Pig Breeding 2023 №79

COMPARATIVE ASSESSMENT OF SANITARY AND HYGIENIC NORMS OF HOUSING PIGS ACCORDING TO DIFFERENT PARATYPICAL FACTORS

UDC: 636.4.083:631.223:628.85

DOI: 10.37143/2786-7730-2023-1(79)08

REFERENCIS АРА style: Nebelytsia M. S., Boiko O. V. Porivnialna otsinka sanitarnohihiienichnykh norm utrymannia svynei za riznykh paratypovykh faktoriv [Comparative assessment of sanitary and hygienic standards of pig housing under different paratypical factors]. Svynarstvo i ahropromyslove vyrobnytstvo [Pig Breeding and Agroindustrial Production]. Poltava, 1(79), 130-143 [in Ukrainian]. doi: 10.37143/2786-7730-2023-1(79)08

M. S. Nebelytsia, candidate of agricultural sciences, head of the department of animal husbandry and production of ecologically clean products
ORCID:https://orcid.org/0000-0001-5509-8787
E-mail:nebilitsia@ukr.net
Cherkasy Research Station of Bioresources NAAS Pasterivska Str., 76, Cherkasy, Ukraine 18036
O. V. Boiko, candidate of agricultural sciences, director of the station,
ORCID:https://orcid.org/0000-0002-3917-5583
E-mail:aleksboy18@meta.ua
Cherkasy Research Station of Bioresources NAAS Pasterivska Str., 76, Cherkasy, Ukraine 18036

Abstract

Introduction. The relevance of the work is determined by the implementation of the method of multi-parametric assessment of the microclimate of premises for pigs by the method of continuous automatic registration. The purpose o f the research was to conduct a comparative assessment of indoor pollution with carbon dioxide, ammonia, hydrogen sulfide, methane, and fine dust based on various paratypical factors. Research methods. Analytical, zootechnical, physical, ethological and biometric research methods are applied. Research results. A comparative assessment of the sanitary and hygienic norms for housing pigs in brick premises on concrete and slotted floors in machines was carried out. It was determined that during the periods of the year, the average daily CO2 and NH3 air pollution in pig houses with concrete and slotted floors in the machines were close to the normative values of MPC. The volume concentration of methane was 1.9-3.4 times higher in the premise with a slotted floor in the machines, which is associated with the features of the technology of the self-alloying system of manure removal. According to the calculations of the correlation between the temperature and the relative humidity of the air outside and inside the premises, a probable mostly positive connection was determined. The locomotor activity indices of young pigs were 9.6-12.4 % higher on the slatted floor, but they were inferior in the food activity index by 6.4-16.2 % to peers kept on the concrete floor. The variance analysis determined the probable influence fi=0.784) of the method of housing pigs on solid concrete and slotted floors in machines on the variability of the volume concentration of methane. It was also found out that the period of the year likely influenced the variability of air temperature, volume concentration of carbon dioxide, ammonia and mass concentration of fine dust in the room fi= 0.799; 0.794; 0.352 and 0.439, respectively). Conclusions. The average daily volume concentration in the air of carbon dioxide and ammonia in pig houses by periods of the year approached the normative values of the MPC. The volume concentration of methane was higher in the premise with a slotted floor, which is related to the features of the technology of the self-alloying manure removal system. The probable influence of the method of housing pigs on the variability of indicators of relative air humidity and volume concentration of methane wasdetermined. The probable influence of the period of the year on the variability of air temperature indicators, volume concentration of carbon dioxide, ammonia and mass concentration of fine dust has also been proven.

Key words: measuring and computing complex, microclimate parameters, comparative assessment, premise for pigs, paratypic factor

