Tennessee Seed Treatment 6 Point Bundle

$99.00

Online HD Video | Category 04
This course bundle is designed for the Tennessee Seed Treatment Commercial Applicator (C04). The course bundle contains 6 points of training approved by the Tennessee Department of Agriculture. Please note: applicators may only complete half of the required training online (in-house). Click on course details for a list of specific courses.

Description

This course bundle is designed for the Tennessee Seed Treatment Commercial Applicator (C04). The course bundle contains 6 points of training approved by the Tennessee Department of Agriculture. Please note: applicators may only complete half of the required training online (in-house). Click on course details for a list of specific courses.

BUNDLE CONTENTS:

  • Integrated Pest and Resistance Management – 1 point
  • Seed Treatment Product Safety – 1 point
  • Fungicides and Plant Pathogen Sampling – 1 point
  • Personal Protective Equipment and Emergency Response – 1 point
  • Pollinator Stewardship – 1 point
  • Pesticides in the Environment – 1 point

 


Integrated Pest and Resistance Management

Course Description

Integrated Pest Management. Integrated pest management, or “IPM” for short, is an environmentally sound approach to controlling a pest population through common sense methods. Each control method will be addressed and defined in this presentation. IPM is a strategy focusing on the long-term prevention of pests or their damage through the use of multiple techniques.

Basics of Sampling for Plant Pathogens. Pathogens are often the root cause of plant failure. Implementing an effective strategy using chemicals to target an identified pathogen is an essential element of agricultural stewardship. This course teaches the basics of sampling, and the different tools and techniques needed to accurately identify crop pathogens.

Insect Identification. Insects are a major part of our daily lives. Whether we realize it or not, there are millions of insects around us at all times. This presentation is a brief overview of basic identification of insects that we commonly come in contact with. At the end of this presentation, I hope that you have a better understanding of how to identify insects that you might encounter in work or in your day-to-day activities.

Pesticide Calibration. Calibration ensures that your equipment delivers the correct amount of pesticide uniformly across your field or target area and if done incorrectly or not at all has major consequences. It can mean the difference between control or failure of a pesticide. This course ensures you will be able to accurately calibrate using many types of application methods: broadcast application, banded application, multiple nozzles per row, and in-furrow applications.

After completing this course participants will be able to:

  • Monitor and control pests through cultural, biological, mechanical, chemical, genetic, and host plant resistance methods.
  • Describe resistance, how it develops, and integrative ways it can be managed.
  • Identify the characteristic differences between arthropods and insects, and the stages of metamorphosis.
  • Describe the different of calibration types and why it is so important to calibrate before pesticide application occurs.
  • Become familiar with specific details and mathematical instructions on how to perform broadcast applications, banded applications, multiple nozzles per row, and in-furrow applications.

Chapter 1 – Integrated Pest Management 

  • Cultural Control
  • Mechanical Control
  • Chemical Control
  • Genetic Control
  • Host Plant Resistance
  • Resistance Management
  • Structured Refuge

Chapter 2 – Basics of Sampling for Plant Pathogens 

  • Why bother to sample for plant pathogens?
  • Keys to Sampling
  • Sample Collection Tools

Sampling Scenarios

  • Turf
  • Leaves
  • Fruit
  • Wilt
  • Woody Plants

Chapter 3 – Insect Identification 

  • Odonata (Dragonfly and Damselfly)
  • Orthoptera (Grasshoppers, Crickets, Katydids)
  • Isoptera (Termites)
  • Hemiptera (True Bugs, Hoppers, Aphids)
  • Coleoptera (Beetles)
  • Hymenoptera (Wasps, Bees, Ants)
  • Lepidoptera (Butterflies)
  • Diptera (Flies, Mosquitoes, Midges)

Chapter 4 – Pesticide Calibration 

  • When to Calibrate?
  • Calibration Terminology
  • Broadcast Sprayer Application
  • Banded Application
  • Multiple Nozzles per Row Application
  • In-Furrow Application

Final Assessment 


Seed Treatment Product Safety

Course Description

In the last ten years there has been a resurgence of treated seed use, largely due to the advent of improved chemical performance. We as agricultural producers are obviously concerned about the more modern applications of these processes, not only because they have been found to be beneficial to early crop protection but especially because they have been of concern to the safety of humans and the environment. This course will outline the benefits and risks associated with treated seed products.

