadian agricultural farmers and retailers will benefit from the analytical capabilities of more accurate data from inter-connected tools such as satellite imagery. This digital solution will also enable users to take charge of their agronomic planning in an efficient and sustainable manner from their mobile devices.
August 18, 2017, Vancouver, British Columbia – The governments of Canada and British Columbia are working under the AgriRecovery disaster framework to determine the type of assistance that may be required by British Columbia’s agriculture sector to recover from the impact of wildfires. The announcement was made following the first meeting between Federal Agriculture and Agri-Food Minister Lawrence MacAulay and B.C. Agriculture Minister Lana Popham.Government officials are working together to quickly assess the extraordinary costs farmers are incurring and what additional assistance may be required to recover and return to production following the wildfires. The types of costs under consideration include: Costs related to ensuring animal health and safety. Feed, shelter and transportation costs. Costs to re-establish perennial crop and pasture production damaged by fire. "Our Government stands with producers in British Columbia who are facing challenges and hardships because of these wildfires. Together, with our provincial counterparts, we will work closely with affected producers to assess the full scope of their needs and help them get back in business as quickly as possible," Lawrence MacAulay, Minister of Agriculture and Agri-Food said. 
August 18, 2017 - The Canadian Agricultural Human Resource Council (CAHRC) recently held an AgriWorkforce Roundtable to discuss challenges and possible solutions to address the critical agricultural labour shortage in Canada.Participants included primary producers, processors, retailers, policy makers and academics – all putting their heads together to come up with new solutions to what is becoming a persistent problem; how do you attract and retain farm workers?Marc Smith, retired Assistant Director of the New York State Agricultural Experiment Station in Geneva and Senior Extension Associate opened the discussion with an international perspective on shared agricultural labour challenges among the United States and Canada.Smith started off by identifying several trends in the U.S. agricultural labour climate:• Regardless of government policy, people seeking employment in agriculture will be scarce.• Economic and other motivations to develop and adopt labour-saving technologies are growing.• Political and economic pressures will force minimal wages higher in many states.• Perception of agriculture as an unattractive field for careers is a perennial challenge.The consequences of these U.S. agricultural labour trends has resulted in a 20 per cent decline in available agricultural workers between 2002-14; an annual loss of US $3.1B to fruit and vegetable production due to labour shortages; and a declining U.S.-born population willing to work on farms.In Canada the gap between labour demand and the domestic workforce in agriculture has doubled from 30,000 to 59,000 in the past 10 years and projections indicate that by 2025, the Canadian agri-workforce could be short workers for 114,000 jobs. This was a key finding of Labour Market Information (LMI) research by CAHRC entitled Agriculture 2025: How the Sector’s Labour Challenges Will Shape its Future. The LMI research also revealed that Canadian primary agriculture had the highest industry job vacancy rate at seven per cent - higher than any other industry in Canada. This resulted in $1.5-billion in lost sales.Poor worker compensation is often cited as the primary reason for low interest in working on farms. However, Smith notes that agricultural wages in the U.S. have gone up faster than any other sector in the past 10 years with the median wage being $13.23/hr ($17.76 Cdn) as of April 2017. In Canada, farm hourly rates averaged $17.50/hr in 2016.Smith advocates that wages alone are not the issue but rather what is needed is a coordinated effort to improve labour policy, on-farm workforce needs, and farm practices.Smith suggests that farmers need to develop realistic policies that attract and retain workers. Investment in leadership and management capacity within the agricultural industry is also needed to encourage innovation, research and development for long-term solutions to the already critical agricultural workforce.It is not enough to simply pay required wages and comply with regulations. Employee compensation should also include how workers are treated and have their needs accommodated such as providing housing, access to the internet, transportation, communications in their own language, offering English as a second language training, job training, flexible hours, and creating a sense of community. It is important to make workers feel welcomed, valued and confident.Finally, modifying farm practices to reduce the need for labour is another way to reduce on-farm workforce pressures. This may include adopting new technology that negates the need for human workers, changing crop mixes to less labour intensive commodities, or moving production operations to streamline efficiency.To help attract and retain a motivated workforce, CAHRC has developed several tools to help farm managers including: AgriSkills – customizable and commodity specific on-farm training programs; Agri HR Toolkit – an online resource guide and templates to address the HR needs of any business; and Agri Pathways – promoting careers in agriculture. For more information on these and other CAHRC offerings visit www.cahrc-ccrha.ca.In the meantime, Smith says producers should champion farmers that are doing a great job with their workers and get the word out that agriculture is a rewarding and fulfilling career with a strong future.
