Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye
Yıl: 2023 Cilt: 29 Sayı: 2 Sayfa Aralığı: 710 - 720 Metin Dili: İngilizce DOI: 10.15832/ankutbd.1159540 İndeks Tarihi: 28-02-2024
Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye
Öz: The aim of this study is to investigate the possibility of using meteorological data obtained from a public meteorology station in determining the effect of air temperature and relative humidity on milk yield in Holstein dairy cattle raised in Diyarbakir province of Türkiye. Records on daily milk yield obtained from a commercial farm were used in the study. Meteorological records including daily maximum and minimum temperatures and daily maximum and minimum humidity data were obtained from the nearest public weather station. A total of 185 healthy Holstein dairy cattle, with five different lactation parities, as well as details on some environmental conditions such as, year, month, lactation period, weather temperature, and the humidity that the animals are exposed to are included in the dataset relating to milk production. Five different temperature-humidity index variants, including THIa (maximum temperature and humidity), THIb (minimum temperature and humidity), THIc (average temperature and humidity), THId (maximum temperature and minimum humidity), and THIe (minimum temperature and maximum humidity), were considered to evaluate the effect of heat stress on milk production. The critical values at which the milk yield began to decrease due to heat stress in this study slightly deviated from the critical value of 72, which is accepted as the threshold value for the start of heat stress and determined as 77, 54, 64, 69, and 54 for THIa, THIb, THIc, THId, and THIe, respectively. Based on these values, the loss of milk production of one cow per year was calculated as 98.25, 157.68, 207.36, 164.30, and 190.08 kg when using THIa, THIb, THIc, THId, and THIe, respectively. This study confirmed that weather stations located away from farms provide useful information for research on heat stress in dairy cows. It can be concluded that THId, which shows the least deviation from the critical value of 72 (only 3 unit), better reflects the stress condition that animals are exposed to due to temperature and humidity. For this reason, the highest daily air temperature and lowest daily humidity appear to be the most important factors in this investigation to assess heat stress and both variables can be combined into a THI.
Anahtar Kelime: Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
- Bianca W (1962). Relative importance of dry and wet bulb temperatures in causing heat stress in cattle. Nature 195(4838): 251-252. doi. org/10.1038/195251a0
- Bohmanova J, Misztal I & Cole B (2007). Temperature-humidity indices as indicators of milk production losses due to heat stress. Journal of Dairy Science 90(4): 1947–1956. doi.org/10.3168/jds.2006-513
- Bouraoui R, Lahmar M, Majdoub A, Djemali M N & Belyea R (2002). The relationship of temperature-humidity index with milk production of dairy cows in a Mediterranean climate. Animal Research 51(6): 479-491. doi.org/10.1051/animres:2002036
- Dikmen S & Hansen P J (2009). Is the temperature-humidity index best indicator of heat stress in lactating dairy cows in a subtropical environment? Journal of Dairy Science 92(1): 109-116. doi.org/10.3168/jds.2008-1370
- Freitas M S, Misztal I, Bohmanova J & West J (2006). Utility of on- and off-farm weather records for studies in genetics of heat tolerance. Livestock Science 105(1-3): 223-228. doi.org/10.1016/j.livsci.2006.06.011
- Gantner V, Bobic T, Gregic M, Gantner R, Kuterovac K & Potocnic K (2017). The differences in heat stress resistance due to dairy cattle breed. Mljekarstvo 67(2): 112-122. doi.org/10.15567/mljekarstvo.2017.0203
- Her E, Wolfenson D, Flamenbaum I, Folman Y, Kaim M & Berman A (1988). Thermal, productive and reproductive responses of high yielding cows exposed to short-term cooling in summer. Journal of Dairy Science 71(4): 1085–1092. doi.org/10.3168/jds.s0022-0302(88)79656-3
- Herbut P & Angrecka S (2012). Forming of temperature-humidity index (thi) and milk production of cows in the free-stall barn during the period of summer heat. Animal Science Papers and Reports 30(4): 363-372.
- Hill D L & Wall E (2015). Dairy cattle in a temperate climate: the effects of weather on milk yield and composition depend on management. Animal 9(1): 138-149. doi.org/10.1017/s1751731114002456
- Igono M O, Bijotvedt G & Scanford-Crane H T (1992). Environmental profile and critical temperature effects on milk production of Holstein cows in desert climate. International Biometeorology 36(2): 77-87. doi.org/10.1007/bf01208917
- Ingraham R H, Stanley R W & Wagner W C (1979). Seasonal effects of tropical climate on shaded and nonshaded cows as measured by rectal temperature, adrenal cortex hormones, thyroid hormone and milk production. American Journal Veterinary Research 40(12): 1792-1797.
- Kadzere C T, Murphy M R, Silanikove N & Maltz E (2002). Heat stress in lactating dairy cows: a review. Livestock Production Science 77(1): 59-91. doi.org/10.1016/s0301-6226(01)00330-x
- Kallioglu M A, Ercan U, Sevik S & Fidan C (2015). Investigating solar energy potential of Diyarbakir Province. Proceedings of 3rd International symposium on innovative technologies in engineering and science, 3-5 June, Valencia, Spain. pp. 1878.