After completing this course participants will be able to:

  • Weigh the benefits of treated seed products against the concerns for both human and environmental safety.
  • Outline the different types of seed treatment methods, dressings and manufacturing processes.
  • Be able to describe and integrate important safety guidelines based on EPA risk assessment recommendations.
  • Describe the environmental impact of seed treatment processes, and best practices as environmental stewards.

Lesson 1

Global Considerations

  • Markets at a glance
  • Use trends

Safety Perspective—Asking the Right Questions

  • Risk to benefit
  • Potential health risks
  • Chemical exposure pathways

Safety Perspective—Where to find the right answers

  • Product label
  • Safety data sheet

Seed Treatment Methods

Safety Guidelines

  • Manufacturing
    • Engineering Controls
    • Work practices
    • Personal hygiene
    • Personal protective equipment (PPE)

Lesson 2

Safety Guidelines – Cont.

  • Handling
  • Storage
  • Transport
  • Use
  • Disposal

Environmental Impacts and Stewardship

  • Pollinator myths exposed
  • Best management practices
  • Environmental impacts to other non-target organisms
  • Environmental impacts

Additional Resources

  • Seed Treatment Operator Safety Guidelines
  • Seed Treatment and Safety Regulations

Final Assessment


Fungicides and Plant Pathogen Sampling

Course Description

This course provides the learner with a few basics necessary for effective management of turf and ornamentals. Understanding how to properly collect specimens for accurate analysis by a lab will save time and money. Understanding how a fungus infects a plant and which fungicide will treat that fungus effectively will provide quick treatment that can limit damage done to the plant. Plant appearance, status of infections, what to include in your sample, and fungicide mechanism of action are discussed to provide a framework from which to formulate treatment strategies.

After completing this course participants will be able to:

  • Gain an understanding of the how fungicides penetrate the structures of a targeted plant.
  • Tailor a management strategy that addresses the prevention, identification, and treatment of fungal infections in plants.
  • Identify the proper part of the plant to send to the diagnostic lab for analysis.
  • Execute proper packaging and shipping of each sample to the diagnostic lab.

Chapter 1 – How Fungicides Work

  • Major Plant Parts
  • Fungal Infection Mechanism
  • Plant Systems
  • Nutrient Distribution
  • Fungicide Penetrants

Chapter 2 – Basics of Sampling for Plant Pathogens 

Sampling

  • Why bother to sample for plant pathogens?
  • Keys to Sampling
  • Sample Collection Tools

Sampling Scenarios

  • Turf
  • Leaves
  • Fruit
  • Wilt
  • Woody Plants

Final Assessment 


Personal Protective Equipment and Emergency Response

Course Description

PPE comprises the clothing and devices you wear to protect your body from contact with pesticides. Wearing PPE can reduce exposure (dermal, inhalation, ocular, or oral) and thereby lower the chances of pesticide injury, illness, or poisoning. It is important that all pesticide applicators and handlers understand the protections and limitations of PPE. Proper PPE selection, use, and care are essential.

Although pesticide accidents and emergencies are rare, they do occur. Pesticides spilled on the ground or burning in a fire can contaminate water, soil, and air; damage plants; injure livestock, wildlife, or pets; and endanger the health of the applicator and emergency responders. Pesticide spills and fires may lead to financial loss due to cleanup, liability claims, and fines assessed by government agencies. Do all that you can to prevent accidents, but be prepared in case of emergency.

After completing this course participants will be able to:

  • Identify where on the label to find the minimum clothing and personal protective equipment (PPE) required to handle a given pesticide product.
  • State the criteria to properly select skin, eye, and respiratory protection required by the pesticide label based upon your expected use and exposure.
  • Discuss how pesticide releases from spills and fires can endanger humans and the environment.
  • Explain how to execute an emergency response plan.