August 4, 2017, Boise, ID – Health Canada and Canadian Food Inspection Agency (CFIA) have completed the food, feed, and environmental safety assessments of the J.R. Simplot Company’s second generation of Innate potatoes. The authorizations enable the potatoes to be imported, planted, and sold in Canada, complementing the three varieties of Innate first generation potatoes that received regulatory approval last year. Health Canada conducted a comprehensive safety assessment and approved the use of Innate second generation potatoes for food. In addition, CFIA determined that these potatoes are “as safe and nutritious as traditional potatoes” for use as livestock feed, and that the potatoes do not present increased risk to the environment when compared to currently cultivated potato varieties in Canada. The second generation of Innate potatoes contains four beneficial traits of relevance to potato growers, processors and consumers: Protection against the late blight pathogen Reduced bruising and black spot Reduced asparagine, which contributes to reduced acrylamide in cooked potatoes Lower reducing sugars, which further contributes to reduced acrylamide while enhancing cold storage capability These traits were achieved using genes from wild and cultivated potatoes to adapt the standard Russet Burbank, Ranger Russet, and Atlantic potato varieties. Innate late blight protection trait can convey up to a 50 per cent reduction in annual fungicide applications typically used to control late blight disease. This disease was a contributing cause of the Irish Potato Famine in the mid-19th century and remains a major constraint for production and storage. Further, research shows that Innate second generation potatoes help reduce waste associated with bruise, blight, and storage losses by reducing waste at multiple stages of the value chain, including in-field, during storage and processing, and in food service. That research suggests that these traits will translate to less land, water, and pesticide applications to produce these potatoes. Lower asparagine and reducing sugars mean that accumulation levels of acrylamide can be reduced by up to 90 per cent more when these potatoes are cooked at high temperatures. In addition, lower reducing sugars enable cold storage at 3.3 Celsius for more than six months without significant degradation in quality. According to academic estimates, if all fresh potatoes in Canada had Innate Generation 2 traits, potato waste (in-field, during storage, packing, retail and foodservice for fresh potatoes) could be reduced by 93 million kilograms. In addition, CO2 emissions could be reduced by 14 million kilograms, water usage reduced by 13 billion liters, and a total of 154,000 fewer pesticide hectare-applications would be needed. “This is a big technology advancement for the Canadian potato industry,” said Kevin MacIsaac, general manager of the United Potato Growers of Canada. “As long as proper stewardship guidelines are followed, Innate biotechnology provides growers a promising option to significantly reduce waste, chemicals, and pesticides.” “We’re excited to offer the latest generation of Innate potatoes to the Canadian marketplace,” said Susan Collinge, Ph.D., vice president of Simplot Plant Sciences, a division of the J.R. Simplot Company. “Innate second generation potatoes offer important benefits while staying within the potato genome to create a quality crop.”
August 17, 2017, Vancouver, B.C. - The new British Columbia government confirmed it won't tinker with the previously-announced $.50 increases to BC's general minimum wage and liquor server wage. Effective Sept. 15, the general minimum wage will increase from $10.85 to $11.35 and the liquor server wage will increase from $9.60 to $10.10."Restaurants Canada supports reasonable minimum wage increases that ensure our employees keep up with the cost of living, are announced well in advance to give businesses time to adjust, and do not trigger large menu price increases or a reduction in entry-level employment," said von Schellwitz. "We're concerned when governments move too quickly and at the wrong time, as it hurts businesses, customers and employees."The association doesn't want to see a repeat of the job losses in Alberta, where an arbitrary push for a $15 minimum wage cost more than 4,700 hospitality industry jobs in 2016 alone, and where the youth unemployment rate spiked to over 14 per cent.Our members are equally concerned by the Ontario government's about-face on minimum wage policy, moving abruptly from linking minimum wage increases to the cost of living, to pushing for a $15 minimum wage in just 18 months. This decision, combined with other labour reforms, is putting 187,000 jobs at risk, 17,300 in the restaurant and hotel industries alone.  It will also double inflation, increase household costs for consumer goods and services by $1,300 a year, and increase deficits for all levels of government."Restaurants Canada is pleased that the BC government is maintaining the previously-announced 2017 minimum wage increases that small businesses have been preparing for. We look forward to working with the new government and Fair Wages Commission on future minimum wage increases that raise wages without costing entry-level employment opportunities," concluded von Schellwitz.
