Experiments were conducted to investigate the influences of type of litter, initial moisture content (IMC) of litter, and dry weight ratio of manure to litter (DWRML) on ammonia emissions from chicken manure and the effects of pH values of tea leaves and the mixtures of tea leaves and other litter on the ammonia emissions from chicken manure. For the experiments, four kinds of litter, Northeast pine sawdust (sawdust), rice husk, tea leaves, and wheat straw, were selected. The IMCs of the litter were (20±2)%, (30±2)%, and (40±2)%; and the DWRML values were 1:4, 1:6 and 1:8, respectively. The different litters adjusted at different moisture contents were mixed with chicken manure in different DWRML and then placed in different static test chambers, which were real-time monitored the ammonia concentrations. Pure chicken manure without any litter was used as a control group. The four kinds of litter had obvious inhibitory effects on the ammonia emissions from chicken manure under various conditions. There were significant differences among four kinds of litter (p < 0.01). Under the same conditions, the best inhibitory effect was achieved by using tea leaves, followed by straw, rice husk, and sawdust. The IMC of litter had no significant effects on the ammonia inhibition (p > 0.05). The DWRML had no significant effects on ammonia emission inhibition for tea leaves (p > 0.05), but had a significant effects on the ammonia emission inhibition for the other three kinds of litter (p < 0.05). The pH value of tea leaves had no significant effects on the inhibition of ammonia emissions (p > 0.05). The mixed litter made of tea leaves and sawdust, rice husk, or straw were significantly better than the tea leaves and other single litter (p < 0.01). It indicated that adding appropriate amount of tea leaves in the litter can effectively inhibit ammonia emissions from chicken manure.
Keywords: litter, moisture content, dry weight ratio of manure to litter, chicken manure, inhibitory effect, ammonia emission
DOI: 10.25165/j.ijabe.20191204.5011

Citation: Tan H Q, Li M, Jie D F, Zhou Y F, Li X A. Effects of different litters on ammonia emissions from chicken manure. Int J Agric & Biol Eng, 2019; 12(4): 27–33.

litter, moisture content, dry weight ratio of manure to litter, chicken manure, inhibitory effect, ammonia emission

Miles D M, Branton S L, Lott B D. Atmospheric ammonia is detrimental to the performance of modern commercial broilers. Poultry Science, 2004; 83(10): 1650–1654.

Beker A, Vanhooser S L, Swartzlander J H, Teeter R G. Atmospheric ammonia concentration effects on broiler growth and performance. The Journal of Applied Poultry Research, 2004; 13(1): 5–9.

Lott B. Ocular responses of ammonia in broiler chickens. AVIANDISEASES, 2006; 50: 45–49.

Hutchings N J, Sommer S G, Andersen J M, Asman W A H. A detailed ammonia emission inventory for Denmark. Atmospheric Environment, 2001; 35(11): 1959–1968.

Webb J, Menzi H, Pain B F, Misselbrook T H, Dämmgen U, Hengriks H, et al. Managing ammonia emissions from livestock production in Europe. Environmental Pollution, 2005; 135(3): 309–406.

Erisman J W, Bleeker A, Hensen A, Vermeulen A. Agricultural air quality in Europe and the future perspectives. Atmospheric Environment, 2008, 42(14): 3209–3217.

Torok V A, Hughes R J, Ophel-Keller K, Ali M, MacAlpine R. Influence of different litter materials on cecal microbiota colonization in broiler chickens. Poultry Science, 2009; 88(12): 2474–2481.

Chamblee T N, Yeatman J B. Evaluation of rice hull ash as broiler litter. The Journal of Applied Poultry Research, 2003; 12(4): 424–427.

Brake J D, Boyle C R, Chamblee T N, Schultz C D, Peebles E D. Evaluation of the chemical and physical properties of hardwood bark used as a broiler litter material. Poultry Science, 1992; 71(3): 467–472.

Nicholson F A, Chambers B J, Walker A W. Ammonia emissions from broiler litter and laying hen manure management systems. Biosystems Engineering, 2004; 89(2): 175–185.

Garcia R G, Almeida P I, Caldara F R, Nääs I A, Pereira F D, Freitas L W, et al. Effect of the litter material on drinking water quality in broiler production. Revista Brasileira De Ciência Avícola, 2010; 12(3): 165–169.

S³obodzian-Ksenicz O, Houszka H, Michalski A. Effect of addition of brown coal and microbe vaccine to litter on bedding quality and production results in turkey farming. Animal Science Papers & Reports, 2008; 26(4): 317–329.

Liu X L, Zhang Y, Yan P P, Jing Q C, Wei X F, Liu R T, et al. Effects of different padding on air quality in broiler house and growth physiological index of broilers. Agricultural Science & Technology, 2015; 16(12): 2764–2769.

Kai P, Pedersen P, Jensen J E, Hansen M N, Sommer S G. A whole-farm assessment of the efficacy of slurry acidification in reducing ammonia emissions. European Journal of Agronomy, 2008; 28(2): 148–154.

Dewes T. Effect of pH, temperature, amount of litter and storage density on ammonia emissions from stable manure. The Journal of Agricultural Science, 1996; 127(4): 9.

Zhang Z, Zhu J. Effectiveness of short-term aeration in treating swine finishing manure to reduce odour generation potential. Agriculture Ecosystems & Environment, 2005; 105(1): 115–125.

