In this podcast, we review the latest U.S. Drought Monitor update for July 10th, 2025. We’ll break down current drought conditions across the country, highlight the hardest-hit regions, and discuss any major changes from last week. Whether you're a farmer, rancher, water manager, or just keeping an eye on the weather, this update provides essential insights into ongoing drought trends and what they mean for agriculture and water resources. Don’t forget to like, comment, and subscribe for future drought updates!

Big news for farmers, irrigators, and ag business owners. In this episode of the AG Irrigation Collective, we break down what this tax break means for your operation, how it impacts equipment purchases, and why now might be the right time to invest in your business.

We cover:

What bonus depreciation is and how it works

The implications of the 2025 extension for ag and irrigation industries

How to take advantage of the tax savings

Real-world examples from the field

Strategic tips for maximizing your return

Whether you're looking to upgrade your pivot systems, invest in new tractors, or streamline your irrigation setup—this episode is for you.

Subscribe to stay up to date on the latest policy changes, ag finance insights, and irrigation innovation.

#Agriculture #Irrigation #BonusDepreciation #AgFinance #TaxTips #FarmBusiness #AGIrrigationCollective

Welcome to our latest video, where we walk you through the complete process of starting up a wheel line irrigation system for the spring season. If you’re a farmer, rancher, or landowner looking to get your irrigation system up and running efficiently after winter, this video is for you!

A properly functioning wheel line irrigation system is crucial for ensuring even water distribution to your fields. After months of winter dormancy, it's important to go through the necessary steps to check for damage, make repairs, and get your system operational. In this video, we’ll cover everything you need to know to get your wheel line irrigation system started for the season, including:

What You’ll Learn in This Video:

✅ Inspecting the System for Damage: We’ll show you how to examine pipes, wheels, couplings, and other components for cracks, leaks, or rust damage caused by harsh winter conditions. ✅ Checking and Repairing Sprinklers & Nozzles: Learn how to ensure even water distribution by inspecting, cleaning, and replacing nozzles as needed. ✅ Assessing and Fixing the Drive System: The drive system plays a key role in moving your wheel line. We’ll demonstrate how to check for wear, lubricate components, and address any mechanical issues. ✅ Flushing the Pipes: Clearing out any debris, dirt, or blockages that might have accumulated during the off-season. ✅ Pressurizing the System: A step-by-step process for slowly introducing water into the pipes, checking for leaks, and ensuring everything is functioning properly. ✅ Setting Up the First Watering Rotation: Understanding how to set an efficient irrigation schedule to maximize water usage and crop health. ✅ Preventative Maintenance Tips: Proactive measures to keep your wheel line running smoothly throughout the growing season.

Why Proper Spring Start-Up Matters

Getting your wheel line irrigation system up and running correctly in the spring is essential for maximizing efficiency and minimizing water waste. A well-maintained system leads to better crop yields, healthier soil, and reduced water and energy costs. Skipping crucial start-up steps can lead to breakdowns, uneven watering, and unnecessary expenses.

Tools & Equipment Needed:

Wrenches and basic hand tools

Replacement gaskets and fittings

Lubricants for drive components

Pressure gauge

Cleaning brushes for sprinkler nozzles

Water source access

Safety gear (gloves, eye protection, boots)

Common Issues & Troubleshooting Tips:

❌ Low Water Pressure? Check for clogged nozzles, leaks in the mainline, or insufficient water supply. ❌ Uneven Water Distribution? Ensure all sprinklers are working correctly and that the wheel line is level. ❌ Wheels Not Moving? Inspect the drive system, chains, and motors for mechanical failures. ❌ Leaking Couplings? Replace worn-out gaskets and ensure all connections are properly secured.

Who Can Benefit From This Video?

This guide is perfect for:

Farmers and ranchers managing crop irrigation

Homesteaders with pastureland

New farmworkers learning about irrigation maintenance

Agriculture students and enthusiasts looking to expand their knowledge

Stay Connected!

If you found this video helpful, don’t forget to LIKE, COMMENT, and SUBSCRIBE to our channel for more farming and irrigation tips! Let us know in the comments if you have any questions or if you’d like us to cover other irrigation-related topics in the future.

Drought Conditions in the U.S.: Causes, Impacts, and Future Outlook

Introduction

Drought is one of the most persistent and devastating natural disasters affecting the United States. Unlike hurricanes or tornadoes, which have immediate and highly visible impacts, drought develops over time, gradually reducing water availability and creating widespread consequences for agriculture, ecosystems, and communities. In this video, we take a deep dive into the current drought conditions in the U.S., exploring what causes droughts, how they impact different regions, and what the future holds as climate change intensifies water scarcity.

What Is a Drought?

A drought is a prolonged period of below-average precipitation that leads to water shortages in soil, rivers, lakes, and groundwater reserves. Unlike other weather events, droughts don’t have a clear start or end and can last for months or even years. The severity of a drought is often measured using the U.S. Drought Monitor, which classifies drought intensity from D0 (abnormally dry) to D4 (exceptional drought).

Types of Droughts

Droughts can be classified into several types, each affecting different aspects of the environment and society:

Meteorological Drought: Occurs when an area receives significantly less rainfall than normal.

Agricultural Drought: Results from insufficient soil moisture, affecting crop growth and livestock.

Hydrological Drought: Happens when lakes, rivers, and groundwater levels decline due to prolonged dry conditions.

