Dec. 3, 2021
Poultry science researchers fine tune chicken sprinkler technology
By John Lovett
U of A System Division of Agriculture
@ArkAgResearch
Fast facts
- Poultry litter not affected by direct-cooling sprinklers in chicken houses
- Three-year study showed sprinklers cool chickens with an average of 67 percent less water
- Feed conversion ratio can be slightly better with sprinkler technology
(1,419 words)
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FAYETTEVILLE, Ark. — It may sound counterintuitive, but chickens can stay cooler in hotter environments if it is a dry heat. They just need a little spritz of water every now and then, and a breeze to create a windchill effect.
With water conservation in mind, researchers at the Arkansas Agricultural Experiment Station continued decades of research in 2021 to fine tune a method of direct-cooling chickens with low-pressure sprinklers in tandem with traditional cool-cell pad systems and ventilation fans.
“The 2021 trial aimed to determine the effect of sprinkler technology in combination with cool-cell systems on achieving broiler performance during hot weather,” said Yi Liang, associate professor of biological and agricultural engineering and faculty with the Center of Excellence for Poultry Science within the University of Arkansas System Division of Agriculture.
Water is a crucial component for poultry production, not only for bird consumption but also to alleviate heat stress in tunnel-ventilated broiler houses. As experiment station poultry science professor Sami Dridi said in a 2020 Frontiers in Veterinary Science report, sprinkler technology improves broiler production sustainability and provides significant water savings.
However, a major hang-up about sprinkler adoption has been a “misconception” that chicken sprinklers make the poultry litter too wet to sell as fertilizer. But researchers have seen the opposite.
Studies conducted over three years between 2009 and 2011 found that the average litter moisture content in houses using sprinklers with tunnel ventilation was 34 percent — 2 percent lower than the average moisture content of litter from chicken houses with cool-cell pad systems and tunnel ventilation.
Chicken growers in Arkansas need chicken litter to remain as dry as possible so it can be sold in neighboring states that are not considered “nutrient surplus areas.”
Poultry production in Arkansas generates about 1.3 million metric tons of litter a year, most of it being concentrated in the northwest region of the state, according to the Center for Agricultural and Rural Sustainability (CARS). Shipment of poultry litter to neighboring states for use on farms has helped mitigate the surplus phosphorus from Northwest Arkansas watersheds.
Sprinkler systems work by intermittently spraying a small amount of water directly on the birds to produce a windchill effect when ventilation fans pull air through the building, Liang said. The sprinklers are not turned on until the birds reach a certain weight and take up more space. This keeps most of the water from the sprinklers off the ground.
The challenging part of the adoption is the awareness of two things by growers, Liang said. There is “a misconception that sprinkling water into the house will wet the litter,” she said. A humid environment created by cool-cell pads does not allow the birds to cool themselves as efficiently, she added.
Broiler houses stay slightly hotter and drier when operated with chicken sprinklers compared to cool-cell pad houses, Liang said. The humidity produced by cool-cell pads can saturate the air with relative humidity greater than 70 percent, which is counterproductive to birds cooling themselves by breathing, she explained.
Water conservation
Water conservation and better feed conversion ratios were found to be the primary benefits of the sprinkler systems in chicken houses in both the 2009-2011 and 2021 studies. The research showed that sprinklers make chickens get up and move around more. Sprinklers help the birds release body heat and encourage visits to the feeders, said Tom Tabler, poultry extension professor at Mississippi State University and a collaborator with Liang on the 2021 study.
Throughout three summers and five flocks raised between 2009-2011 at the Applied Broiler Research Unit at the Savoy Research Complex in Northwest Arkansas, sprinkler cooling systems used on average 67 percent less cooling water than the cool-cell pad systems. Liang noted that the percentage of water savings ranged from 50 percent to 80-plus percent based on the weather, the program of the cool-cell pad system and the age of chickens to be marketed.
Cool-cell pad systems and associated equipment use a significant amount of water, Liang noted. Hourly water use by cool-cell pads in a 40-by-400-foot broiler house ranges from 100 to 280 gallons per hour as the ambient temperature rises from 85 to 98 degrees on a typical summer day in the South, experiment station studies show. Cooling is needed mostly for summer flocks marketed from May to October in the U.S., Liang added.
Tabler and Liang co-authored a study on chicken sprinklers in 2012 based on the 2009-2011, five-flock, three-summer study. The results were published as a peer-reviewed article in 2014 by the American Society of Agricultural and Biological Engineers.