August 17, 2017, Ontario - The Ontario Processing Vegetable Growers (OPVG) and the Ontario Fruit and Vegetable Processors Association (OF&VPA) are continuing with a bursary fund to support and encourage individuals pursuing a career in any aspect of the processing vegetable industry. These organizations are working together to ensure that there are new individuals who will have the interest, skills and abilities to further develop and grow this sector of Ontario’s agri-foodeconomy.Sponsor donations allow the OPVG and the OF&VPA to offer up to five bursaries to students this fall. These include bursaries in memory of former OPVG directors Jim Whitson and Ken Epp. Note that the Jim Whitson bursary is awarded to a student attending Ridgetown College. The award in memory of Ken Epp receives an additional $1,000 from the fund established in his name by the OPVG. Applicants must be a resident of Ontario and registered as a full-time student at any college or university entering the second, third, fourth or post graduate year of study which relates in some aspect to the processing vegetable industry.If you require further information regarding the bursaries, please contact:Ontario Processing Vegetable Growers at 519-681-1875.The Bursary Application Form is available at www.opvg.org or on request from the OPVG office (519-681-1875). Applications must be submitted no later than October 15th and will be received by regular mail at 435 Consortium Court, London, ON N6E 2S8, by e-mail at This e-mail address is being protected from spambots. You need JavaScript enabled to view it or fax (519) 685-5719 and can also be submitted online at www.opvg.org/opvg-bursary/.
August 15, 2017 - The Council of Canadians is pressing the provincial government to keep genetically modified potatoes out of P.E.I. soil.Council chair Leo Broderick questions the science behind Innate generation 2 potatoes, and added P.E.I. would be better off staying away from the controversy surrounding genetically modified food. He noted P.E.I. is already attracting attention as a producer of genetically modified salmon. READ MORE
August 14, 2017, Morgan Hill, Cali. – We are pleased to announce the promotion of John Nelson as Vice President of Sakata America Holding Company and its primary operating subsidiary of Sakata Seed America, effective September 1st. John is currently the Senior Director of Sales and Marketing at Sakata Seed America, a position he’s held since 2004.“I am truly looking forward to the next phase of my career. This industry has a lot to offer globally and Sakata will continue to be a major contributor to the well-being of our distributors, growers and consumers.” says Nelson.John is a long-standing industry vet, beginning his career in 1985 at Northrup King in Gilroy, California, where he spent nearly five years in the marketing department. In November 1990, John joined Sakata Seed America to manage advertising for vegetables and ornamentals. Over the years, as John’s involvement grew into the sales arena, his focus shifted to vegetables. In 2004, John took on the responsibility of director of sales and marketing for Sakata.“John’s experience will help strengthen the Sakata team and add value to Sakata’s affiliates all over the world”, says Dave Armstrong, President-CEO of Sakata Seed America. “John brings a deep understanding of Sakata’s culture and expansive product line to his new executive position, ensuring he will be a crucial asset to our company’s strategy.”Sakata is actively recruiting to fill the position of senior sales-marketing manager, vegetables.Sakata Seed America, which celebrates its 40th year of business in NAFTA and Central America this year, is focused on expansion of personnel and infrastructure to continue successful growth.
August 14, 2017, Ottawa, Ont. - Farm Management Canada is seeking to honour individuals or groups with the 2017 Wilson Loree Award. This prestigious award was established over fifteen years ago, to honour those that have made an extraordinary contribution to developing and promoting new and positive change in agricultural business management practices and expertise in Canada.FMC encourages the nomination of individuals or groups that: Have made significant contributions in the area of business management regionally or nationally; Have demonstrated innovation in areas such as turning research into practical management tools, adapting best practices from other sectors to agriculture, and finding new ways to deliver training, information and resources to farm managers; Have served as a role model and a mentor to colleagues, partners and clients, inspiring them to achieve their full potential; Have demonstrated the ability to network and develop partnerships to include others in furthering the shared goals and vision of the agriculture industry Nominations are required by October 13, 2017. FMC Staff and Board members are not eligible for the award. The winner will be revealed during the Agricultural Excellence Conference on Wednesday November 22nd. All are welcome to attend.
