Relation Between Microclimate and Air Quality in the Extensively Reared Turkey House
Author:
Ostović Mario1, Menčik Sven2, Ravić Ivica3, Žužul Slavko1, Pavičić Željko1, Matković Kristina1, Antunović Boris4, Tomić Danijela Horvatek5, Kabalin Anamaria Ekert2
Affiliation:
1. Department of Animal Hygiene, Behaviour and Welfare, Faculty of Veterinary Medicine , University of Zagreb , Zagreb , Croatia 2. Department of Animal Husbandry, Faculty of Veterinary Medicine , University of Zagreb , Zagreb , Croatia 3. Veterinary Department , Mostar , Bosnia and Herzegovina 4. Department of Animal Husbandry, Faculty of Agriculture , Josip Juraj Strossmayer University , Osijek , Croatia 5. Department of Poultry Diseases with Clinic, Faculty of Veterinary Medicine , University of Zagreb , Zagreb , Croatia
Abstract
Abstract
Good air quality in poultry houses is crucial for animal health and productivity. In these houses, air is generally contaminated with noxious gases and microorganisms, the concentrations of which depend on numerous factors including microclimate. In this case study, the relation between microclimate and air concentrations of noxious gases and microorganisms was investigated in extensively reared turkey house. The study was carried out at a family household in Dalmatia hinterland, Croatia, with 50.3±3.1 turkeys kept in the house during the study period. Air temperature, relative humidity, airflow rate, concentrations of ammonia, carbon dioxide, bacteria and fungi in indoor air were measured three times per month from September to December, in the morning, prior to releasing turkeys out for grazing. Air temperature ranged from 9.73 to 26.98 °C, relative humidity from 63.29% to 75.08%, and airflow rate from 0.11 to 0.17 m/s. Lowest ammonia and carbon dioxide concentrations were measured in September (2.17 ppm and 550 ppm, respectively) and highest in December (4.50 ppm and 900 ppm, respectively). Bacterial and fungal counts were lowest in December (2.51×105 CFU/m3 and 3.27×103 CFU/m3 air, respectively) and highest in September (6.85×105 CFU/m3 and 1.06x105 CFU/m3 air, respectively). Air temperature and relative humidity showed negative correlation with concentrations of noxious gases and positive correlation with air microorganisms (P<0.05 all).
Publisher
Walter de Gruyter GmbH
Subject
General Veterinary
Reference35 articles.
1. 1. Ekert Kabalin, A., Menčik, S., Ostović, M., Štoković, I., Grgas, A., Horvath, Š., Balenović, T., Sušić, V., Karadjole, I., Pavičić, Ž. (2012). Morphological characteristics of Dalmatian turkey: preliminary results. Maced J Anim Sci. 2, 277-280. 2. 2. Maurić, M., Starčević, K., Menčik, S., Ostović, M., Ekert Kabalin, A. (2016). Influence of meat type, sex and storage time on fatty acid profile of free range Dalmatian turkey. Mac Vet Rev. 39, 167-174. https://doi.org/10.1515/macvetrev-2016-0081 3. 3. Ekert Kabalin, A., Menčik, S., Ostović, M., Kabalin, H., Balenović, M., Balenović, T., Štoković, I., Sušić, V., Starčević, K., Maurić, M. (2013). Tissue share in the breast, thighs and drumsticks of turkeys from Dalmatian hinterland. Stočarstvo. 67, 9-16. (in Croatian) 4. 4. Cargill, C., Murphy, T., Banhazi, T. (2002). Hygiene and air quality in intensive housing facilities in Australia. Anim Prod Aust. 24, 387-393. 5. 5. Dalólio, F.S., da Silva, J.N., Albino, L.F.T., Moreira, J., Mendes, L.B. (2015). Air pollution and their mitigation measures in Brazilian poultry production. Afr J Agric Res. 10, 4522-4531. https://doi.org/10.5897/AJAR2015.10356
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