A multi-county Farm and Ranch Seminar for farmers and ranchers conducted by the Texas A&M AgriLife Extension Service in District 8 is scheduled December 8, 2022. The District 8 Farm and Ranch Seminar will be offered at numerous locations across Central Texas.

Private Applicators License holders must obtain 15 hours of CEUs every five years to renew/recertify their license; including two hours of Laws and Regulations, two hours of Integrated Pest Management (IPM), and any mix of these and General hours to equal the required 15 hours of CEUs. Licensed commercial and non-commercial applicators are required to recertify every year by obtaining five continuing education credits with one credit each from two of the following categories: laws and regulations, integrated pest management or drift minimization.

The December 9th seminar will provide participants with the opportunity to receive up to eight (8) CEUs. Of the eight (8) hours, three (3) hours will be in General, two (2) hours in IPM, two (2) hours in Laws and Regulations and one (1) hour in Drift.

Licensed commercial and non-commercial applicators will be able to obtain their required five hours within the first five hours of the program.

Program registration cost is $60.00. Persons interested in attending the virtual program on December 8th can register online at the link provided on the next page. If you would like to attend in person, contact the Extension office of the location you plan to attend. Phone numbers listed on next page.

To Register for Virtual Attendance, visit the following link:

https://www.eventbrite.com/e/district-8-farm-and-ranch-virtual-seminar-tickets-431239748697 Or call the Extension Office of the location you will be attending.

Participating Counties	RSVP Phone Number
Bell	254-933-5305
Bosque	254-435-2331
Comanche	325-356-2539
Coryell	254-865-2414
Ellis	972-825-5175
Erath	254-965-1460
Freestone	903-389-3436
Hill	254-582-4022
Johnson	817-556-6370
Limestone	254-729-5314
McLennan	254-757-5180
Navarro	903-654-3075
Robertson	979-828-4270
Williamson	512-943-3300

Also, on December 8^th there will be a 5 CEU program with live speakers that will be held at the Taylor County Extension Office in Abilene. A catered noon meal will be included. There will be an RSVP deadline. Anyone interested in this program should contact the Taylor County Extension Office at 325-672-6048.

The members of Texas A&M AgriLife will provide equal opportunities in programs and activities, education, and employment to all persons regardless of race, color, sex, religion, national origin, age, disability, genetic information, veteran status, sexual orientation or gender identity and will strive to achieve full and equal employment opportunity throughout Texas A&M AgriLife.

The Texas A&M University System, U.S. Department of Agriculture, and the County Commissioners Courts of Texas Cooperating.

Individuals with disabilities requiring an auxiliary aid or special accommodations in order to participate in this program are asked to contact the location you will be attending to determine how reasonable accommodations may be met

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KNOWN BALE WEIGHTS ARE CRITICAL THIS YEAR

As a hay industry, there are still a number of hay sales that occur “by the bale.” Yes, it’s easier, but if the sale is made without factoring in bale weight and moisture, there’s a good chance the buyer is paying either too much or not enough.

You’ve probably heard this issue reiterated many times over the years, but it’s a safe bet that you’ve never heard it when the price of hay is as high as current values.

For a large swath of the western U.S., drought was the dominating factor during the past growing season. Many livestock producers know they will be short on winter hay or will cut it pretty close. Accurate inventories will no doubt mean the difference between having enough hay or having hungry, low-performing cattle.

My point is that known, accurate bale weights have always been important, but they’ve never carried the degree of economic significance as this year. It’s true whether you’re selling or buying hay or feeding your own.

Reasons abound

There are a number of factors that can explain why two or more bales of equal size can have drastically different weights. These include:

• Bale density

• Bale moisture

• Time of sale

• Forage species (grass or legume)

• Forage maturity (percent leaves and stems)

• Model and age of the baler

It’s fairly intuitive that the size of a bale will impact bale weight, but what may be overlooked is the degree of change that occurs when a bale is only 1 foot wider or 1 foot greater in diameter. The latter accounts for the largest change.

A bale that is 4 feet wide by 5 feet in diameter (4×5) has 80% of the volume of a 5×5 bale (see table). However, a 5×4 bale has only 64% of the volume of a 5×5 bale. Those percentages also translate to differences in weight if all other factors are equal.

Bale density, which typically ranges from 9 to 12 pounds per cubic foot, also plays a rather large role in final bale weight. In a 5×5 bale, the difference between 10 and 11 pounds of dry matter per square foot amounts to over 100 pounds per bale at both the 10% and 15% moisture levels. Missing the weight of a bale by 10% amounts to some pretty significant dollars when multiple tons are being purchased.

Forage moisture also plays a role in bale weight but to a lesser degree than bale density unless bales are extremely dry or wet. Wrapped bales, for example, can vary in moisture from 30% to over 60%. When purchasing baleage, it is always recommended to either weigh the bales or have a rock-solid moisture test.

Time of purchase impacts bale weight in two ways. First, if you’re purchasing bales out of field, they are likely going to be at a higher moisture level and weight than they will be after being cured in storage. There is also a natural tendency for dry matter loss during storage that the buyer will incur if bales are purchased immediately after baling. As has been well documented by research, storage losses can range from below 5% to over 50%, depending on storage method.

Forage species can also come into play. Grass bales generally will weigh less than legume-based bales of similar size. This is because legumes such as alfalfa will make a denser bale than a grass species. In one Wisconsin study, the average weight of a 4×5 legume bale was 986 pounds. This compared to 846 pounds for grass bales of the same size.

Plant maturity impacts bale density and ultimately bale weight. Leaves generally pack better than stems, so as plants mature and develop a higher percentage of stems to leaves, bales generally become less dense and weigh less.

Finally, there are many models of balers of differing ages. This variation, coupled with operator experience, lends further variability into the bale density and weight discussion. Newer machines are able to make a much denser bale than most older ones.

Given the number of variables that determine the actual bale weight, buying and selling large round bales based on a weight guess is likely going to result in a transaction that is either above or below the already high market values of today. This can be extremely expensive for the buyer or seller, especially when a large number of tons are purchased over a period of time.

Weighing round bales might not be as convenient as not weighing them, but there are very few situations where a bale weight isn’t attainable. Take the time to weigh bales (all or a few), regardless of size or shape, whenever a transaction is made. Also, don’t guess when making inventory estimates of your own hay. That, too, could be an expensive error come next spring.

Purchasing hay by the ton and weighing the hay is best rather than by the bale and guessing weights.