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Monday, 5 August 2019 8:00 AM - 5:00 PM MST
1555, Pocatello Creek Road, Pocatello, ID, 83201, United States
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Red Lion Hotel, 1555, Pocatello, ID, 83201, United States.
This seminar will cover topics regarding the following areas:
Speakers from the University of Idaho, USDA-ARS, and others.
Ticket prices at the door: Members - $120, Non-Members - $230
Cancellation policy TRAINING CANCELLATION POLICY CLASSROOM TRAINING The following policy applies to all FWAA classroom training courses: CUSTOMER CANCELLATIONS Cancellations received up to 10 business days prior to class will be refunded the training fee minus a $50 cancellation fee. Cancellations 1-10 business days prior to class, and no-shows, are subject to payment for the full amount without future training credit. Registrations can be transferred to another person within the registered person’s organization. Please note that if you do not cancel or do not attend, you are responsible for full payment. We do not make exceptions to this policy. CLASS CANCELLATION BY FWAA FWAA reserves the right to cancel or change a training at any time, including but not limited to, lack of classroom, equipment or trainer availability. Notification will be provided within 14 days of the training, whenever possible. Registrants will not be charged for the training. FWAA is not liable for any direct, or indirect, consequential or special damages that may be incurred due to a cancellation of a scheduled training, including, but not limited to, cancellation penalties for transportation or accommodations. The customer’s sole remedy shall be the refund of prepaid course fees. GENERAL DISCLAIMER FWAA shall not be liable for damages of any kind resulting from errors or omissions in the training materials nor shall FWAA be liable for any damages resulting from the use of the training materials or other information conveyed at a FWAA course.
TRAINING CANCELLATION POLICY
CLASSROOM TRAINING
The following policy applies to all FWAA classroom training courses:
CUSTOMER CANCELLATIONS
Cancellations received up to 10 business days prior to class will be refunded the training fee minus a $50 cancellation fee.
Cancellations 1-10 business days prior to class, and no-shows, are subject to payment for the full amount without future training credit.
Registrations can be transferred to another person within the registered person’s organization.
Please note that if you do not cancel or do not attend, you are responsible for full payment. We do not make exceptions to this policy.
CLASS CANCELLATION BY FWAA
FWAA reserves the right to cancel or change a training at any time, including but not limited to, lack of classroom, equipment or trainer availability.
Notification will be provided within 14 days of the training, whenever possible.
Registrants will not be charged for the training.
FWAA is not liable for any direct, or indirect, consequential or special damages that may be incurred due to a cancellation of a scheduled training, including, but not limited to, cancellation penalties for transportation or accommodations. The customer’s sole remedy shall be the refund of prepaid course fees.
GENERAL DISCLAIMER
FWAA shall not be liable for damages of any kind resulting from errors or omissions in the training materials nor shall FWAA be liable for any damages resulting from the use of the training materials or other information conveyed at a FWAA course.
www.fwaa.org
For questions regarding this event, contact Karen Taylor at karen@fwaa.org or Errin at errin@fwaa.org.
Jodi has over 20 years experience in the field of soil science. She joined the faculty at the University of Idaho (UI) after receiving her PhD in Soil and Water Science from the University of California, Riverside. During her time at UI, she has advised 19 graduate students and mentored countless undergraduates conducting research in her lab. Jodi’s research is currently focused on climate variability and sustainable agriculture. She is leading a large, multi-institutional research project focused on crop diversification, soil health and the overall resilience of agroecosystems. Other areas of interest include management impacts on soil macrofauna, macrofauna and soil physical properties, and the impact of invasive plant species on soil processes.
Linda recently joined the University of Idaho (UI) as the Nutrient and Waste Management Extension Specialist based in Twin Falls. Originally from Iowa, she received her MS at Iowa State University and PhD at University of Nebraska-Lincoln in Agricultural Engineering. During her degree programs, she found a passion for extension and is eager to serve the public in her position with UI. Linda's research program is primarily focused on how management practices, such as tillage, cover crops, and manure application, impact soil health and water quality.
Erin Brooks research focuses on the site-specific management of complex ecosystems through extensive field-based experimentation and process-based spatially-explicit models. This work has included fundamental landscape level hydrologic field experiments examining surface and subsurface nutrient transport, GIS-based distributed hydrologic, soil erosion, and crop modelling, in-stream sediment transport and nutrient cycling, forest fuel management and post wildfire mitigation treatments, spatial patterns in crop response and crop nitrogen uptake with remote sensing and modeling. His research has been conducted in widely diverse ecosystems including dryland agroecosystems, snow-dominated management forests, rangeland, tropical agricultural and forested ecosystems, perennial grasslands, deciduous forests and mixed urban environments.
Nora Olsen is a Professor and Extension Potato Specialist for the University of Idaho located in Kimberly, ID. She received her M.S. and Ph.D. in Horticulture from Washington State University with emphasis on potato physiology and production. Her research and extension programs over the past 20 years have focused on potato field and storage management, sprout and disease control, seed physiology and performance, harvest and handling management, farm and food safety, and cultivar evaluations. Nora has given over 400 extension and scientific presentations and authored over 320 scientific and extension deliverables. Nora was President of the Potato Association of America in 2013-14 and since 2014 has served as a Director of the World Potato Congress.
