fbpx
Sign up now!
Don't show this again

Thank you for confirming your subscription!

(And remember, if ever you want to change your email preferences or unsubscribe, just click on the links at the bottom of any email.)
Tap to download the app
X
Share
X

REPORTS

Collect articles and features into your own report to read later, print or share with others

Create a New Report

Favorites

Read Later

Create a new report

Report title (required) Brief description (optional)
CREATE
X
NEXT
POULTRY PORK
follow us


You must be logged in to edit your profile.

Favorites Read Later My Reports PHT Special Reports
Poultry Health Today is equipped with some amazing (and free) tools for organizing and sharing content, as well as creating your own magazines and special reports. To access them, please register today.
Sponsored by Zoetis

Sponsored By Zoetis

.

Windrowing litter can reduce pressure from poultry viruses, insects and bacteria

Poultry producers looking to improve litter quality and flock health should consider windrowing — a practice that not only works to control ammonia in the reconditioned litter but also reduces pathogen and insect pressure.

Windrowing involves raking or rolling the litter into even rows. The moisture present in the rows increases litter temperature, which releases ammonia while reducing pathogens including bacteria, viruses and pests.

Producers interested in windrowing should begin incorporating it into their litter-management program during moderate or warm weather, according to Casey Ritz, PhD, poultry-waste management, University of Georgia.

“There’s a bit of a learning curve with the process,” he said in a WattAgNet webinar.

Ammonia levels will likely increase following the windrowing process, requiring the use of a litter treatment. The intense heat generated by windrowing inhibits microbial and viral growth while allowing the floor to dry between rows of piled litter. The windrow also traps insects, which can make insecticide treatments more effective.

WATTAgnet_globeTips for success

It is critical for windrowed litter to reach a temperature of at least 130° F (54° C) for 3 to 4 days to effectively reduce pathogen levels, the specialist said.

Ritz also stressed that the windrow process requires 12 to14 days of downtime between flocks. “We need time to heat the windrows, treat litter for ammonia and pests, and then level the material allowing it to cool and dry before the next chick placement.”

He shared these 10 additional tips for effective windrowing:

  • Schedule a minimum of 12 to 14 days of downtime between flocks
  • Start with a litter depth of 3 to 6 inches
  • Form windrows within 2 days after bird catch
  • Maintain a temperature in windrow of 130° F or higher for 3 to 4 days to ensure that pathogens are killed
  • Turn windrows every 3 to 4 days (2 to 3 turns is optimal)
  • Shift entire windrow when turning to allow the floors to dry
  • Level material at least 4 days before chick placement to decrease litter temperature, litter moisture and ammonia levels
  • Apply litter amendment to control release of ammonia
  • Utilize moderate weather conditions primarily in spring, summer, fall
  • Ventilate during windrow process to decrease ammonia levels

 

“Windrowing is not for everyone,” Ritz insisted, “but it can provide economic benefits to many average and below-average producing flocks through improved feed conversion and weight gain and reduced mortality.”

Poultry producers need to evaluate the time, equipment and labor costs associated with windrowing before committing to the system.

Litter amendments

Litter amendments play a crucial role in controlling ammonia. Amendments that decrease litter pH increase ammonia suppression.

The first step in reconditioning litter is de-caking or removing wet material primarily below drinkers.  Amendments are then applied on top of the litter. “These amendments create unfavorable conditions for the bacteria and enzymes that contribute to ammonia formation and production,” Ritz said.

Litter amendments form a pH barrier on top of the litter preventing or slowing the formation of ammonia (NH3+). Acidifiers are most commonly used, binding the volatile ammonia (NH3+) with an acid to form the nonvolatile ammonium salt (NH4+).

 

Full presentation




Posted on February 5, 2017

tags: , , , , ,
RELATED NEWS



You must be logged in to edit your profile.

Google Translate is provided on this website as a reference tool. However, Poultry Health Today and its sponsor and affiliates do not guarantee in any way the accuracy of the translated content and are not responsible for any event resulting from the use of the translation provided by Google. By choosing a language other than English from the Google Translate menu, the user agrees to withhold all liability and/or damage that may occur to the user by depending on or using the translation by Google.