Personal Protective Equipment

Lesson 1

  • Personal Protective Equipment
  • Good Work Practices
  • Protect Yourself from Pesticides
  • Protect Your Body
  • Protect Your Eyes

Lesson 2 

  • Protect Your Respiratory System
  • Maintaining Clothing and Personal Protective Equipment

Emergency Response

Lesson 1 

  • Emergency Response Planning
  • Fires
  • Pesticide Spills

Final Assessment


Pollinator Stewardship

Course Description

Honey Bee Stewardship. The primary concern plaguing the bee keeping industry is the decline of honey bees around the world. Colony collapse disorder (CCD) is the leading cause behind this steady decline in honey bee numbers. There are a number of different factors affecting this decline. This course provides an outline of the best practices concerning honey bee stewardship.

Minimizing Pesticide Risk for Pollinators. Whether applying pesticides in the home garden or in a commercial setting, many of the chemical pesticides used to control insects, fungal disease, and even weeds can hurt non-target pollinating insects, such as bees and butterflies. This section will ensure your ability to affectively and efficiently apply pesticides without harming beneficial insects.

Participants in this course will be able to:

  • Gain an understanding of the factors that contribute to colony collapse disorder.
  • Recognize the importance of beekeeper/grower communication.
  • The importance of pollinators in agriculture and why protecting native pollinators is of great concern.
  • The federal and state enforcement and compliance procedure as related to pollinator safety and alternatives to hard chemicals.

Chapter 1 – Pollinator Stewardship 

The Problem: Colony Collapse Disorder

  • Varroa Mite
  • Viruses
  • Pesticide and Drift
  • Agrochemical Residues
  • Poor Nutrition
  • Honey Bee Protection
  • Benefits of Honey Bees

Mississippi Pollinator Stewardship Program

  • Stakeholders
  • The Best Protection
  • Farmer-Beekeeper Partners
  • “Bee Aware” Flag

Chapter 2 – Minimizing Pesticide Risk for Pollinators 

  • Federal and State Enforcement and Compliance
  • Alternatives to Hard Chemicals
  • Organic Approved Pesticides
  • Considerations When Applying Pesticides Near Beehives
  • Pesticide Toxicity Groups
  • Granular Bait Insecticide
  • Bait Stations, Phermone Lures, and Sticky Traps
  • Contact vs. Systemic Insecticides
  • Roadside Habitat Management

Final Assessment 


Pesticides in the Environment

Course Description

Applicators and the public share concerns about how pesticides may harm the environment. Initially, hazards to humans were the primary reason the U.S. Environmental Protection Agency (EPA) decided to classify a pesticide as a restricted-use product. Now, more and more pesticide labels list environmental effects (such as contamination of groundwater or toxicity to birds or aquatic organisms) as reasons for restriction. Anyone who uses a pesticide—indoors or outdoors, in a city or on a farm—must consider how that pesticide affects the environment.

After completing this course participants will be able to:

  • Describe how pesticide applications can affect the environment.
  • Explain how to prevent pesticide drift, runoff, and movement to nontarget areas.
  • Discuss how to prevent pesticide residue accumulation associated with mixing, loading, and equipment washing.

Lesson 1

  • The Environment
  • Pesticide Characteristics
  • How Pesticides Move in the Environment
  • Preventing Pesticide Drift

Lesson 2 

  • Sources of Water Contamination
  • Preventing Surface Water and Groundwater Contamination
  • Preventing Harmful Effects on Sensitive Areas and
  • Nontarget Organisms
  • Protecting Endangered Species

Final Assessment


Course instructors will be available by email or telephone between 9am and 5pm Eastern Standard Time. They will assist you with questions regarding course content.

If you have any questions, please call us at 1-800-727-7104 or send an email to info@onlinecti.com. Email responses will usually be returned promptly, but guaranteed within one business day.

Student policies and procedures are always available by going to our website and scrolling to the bottom of the page (See Attendance & Privacy Policy).

 
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Your preparation course for the Residential Contractor was great.
I passed the first time with no problems.
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