August 11, 2017, Toronto, Ont – Vive Crop Protection recently announced a new partnership with four biopesticide manufacturers to develop new and improved biopesticides, supported by Sustainable Development Technology Canada (SDTC). Biopesticides are the fastest growing crop protection segment, but have suffered from limited effectiveness in field situations, shorter product life, poor compatibility with conventional pesticides, and limited combination products. Vive has recently demonstrated that the Allosperse Delivery System enhances the viability and performance of biopesticides. “This project extends the scope of the Allosperse Delivery System and means that we can provide a complete solution to growers, whether they need a conventional, biological, or combination crop protection product,” said Keith Thomas, CEO of Vive. “We’re excited about the potential for these products and thank SDTC for the support.” Over the next three years, Vive will work with the partner manufacturers to develop new and improved versions of their products. This work will be supported by SDTC. “Vive Crop Protection is developing environmentally-friendly pesticides made from organic matter,” said Leah Lawrence, president and CEO of Sustainable Development Technology Canada. “This Canadian-made technology represents an advancement in biopesticides that will deliver real economic and environmental benefits across Canada and around the world.”
August 10, 2017, Leamington, Ont – Joe Sbrocchi will assume the general manager role at the Ontario Greenhouse Vegetable Growers (OGVG), effective Sept 18th, 2017. Sbrocchi has been active in a number of roles in the greenhouse sector for the last eight years. Previously, he has held management roles with national retailers like Sobeys and Walmart providing a solid body of work throughout the entire value chain. “We are pleased to have a quality leader join the OGVG at a point where his experience, skills and leadership can significantly support our sector”, said George Gilvesy, OGVG chair. “I believe my lifetime in produce and in particular the past eight years in the greenhouse sector have prepared me well for this role,” said Sbrocchi. “I am looking forward to representing Ontario greenhouse growers to the very best of my abilities.”
August 9, 2017, Charlottetown, PEI – Agriculture and Agri-Food Minister Lawrence MacAulay recently opened the first regional engagement in Charlottetown, PEI, as part of the ongoing consultations regarding the development A Food Policy for Canada. “Today’s session marks the continuation of the important, in-depth conversation we are having about A Food Policy for Canada,” he said. “The decisions we make as a government, and as individuals, about food have a major impact on not only our health and well-being, but on our environment, our communities, and our economy. Conversations like the one we are having today are vital to ensuring the food choices we make are the right ones, while ensuring we meet the growing world demand for high quality foods produced by our farmers and ranchers.” The session, which includes stakeholders, Indigenous representatives, experts, and key policy makers, is the first in a series being held across the country over the next two months. Public consultations on A Food Policy for Canada were launched on May 29, 2017, via an online survey. Due to a strong response from across the country, the comment period for the online survey was recently extended to August 31, 2017. A Food Policy Summit also took place in June that brought together more than 250 participants with diverse expertise and experience to discuss a broad range of food-related issues, related to: increasing access to affordable food; improving health and food safety; conserving our soil, water, and air; and growing more high-quality food.
August 8, 2017, Harrington, PEI – The Government of Canada recently to announce a $300,500 investment for the Prince Edward Island Federation of Agriculture (PEIFA) to undertake a risk assessment of agriculture on the island. The assessment will include three focus groups from across PEI who will discuss and rank various risks associated with agricultural production for a range of commodities. "We are proud to partner with the PEIFA to help Island farmers better understand and mitigate the risks they face on their operations,” said Lawrence MacAuley, Minister of Agriculture and Agri-Food. “We’re helping farmers access the information and tools they need to continue to grow and strengthen our economy." "The [PEIFA] is appreciative of the government’s commitment to working with us on this important initiative,” said David Mol, president of the PEI Federation of Agriculture. “This work will assist the farming community on PEI to proactively get ahead of our collective risks and built toward a stronger future for our industry."

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