- Konyves T, Zlatkovic N, Memisi N, Lukac D, Puvaca N, Stojsin M, Halasz A & Miscevic B (2017). Relationship of temperature-humidity index with milk production and feed intake of Holstein-Friesian cows in different year seasons. The Thai Journal of Veterinary Medicine 47(1): 15-23. https:// he01.tci-thaijo.org/index.php/tjvm/article/view/81490/64796
- Leonard B E (1985). Stress physiology in livestock. Volume 1, Basic Principles. Edited by Mohammed K. Yousef. CRC Press. doi.org/10.1002/ smi.2460020413
- Mader T L, Davis M S & Brown-Brandl T (2006). Environmental factors influencing heat stress in feedlot cattle. Journal of Animal Science 84(3): 712 - 719. doi.org/10.2527/2006.843712x
- NRC (1971). National Research Council. A guide to environmental research on animals, National Academy of Sciences, Washington, DC, OCLC Number: 595267176. https://www.worldcat.org/title/guide-to-environmental-research-on-animals/oclc/595267176?referer=di&ht=edition.
- Ravagnolo O, Misztal I & Hoogenboom G (2000). Genetic component of heat stress in dairy cattle, parameter estimation. Journal of Dairy Science 83(9): 2126 - 2130. doi.org/10.3168/jds.s0022-0302(00)75095-8
- SAS institute Inc. (2000). SAS User’s guide statistics, version ed. SAS Institute, Gary. N.C. http://www2.sas.com/pdfs/s2k/v1_psm.pdf
- Thom E C (1959). The discomfort index. Weatherwise 12(2): 57-61. doi.org/10.1080/00431672.1959.9926960
- Wankar A K, Rindhe S N & Doijad N S (2021). Heat stress in dairy animals and current milk production trends, economics, and future perspectives: the global scenario. Tropical Animal Health and Production 53(1): 70. doi.org/10.1007/s11250-020-02541-x
- West J W (1994). Interaction of energy and bovine somatotropin with heat stress. Journal of Dairy Science 77(7): 2091-2102. doi.org/10.3168/jds. s0022-0302(94)77152-6
- West J W, Mullinix B G & Bernard J K (2003). Effects of hot, humid weather on milk temperature, dry matter intake and milk yield of lactating dairy cows. Journal of Dairy Science 86(1): 232-242. doi.org/10.3168/jds.s0022-0302(03)73602-9
- Yazgan K (2017). Determining heat stress effect in Holstein dairy cattle using daily milk yield and meteorological data obtained from public weather station in Sanliurfa province of Turkey. Indian Journal of Animal Research 51(6): 1002-1011.
- Yazgan K, Dastanbek C & Cedden F (2013). Effects of air temperature and humidity on average daily gain in feedlot cattle of different genotypes. Archives Animal Breeding 56(1): 28 - 41. doi.org/10.7482/0003-9438-56-004
- Zimbelman R B, Rhoads R P, Rhoads M L, Duff G C, Baumgard L H & Collier R J (2009). A re-evaluation of the impact of temperature humidity index (THI) and black globe humidity index (BGHI) on milk production in high producing dairy cows. Southwest Nutrition & Management Conference Arizona, Tuscon USA. pp. 158–168.
| APA | DEMİR O, YAZGAN K (2023). Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. , 710 - 720. 10.15832/ankutbd.1159540 |
| Chicago | DEMİR ORHAN,YAZGAN KEMAL Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. (2023): 710 - 720. 10.15832/ankutbd.1159540 |
| MLA | DEMİR ORHAN,YAZGAN KEMAL Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. , 2023, ss.710 - 720. 10.15832/ankutbd.1159540 |
| AMA | DEMİR O,YAZGAN K Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. . 2023; 710 - 720. 10.15832/ankutbd.1159540 |
| Vancouver | DEMİR O,YAZGAN K Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. . 2023; 710 - 720. 10.15832/ankutbd.1159540 |
| IEEE | DEMİR O,YAZGAN K "Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye." , ss.710 - 720, 2023. 10.15832/ankutbd.1159540 |
| ISNAD | DEMİR, ORHAN - YAZGAN, KEMAL. "Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye". (2023), 710-720. https://doi.org/10.15832/ankutbd.1159540 |
| APA | DEMİR O, YAZGAN K (2023). Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. Tarım Bilimleri Dergisi, 29(2), 710 - 720. 10.15832/ankutbd.1159540 |
| Chicago | DEMİR ORHAN,YAZGAN KEMAL Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. Tarım Bilimleri Dergisi 29, no.2 (2023): 710 - 720. 10.15832/ankutbd.1159540 |
| MLA | DEMİR ORHAN,YAZGAN KEMAL Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. Tarım Bilimleri Dergisi, vol.29, no.2, 2023, ss.710 - 720. 10.15832/ankutbd.1159540 |
| AMA | DEMİR O,YAZGAN K Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. Tarım Bilimleri Dergisi. 2023; 29(2): 710 - 720. 10.15832/ankutbd.1159540 |
| Vancouver | DEMİR O,YAZGAN K Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye. Tarım Bilimleri Dergisi. 2023; 29(2): 710 - 720. 10.15832/ankutbd.1159540 |
| IEEE | DEMİR O,YAZGAN K "Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye." Tarım Bilimleri Dergisi, 29, ss.710 - 720, 2023. 10.15832/ankutbd.1159540 |
| ISNAD | DEMİR, ORHAN - YAZGAN, KEMAL. "Effects of Air Temperature and Relative Humidity on Milk Yield of Holstein Dairy Cattle Raised in Hot-Dry Southeastern Anatolia Region of Türkiye". Tarım Bilimleri Dergisi 29/2 (2023), 710-720. https://doi.org/10.15832/ankutbd.1159540 |