Wang K, Huang D, Ying H, Luo H. Effects of acidification during storage on emissions of methane, ammonia, and hydrogen sulfide from digested pig slurry. Biosystems Engineering, 2014; 122: 23–30.

Nicholson F A, Chambers B J, Walker A W. Ammonia emissions from broiler litter and laying hen manure management systems. Biosystems Engineering, 2004; 89(2): 175–185.

Liu Z F, Wang L J, Beasley D, Oviedo E. Effect of moisture content on ammonia emissions from broiler litter: A laboratory study. Journal of Atmospheric Chemistry, 2007; 58(1): 41–53.

Coufal C D, Chavez C, Niemeyer P R, Carey J B. Nitrogen emissions from broilers measured by mass balance over eighteen consecutive flocks. Poultry Science, 2006; 85(3): 384–391.

Lang X H. The experimental study on applying tea extract to deodorization in sewage treatment plant. Kunming: Kunming University of Science & Technology, 2007. (in Chinese)

Atapattu N S B M, Senaratna D, Belpagodagamage U D. Comparison of ammonia emission rates from three types of broiler litters. Poultry Science, 2008; 87(12): 2436.

Takahashi T, Aso Y, Kasai W, Kondo T. Synergetic deodorant effect and antibacterial activity of composite paper containing waste tea leaves. Journal of Wood Science, 2011; 57(4): 308–316.

Patil C S, Gunjal D B, Naik V M, Harale N S, Jagadale S D, Kadam A N, et al. Waste tea residue as a low-cost adsorbent for removal of hydralazine hydrochloride pharmaceutical pollutant from aqueous media: An environmental remediation. Journal of Cleaner Production, 2019; 206: 407–418.

Institute of Agricultural Environment and Sustainable Development, Chinese Academy of Agricultural Sciences, Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection. The first national survey of pollution sources - Handbook of source and discharge factors for livestock and poultry farming. 2009. (in Chinese)

Monira K N, Islam M A, Alam M J, Wahid M A. Effect of litter materials on broiler performance and evaluation of manureal value of used litter in late autumn. Litter Materials on Broiler Performance, 2003; 16(4): 555–557.

Dan S, Jiao H E, Qiang W, Chang L L, Shi S R, Bu Z, et al. Effects of litter thickness on production performance, immune organ indexes, serum biochemical parameters and welfare quality of yellow-feathered broilers. Chinese Journal of Animal Nutrition, 2014; 26(8): 2357–2364.

Elwinger K, Svensson L. Effect of dietary protein content, litter and drinker type on ammonia emission from broiler houses. Journal of Agricultural Engineering Research, 1996; 64(3): 197–208.

Dai N, Zeng T, Mitch W A. Predicting N-Nitrosamines: N -nitrosodiethanolamine as a significant component of total N-nitrosamines in recycled wastewater. Environ. Sci. Technol. Lett, 2015; 2(3): 54–58.

Chen J L, Xie W X, Cui Y Q, Zhang Y. Research on the determination of total nitrogen and total phosphorus in soil using SmartChem140 automatic chemical analyzer. Journal of Analytical Science, 2016; 32(1) 84–88. (in Chinese)

Bessei W. Welfare of broilers: a review. World's Poultry Science Journal, 2006; 62(3): 455–466.

Liang W, Classen J J, Shah S B, Sharma-Shivappa R. Ammonia fate and transport mechanisms in broiler litter. Water Air & Soil Pollution, 2014; 225(1): 1812.

Eriksson de Rezende C L, Mallinson E T, Tablante N L, Morales R, Park A, Carr L E, et al. Effect of dry litter and airflow in reducing salmonella and escherichia coli populations in the broiler production environment. Journal of Applied Poultry Research, 2001; 10(3): 245–251.

Carey J B, Lacey R E, Mukhtar S. A review of literature concerning odors, ammonia, and dust from broiler production facilities: 2. flock and house management factors. Journal of Applied Poultry Research, 2004; 13(3): 509–513.

Misselbrook T H, Powell J M. Influence of bedding material on ammonia emissions from cattle excreta. Journal of Dairy Science, 2005; 88(12): 4304–4315.

Ma R J, Dong H M. Research status about main factors affecting gas emissions in liquid manure storage. Journal of Agricultural Science and Technology, 2010; 12(3): 56–61. (in Chinese)

Coufal C D, Chavez C, Niemeyer P R, Carey J B. Effects of top-dressing recycled broiler litter on litter production, litter characteristics, and nitrogen mass balance. Poultry Science, 2006; 85(3): 392–397.

Dai X R, Blanes-Vidal V. Emissions of ammonia, carbon dioxide, and hydrogen sulfide from swine wastewater during and after acidification treatment: Effect of pH, mixing and aeration. Journal of Environmental Management, 2013; 115(3): 147–154.

Hele M L, Wheeler E F, Patterson P H, Hulet R M. Ammonia emissions from chopped willow versus pine shavings as bedding for broiler chickens. IX International Livestock Environment Symposium, ASABE, 2012.

Wang X P, Zhou Z, Mo K J, Zhang J N. Comprehensive extraction technologies of active constituents of tea. Transactions of the Chinese Society of Agricultural Engineering, 2002; 18(6): 131–136. (in Chinese)

Zhu L Y, Lu Q P, Zhang H F, Meng L H, Pang M. Ammonia production, hazards and mitigation measures in a pig house. Chinese Journal of Animal Nutrition, 2015; 27(8): 2328–2334. (in Chinese)