Proper use of sprinklers
Studies by the Division of Agriculture have been conducted on chicken sprinklers since 1995. In 2021, Liang and Tabler further investigated the water conservation aspect of chicken sprinklers as part of a National Institute of Food and Agriculture (NIFA) grant awarded in 2019. The $9.95 million grant is directed by Walter Bottje, an experiment station poultry science physiologist, and co-directed by Dridi.
The 2021 study took place in the spring and summer of 2021 at two commercial broiler houses at the Savoy Research Complex’s Applied Broiler Research Unit. Each house in the 2021 study was equipped with two lines of commercial sprinklers as well as the conventional evaporative cool-cell pads and tunnel ventilation. The key management issue of cooling in hot weather is to properly position the cool-cell temperature set points so that sprinklers handle cooling the birds before the house temperature approaches 90 degrees, Liang writes.
The set point of a cool-cell pad system should be about 21 degrees above the house set point to allow sprinkler activation under a drier thermal condition, Liang added in her report. Positioning the temperature set-points of the cooling-pads 21 degrees above the house temperature set points allowed the sprinkler system to operate for 26 out of the 33 days. Cooling-pads were operated for 15 of the 26 days with short wetting cycles, when ambient temperature was mostly above 90 degrees, Liang's report stated.
“Water conservation is a major emphasis for the poultry industry today as it strives to become more sustainable and lessen its carbon footprint,” Tabler said. “Climate change and heat stress are challenges to these sustainability efforts.
“Cool-cell systems, while effective, require large amounts of water and reduce the bird’s ability to cool itself through respiratory evaporation. However, sprinkler systems offer cooling water conservation of over 50 percent compared to a cool-cell system while maintaining production performance without sacrificing flock performance,” Tabler said.
Dridi noted in a 2017 article at PubMed.gov that surface wetting by sprinklers prevents heat stress from increasing body temperature and plasma corticosterone levels. At molecular levels, Dridi explains, "surface wetting blocks the activation of hypothalamic heat shock protein and adenosine monophosphate-activated protein induced by heat stress."
“Taken together, our data represent the first evidence that surface wetting alleviates systemic and intracellular stress induced by heat stress and preserves the intracellular energy status, which, in turn, may result in improved broiler well-being and growth performance,” Dridi wrote.
Feed conversion
In the 2009-2011 studies, the feed conversion ratio was found to be slightly improved in the sprinkler houses: 1.86 in sprinkler system houses versus 1.92 in cool-cell system houses. The feed conversion ratio is the ratio of chicken feed mass to chicken weight gain. Lower feed conversion ratios are desirable because less feed is needed for comparable weight-gain in birds.
The same study showed no significant difference in core body temperature in birds raised with sprinklers and cool-cell pad systems. That study also showed daily mortality and bird market weights in the sprinkler and cool-cell houses were not significantly different.
In the 2021 study, which focused on fine-tuning a sprinkler house system in tandem with cool-cell pads and tunnel ventilation, the feed conversion rate was 1.78 in the spring flock and 1.83 in the summer flock. Live market weights between the spring and summer flocks were comparable in the 2021 study with 9.24 pounds at 55 days in the spring flock and 9.37 pounds at 57 days in the summer flock.
Grant support
A focus of this supporting NIFA grant, titled “Empowering US Broiler Production for Transformation and Sustainability,” is on improving water use efficiency either at the bird level or by the housing systems. Funds from the grant help further optimize the sprinkler systems for broiler production, Bottje said.
This research was also funded in part by Weeden Environments of Woodstock, Ontario, Canada.
To learn more about Division of Agriculture research, visit the Arkansas Agricultural Experiment Station website: https://aaes.uada.edu/. Follow us on Twitter at @ArkAgResearch and Instagram at @ArkAgResearch.
About the Division of Agriculture
The University of Arkansas System Division of Agriculture’s mission is to strengthen agriculture, communities, and families by connecting trusted research to the adoption of best practices. Through the Agricultural Experiment Station and the Cooperative Extension Service, the Division of Agriculture conducts research and extension work within the nation’s historic land grant education system.
The Division of Agriculture is one of 20 entities within the University of Arkansas System. It has offices in all 75 counties in Arkansas and faculty on five system campuses.
The University of Arkansas System Division of Agriculture offers all its Extension and Research programs and services without regard to race, color, sex, gender identity, sexual orientation, national origin, religion, age, disability, marital or veteran status, genetic information, or any other legally protected status, and is an Affirmative Action/Equal Opportunity Employer.
Media Contact: John Lovett
U of A System Division of Agriculture
Arkansas Agricultural Experiment Station
(479) 763-5929
jlovett@uada.edu