Dr. Olga Walsh is an Associate Professor, an Agronomist, and an Extension Specialist with the University of Idaho. Olga is directing the Cropping Systems program at Parma Research and Extension Center since 2014. The program’s goals are: 1) to develop applied research projects that help to address pressing needs of crop producers of Idaho and the Pacific Northwest region, and 2) to conduct educational outreach to agricultural professionals. The program is currently focused on developing scientifically-based, field-tested unbiased grower recommendations that would improve sustainability and profitability of farming operations. The current projects are in wheat, barley, beans, corn, sugar beets, onions, potatoes, and hops. Olga’s training and background is in Soil Fertility, Plant Nutrient Management, and Precision Agriculture. Originally from Russia, she obtained her BS degree in Soil Science at St. Petersburg State University, Russia. She received her MS and PhD degrees at the Oklahoma State University, Stillwater, OK. Prior to her UI appointment, she served as a Soil Nutrient Management Specialist with the Montana State University for 4 years. Olga is a published author on a variety of precision agriculture topics and has presented at numerous national and international precision agriculture events. Olga manages and writes for a Cropping Systems Blog (Idaho Crops & Soils) and writes and publishes articles for Idaho ag producers.
Dan Olk is a soil biochemist with the U.S. Department of Agriculture-Agricultural Research Service and works at the National Laboratory for Agriculture and the Environment in Ames, Iowa. He is a Ph.D. graduate (1993) of the University of California, Davis and worked for eight years at the International Rice Research Institute in the Philippines before his employment with the USDA-ARS (2001-present). Since 2009 Dr. Olk has conducted field evaluations of humic products in corn-soybean rotations of the U.S. Midwest, studying the efficacy of humic products for improving crop growth as influenced by environmental variables, including annual weather patterns and soil type. Field research has also addressed responses by corn structural biochemistry and root growth to humic products, and more recently has studied long-term benefits to soil physical properties. His laboratory research has used an integrated extraction for physical and chemical fractions of soil organic matter to link seasonal changes in their masses and biochemical natures to crop production and soil nutrient cycling in field conditions.
PFR’s, also referred to as plant hormones or phytohormones signal molecules produced within plants that control growth and development from germination to the production of seed, fruit and plant maturity. Industry research will help explain hormone activity in plants by first covering the five major hormone families found in plants and how the optimum the proper ratio which is critical to maximizing the plants potential. Learn how to use the right PGR at the right rate and right crop stage to reach your production objectives.
Sales Manager for California (North) – Nevada – Utah
This presentation will cover the key soil chemical and physical properties that drive function in agricultural systems. The focus will be on understanding how these properties are related to soil processes and measurement techniques. The presentation will serve as a refresher for those with some background in soil science and introduce a few tools where soil-related information can be found.
Department Head and Professor - University of Idaho
This presentation will cover best management practices and research updates on nutrient and water management for a variety of crops.
Associate Professor, Agronomist, and Extension Specialist - University of Idaho
This presentation will cover the basics of soil health and and how management practices specifically impact Idaho soils. The focus will be breaking down the complex the interactions of microbes, water, and nutrients in soil and why all are critical in building and maintaining productive soil.
Assistant Professor, Nutrient and Waste Management Extension Specialist - University of Idaho
Presentation will include background information on tobacco rattle virus (TRV), potato mop top virus (PMTV) and potato virus Y (PVY), biology, cultural practices in the field, and variety susceptibility. Specifics will be given on recent research directed at the three viruses. Primary focus will be on the impact of yield and quality and the risk for quality degradation in storage.
Professor and Extension Potato Specialist
Humic products from two companies promoted positive grain yield responses from rainfed corn and soybean in multiple field trials in central Iowa, although the degree of response varied. Yield responses were largest during droughtier conditions. They were generally financially profitable, even if agronomically modest due to the high yields that typify Iowa farming. Corn structural biochemistry responded in patterns that suggest complex biochemical interactions of humic products with environmental conditions and cellular-level plant processes. Corn leaf area and root growth also responded favorably to the humic products. Although the root growth responded too late in the season to explain enhanced leaf growth and perhaps grain yield response, its greater input of recalcitrant carbon into the soil carries implications for soil health. Hence, after five years of humic product application to one local field, modest but consistent benefits were observed below the plow layer to soil physical properties, including soil penetrometer resistance, available water content, and dry aggregation.
Biochemist - USDA-ARS
This presentation will discuss the impacts, implications, strategies, and techniques for the management of degraded soils in agricultural production. The talk will review short term strategies to optimize water use efficiency and nitrogen use efficiency in complex, spatially diverse fields and will discuss potential opportunities and benefits for investing and adopting strategies to restore these degraded soils. We will discuss the importance of monitoring and evaluating field scale variability in crop performance and profitability to improve spatial management strategies through on farm-experimentation and geospatial data. We will also discuss the benefits of improved soil health, particularly soil water retention and organic nitrogen, on crop performance in these degraded soils.
Associate Professor, Agricultural Engineer
As the main constituent of soil organic matter and microbial biomass, soil organic carbon plays key roles in several soil processes, yet there remains much to learn about its composition, cycling, and optimal management. This presentation will review current knowledge on the formation and chemical components of soil organic matter, its significance to soil processes and soil health classifications, and effects of different management practices on its accumulation.
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