Socioeconomic Drought: Impacts industries and communities, leading to water restrictions, economic losses, and food shortages.

droughtmonitor.unl.edu

Welcome to our comprehensive guide on wheel line irrigation, also known as side roll irrigation—a vital tool for modern agriculture. In this video, we dive deep into the workings, benefits, and challenges of using wheel lines to efficiently irrigate large agricultural fields. Whether you're a farmer, an agricultural student, or simply curious about innovative farming techniques, this video is packed with valuable insights and practical tips. From understanding the mechanics of side roll irrigation to maximizing water efficiency, we’ve got everything you need to make informed decisions about farm irrigation systems. --- What You'll Learn in This Video: 1. What Is Wheel Line Irrigation? We start by explaining what wheel line or side roll irrigation is. A wheel line system consists of a series of large wheels attached to an aluminum pipe that serves as both the irrigation line and the axis for movement. These systems are ideal for rectangular or long fields and are commonly used to irrigate crops like alfalfa, grains, and other forage plants. Key Features: Portability, efficiency, and coverage. Ideal Uses: Best for level terrain with consistent water requirements. --- 2. How Does Wheel Line Irrigation Work? We break down the components of a wheel line irrigation system: Wheels and Axle: The defining feature that allows easy repositioning across fields. Irrigation Pipe: Distributes water uniformly through connected sprinkler heads. Sprinkler Heads: Typically spaced evenly along the pipe for maximum coverage. Drive System: Often powered manually, with a gasoline engine or electric motor enabling movement across fields. --- 3. Benefits of Using Side Roll Irrigation Why are wheel lines so popular in modern agriculture? Here are some key advantages: Uniform Water Distribution: Sprinklers ensure even coverage across the field. Efficiency in Water Use: Helps conserve water compared to flood irrigation. Portability: The system is easy to move, allowing farmers to irrigate different zones. Cost-Effective: A relatively low upfront investment compared to more complex systems like center pivots. Simplicity: Easy to operate and maintain. --- 4. Challenges and Limitations While wheel line irrigation is effective, it isn’t without its challenges. We cover: Terrain Requirements: Best suited for flat or gently sloping land; struggles on steep or irregular fields. Labor Intensive: Requires manual repositioning, which can be time-consuming. Wind Sensitivity: Sprinkler efficiency may decrease in windy conditions. Maintenance Needs: Moving parts like wheels, couplings, and pipes require regular upkeep to avoid breakdowns. --- 5. How to Install and Operate a Wheel Line System Step-by-step guidance for setting up and operating your side roll irrigation system: Initial Setup: Positioning the system in the field and connecting to the water source. Sprinkler Placement: Ensuring proper spacing for even water application. Movement: Tips on safely and efficiently rolling the system to the next zone. Timing and Scheduling: Best practices for watering cycles to maximize crop growth while conserving water. --- 6. Maintenance Tips for Longevity Proper care is essential for maximizing the lifespan of your irrigation system. In this section, we discuss: Checking for leaks in pipes and sprinkler heads. Lubricating moving parts, such as wheel axles. Replacing worn-out components like couplers and gaskets. Winterizing your system to prevent damage from freezing temperatures. --- 7. Comparing Wheel Line Irrigation to Other Systems We also compare side roll irrigation to other popular methods, such as: Center Pivot Irrigation: Ideal for large, circular fields but more expensive. Drip Irrigation: Extremely water-efficient but less suitable for broad-acre crops. Flood Irrigation: Simple and traditional but wastes more water.

Unlock the Secrets of Efficient Farming with Sub-Surface Drip Irrigation

Sub-surface drip irrigation (SDI) is revolutionizing the way farmers manage water resources, ensuring higher crop yields while conserving water and reducing costs. In this video, we take an in-depth look at how SDI systems work, their benefits, and how they’re transforming agricultural practices around the world.

Unlike traditional irrigation methods that often result in water loss due to evaporation and runoff, SDI delivers water directly to the root zone of plants through a network of buried drip lines. This precise water delivery system maximizes efficiency, minimizes waste, and ensures plants receive the exact amount of water they need to thrive.

What You’ll Learn in This Video:

What is Sub-Surface Drip Irrigation? We break down the components of an SDI system, including drip lines, emitters, and filtration units.

Benefits of SDI: Discover how SDI saves water, reduces soil erosion, and improves crop uniformity while also decreasing weed growth and nutrient leaching.

Installation and Maintenance: Learn the steps involved in setting up an SDI system and tips for keeping it running smoothly season after season.

Real-Life Applications: Hear success stories from farmers who have adopted SDI, from small-scale vegetable growers to large-scale operations producing corn, cotton, and other water-intensive crops.

Whether you’re a farmer looking to modernize your irrigation practices, a student studying agricultural technology, or simply someone interested in sustainable farming solutions, this video has something for you.

Why Choose Sub-Surface Drip Irrigation?

In the face of growing global water scarcity, SDI offers a practical solution that aligns with sustainable farming goals. By reducing water usage by up to 50% compared to conventional methods, SDI not only supports the environment but also helps farmers increase profitability and long-term productivity.

Subscribe for More Content

If you found this video helpful, don’t forget to like, comment, and subscribe to our channel for more in-depth guides on innovative agricultural practices. Together, we can pave the way for a greener, more efficient future in farming.

Links and Resources:

https://www.google.com/url?sa=t&source=web&rct=j&opi=89978449&url=https://extensionpublications.unl.edu/assets/pdf/ec776.pdf&ved=2ahUKEwifjuKFl8KKAxXWJEQIHXemCnIQFnoECBYQAQ&usg=AOvVaw05foaptKP4hcj9nUsZU78g

Watch now and take the first step toward smarter farming!

On today's episode we discuss NRCS code 372; combustion system improvement and what you might utilize it for in your farming operations.

https://www.nrcs.usda.gov/resources/guides-and-instructions/combustion-system-improvement-no-372-conservation-practice

In this episode, we talk about different weather patterns and their effects on the AG and crop growing climate. Referencing an article from hydrorain.com blog post by Richard Restuccia.