Understanding Wet Hay

By: Glenn Selk, Oklahoma State University Emeritus Extension Animal Scientist. Previously published by Drovers online.

Frequent spring rains around the country have allowed cool season forages to grow in abundance. Even when the fields and meadows dry enough to cut standing forages, harvesting and baling cool season crops such as fescue and wheat hay can be a challenge during a wet spring. The timing of the rains can make it difficult for producers that are trying hard to put quality hay in the bale for next winter’s feed supply. All producers that harvest hay occasionally will put up hay that “gets wet” from time to time. Therefore, ranchers and hay farmers need to understand the impact of “wet hay” in the tightly wound bales.

Extra moisture in hay can cause heat inside the hay bale or hay stack. Heat produced by the bale comes from two sources: First) biochemical reactions from plants themselves as hay cures. (This heating is minor and rarely causes the hay temperature to exceed 110 degrees F. Very little if any damage occurs if the hay never exceeds 110 F.); Second) Most heat in hay is caused by the metabolic activity of microorganisms. They exist in all hay and thrive when extra moisture is abundant. When the activity of these microbes increases, hay temperature rises. Hay with a little extra moisture may not exceed 120 degrees F., whereas, wetter hay can quickly exceed 150 degrees. If the hay rises above 170 degrees, chemical reactions can begin to occur that produce enough heat to quickly raise the temperature above 400 degrees and the wet hay can begin to burn and cause fires. Be wary of the fire danger of wet hay and store it away from buildings and other “good” hay just in case this would occur.

Below is a table with moisture guidelines at time of baling.  (Adapted from “Preventing hay fires” Martinson, University of Minnesota)

Moisture ranges (%) Comments
Less than 10 Too dry.  Hay may be brittle and dusty
10 – 15 Recommended moisture range.  Minimal risk of fire
16 – 20 Could mold.  Slight risk of fire hazard
21 -25 Will likely mold.  Moderate risk of fire hazard
Greater than 25 Severe heat damage likely.  High risk of fire hazard

Several commercially produced hay temperature probes are available.  Also, homemade probes can be constructed and will help monitor the heating in the hay bales.  Information from the University of Kentucky (Overhults) discusses both commercial and homemade probes.  Go the website: https://uknowledge.uky.edu/cgi/viewcontent.cgi?article=1115&context=ky_alfalfa

Heat damage causes hay to be less digestible, especially the protein. Heat damaged hay often turns a brownish color and has a caramel odor. Cattle often readily eat this hay, but because of the heat damage, its nutritional value might be quite low. Some ranchers have reported that “the cows ate the hay like there was no tomorrow, but they did very poorly on the hay”.

Testing wet hay may be very important.  Determining the internal temperature of large bales or stacks of hay should be done carefully.  Make certain that checking the temperature in suspicious hay is done safely.  Read the E-Extension Fact Sheet “Preventing Fires in Baled Hay and Straw”  (http://www.extension.org/pages/66577/preventing-fires-in-baled-hay-and-straw#.VV-WALco7L8).

Testing the protein and energy content of stored wet hay will allow for more appropriate supplementation next winter when that hay is fed. Moldy hay could be a source of mycotoxins that could present several health problems for cattle. Many animal disease diagnostic laboratories can examine feedstuffs for mycotoxins or can recommend laboratories that do such testing.

 

Leave a Reply

Your email address will not be published. Required fields are marked *