8:00 Registration & Exhibit Hall Open
8:30 Break into tracks (See below for available track content)
Moderator: Paul Reibach, PhD, Technical Director Chemistry, Smithers Viscient
Delve into pesticide formulations and applications with active ingredients, methods for targeted delivery for crop protection and plants.
Tyler L. Harp, PhD | Technical Development Lead of Syngenta
The use of crop protection products has long helped farmers improve farm operations by managing weeds, insect pests and diseases and thereby increasing the yield and quality of their crops. Crop protection products are highly regulated and require extensive studies within toxicology and ecology to evaluate any risk to human health and their behavior in the environment. Recent trends within the discovery and development of new pesticide active ingredients have led to enhanced products that allow higher efficacy while minimizing adverse effects on non-target organisms and the environment. Advances in chemistry have allowed for the discovery and development of molecules that demonstrate increased target specificity, i.e. increased potency to the target organism(s) demonstrating benefits such increased safety to non-target species, pollinators and other beneficial organisms. In addition, benefits such as enhanced pest spectrum or prolonged efficacy allows the development of new products that can add more value over traditional products and provide exciting new tools for growers. The industry invests significant time and resources in the discovery, evaluation and performance of new crop protection tools that must pass rigorous hurdles within regulatory yet remain cost effective for farmers and provide sustainable longer term solutions. Challenges and opportunities as well as recent examples of innovation within the crop protection industry will be presented.
Ann Harbin | Senior Principal Scientist of International Agricultural Research, Inc.
“Begin with the End in Mind” …We’ve heard this before, and its importance cannot be overemphasized when planning for a Magnitude of the Residue (MOR) study as part of a regulatory submission to set a global Maximum Residue Limit (MRL, tolerance). From choosing the primary guidelines for study conduct to writing a final report acceptable to all regulatory agencies, careful consideration of variables at the front end will prevent deficiencies in the final product. “Penny-Wise and Pound Foolish” …In every study, design must balance risk and reward to maximize compliance with critical Good Agricultural Practices (cGAPs) in the field and analytical requirements according to OECD/JMPR/EPA parameters, especially for studies conducted across multiple countries and for setting import tolerances. With advance planning, beginning with the protocol, sensible studies can be designed.
Moderator: Walid Al-Khadar, PhD, Manager Regulatory and Governmental Affairs- Biologicals, BASF
A diverse exploration into crop protection from pests, weeds, and diseases to support plant growth initiatives for increased productivity.
Robert Kennedy, PhD. | Chief Scientific Officer of Vestaron
This talk will cover the three main problems that Vestaron has solved to commercialize SPEAR®. How SPEAR® provides the first exemplar of a new class of biopesticides that resets the resistance clock for the most commercially important neuromuscular target. And, how this approach holds the potential to transform insect control
Marrone Bio Innovations
Arthur M. Nonomura, PhD | Carbon Reactions of Photosynthesis Sector of BRANDT iHammer
BRANDT GlucoPro™ is a US EPA-registered bio-pesticide and this talk will cover how a discovery of basic science was transformed into this new class of plant growth regulator (PGR) for food use on farms. Development of this biochemical PGR is based on the recent elucidation of a previously unknown pathway in the carbon reactions of photosynthesis, for which we used the Benson Protocol of isotopic tracers2017 to reveal the mysterious processes of metabolism with absolute certainty. Traceable isotopes of carbon, 13C and 14C, were applied to plants to follow tagged metabolites, thus, revealing the biochemical mechanism of action utilized to direct modulation of glycoconjugation in the vacuole of plant cells. Field confirmations on a wide variety of crops include the following: Brassica (Cole) leafy vegetables, curcubit vegetables, fruiting vegetables, blueberry, cherry, grape, and sweet potato. This PGR improves plant health and vigor; enlarges root mass; promotes tolerance to environmental stress; increases yield, including premium marketable yield and harvestable weight; improves fruit size and count; enhances quality and firmness; and increases soluble sugar content as compared to control. 2017Nonomura et al., Photosynthesis Research DOI 10.1007/s11120-017-0410-y,
Moderator: Jose Carvalho, PhD, Head of Business Development Crop Protections, Knoell Group
Examine solutions to address sediment, soil, diets and aquatic matrices for variety of test organisms.
Dave Barnekow | Global Environmental Science Policy Leader of Corteva Agriscience
Two globally influential regulatory authorities have implemented significantly different regulatory frameworks for assessing the risk of endocrine disruption by a pesticide active ingredient (AI). The European Union (EU) system involves cutoff criteria based on three criteria; 1) ED mode of action (mechanism), 2) adverse effect relevant to humans and not target organisms and 3) Mechanism causes adverse effect. While the US Environmental Protection Agency (EPA) looks at the same criteria, then factors in the potency of the AI and the potential exposure to determine the risk of an adverse impact. As other regulatory authorities develop their regulatory framework for assessing ED, they tend to look to the ED assessment policies implemented by the EU and EPA to influence the direction they will move their developing ED policies
Moderator: Dr. Wendelyn Jones, Global Head of Food Chain and Brand Protection, Corteva Agriscience
Discussion about recreating balance and harmony for optimal outcomes.
Marco Toapanta, PhD | Global Director - Science & Technology of AgriThority
Crop yield is determined early in the plant lifecycle. Once peak yield potential is achieved within a month of planting, management decisions can only maintain or subtract from the maximum amount. Crops require proper nutrient management during the early and mid-season plant lifecycle to support maximum yields. For example, fertilizer applications are critical for corn when the ear is forming (V1 to V6 for row development, and V8 to V14 for ear development) at this stage, the potential for maximum kernels are set. Thus, to achieve maximum crop performance the factors to consider include nutrients applied, application timing, placement and rate of the nutrients. In addition, a holistic soil and seedling pest management to avoid economic damage is needed to protect and release the full potential of the genetic material for maximum yields. Field data provide evidence that early nutrition in the form of starter or pop-up fertilizers combined with a proper seedling pest management consistently exhibit strong plant establishment to set the crop potential, resulting in faster maturity and increased yield. Thus, emerging technologies combining plant nutrition and pest management applied as seed treatments or to the soil will help to achieve growers demands to increase crop yields.
Kelly Smith, PhD | Director of Microbials Development of AgBiome
Moderator: Dr. Robert Kennedy, PhD, Chief Scientific Officer, Vestaron
One of the largest and fastest growing agriculture sectors is in new technologies relating to precision agriculture applications, advances in seed & traits technology, and utilizing conservation science initiatives.
Biotechnology Innovation Organization