REFERENCES

1. Chornyi, M. V., & Khomutovska, S. O. (2013). Sanitarno-hihiienichne zabezpechennia ferm v konteksti profilaktyky khvorob svynei [The sanitary-hygenic providing offarms is in the context ofprophylaxis of illnesses of pigs]. Veterynarna medytsyna. Kharkiv, 97, 486-489 [in Ukrainian].
2. Voloshchuk, V. M. (2012). Teoretychne obgruntuvannia i stvorennia konkurentospromozhnykh tekhnolohii vyrobnytstva svynyny [Theoretical ground and creationof competitive technologies ofproduction of pork]. Poltava: TOV «Firma «Tekhservis» [in Ukrainan].
3. Ivanov, V. O., & Voloshchuk. V. M. (2009). Biolohiia svynei [Biology of pigs]. Kyiv: ZAT «Nichlava» [in Ukrainian].
4. Naryimbetov, M. S. (2016). Razrabotka putey optimizatsii mikroklimata [Development oways optimization of microclimate]. Vestnik Kyirgyizskogo natsionalnogo agrarnogo universiteta im. K. I. Skryabina [Bulletin of the Kyrgyz National Agrarian University. K.I. Scriabin]. Bishkek, 4(40), 37-44 [in Russian].
5. Parker, M. O., O’Connor, E. A., McLeman, M. A., Demmers, T. G. M., Lowe, J. C., Owen, R. C., Davey, E. L. ... & Abeyesinghe, S. M. (2010). The impact of chronic environmental stressors on growing pigs, Sus scrofa (Part 2): Social behaviour. Animal, 4, 1910-1921. doi: 10.1017/ S1751731110001084.
6. Voloschuk, V. M., & Gerasimchuk, V. M. (2017). Porivniannia zberezhenosti porosiat ta Intensivnosti yikh rostu u period doroschuvannia pry riznykh sposobah podachi ta vidalennia povitria [Comparison of the preservation of piglets and the intensity of their growth during the growing period with different methods of supplying and removing air]. Naukovi dopovidi NUBIP Ukrainy [Scientific reports of NULES of Ukraine]. Kyiv, 4 (68). URL: http://journals.nubip.edu.ua/index.php/Dopovidi/article/ viewFile/9117/8354 (date of access: 16.02.2023) [in Ukrainan].
7. Nebylytsia, M. S. (2011). Dobovi zminy osnovnykh parametriv mikroklimatu v rekonstruiovanomu prymishchenni dlia svynei u vesniano-litnii period roku [Daily changes of the main parameters of the microclimate in the reconstructed room for pigs in the spring and summer period of the year]. Visnyk Cherkaskoho instytutu ahropromyslovoho vyrobnytstva [Bulletin of the Cherkasy Institute of Agro-Industrial Production]. Cherkasy, 11, 161-168 [in Ukrainian].
8. Nebylitsa, N. S. (2015). Monitoring pokazateley temperatury vozdukha svinovodcheskikh pomeshcheniy v zharu [Monitoring of indicators of air temperature in pig-breeding premises in the heat]. Nauchnyy faktor v strategii innovatsionnogo razvitiya svinovodstva [Scientific factor in the strategy of innovative development of pig breeding, Proceedings of the ХХІІ Internetional Scientific and Practical Conference]. Grodno: GGAU, 363-366 [in Russian].
9. Nebylytsia, M. S. (2020). Ekolohichno bezpechnyi sposib pidvyshchennia enerhoefektyvnosti prymishchennia dlia utrymannia pidsysnykh svynomatok [An environmentally safe way to increase the energy efficiency of the premises for housing lactating sows]. VisnykPoltavskoi derzhavnoi ahrarnoi akademii [Bulletin of Poltava State Agrarian Academy]. Poltava, 3(98), 174-183 [in Ukrainan]. doi: 10.131210/visnyk2020.03.19
10. Samokhina, Ye. A., Povod, M. H., & Mylostyvyi, R. V. (2018). Parametry mikroklimatu v svynarskykh prymishchenniakh vlitku za riznykh system ventyliatsii ta yikhnii vplyv na produktyvnist laktuiuchykh svynomatok i rist pidsysnykh porosiat [Microclimate parameters in piggery premises in summer under different ventilation systems and their influence on the productivity of lactating sows and the growth of suckling piglets]. Visnyk Sumskoho natsionalnoho ahrarnoho universytetu. Seriia «Tvarynytstvo» [Bulleten of Sumy National Agrarian University]. Sumy, 2(34), 218 223 [in Ukrainian].
11. Mykhalko, O. H., & Povod, M. H. (2020). Richna dynamika parametriv mikroklimatu tsekhu oporosu za riznykh system ventyliatsii [Annual dynamics of the microclimate parameters of the farrowing shop under different ventilation systems]. Tekhnolohiia vyrobnytstva i pererobky produktsii tvarynnytstv, 2, 44-57. doi: 10.33245/2310-9270-2020-158-2-44-57 [in Ukrainian].
12. Shtepnyi, M. B. (2019). Optymizatsiia tekhnolohichnykh elementiv utrymannia vidluchenykh porosiat v umovakh industrialnoi tekhnolohii vyrobnytstva svynyny [Optimization technological elements of yousing weaned piglets in the conditions industrial technology of pork production]. (Doctor’s thesis). Mykolaiv [in Ukrainian].
13. Tkachuk, O. D., & Povod, M. H. (2016). Mikroklimat prymishchen ta produktyvni pokaznyky svynei za riznykh umov yikh doroshchuvannia v osinnozymovyi period [Microclimate of premises and productive indexes of pigs under different conditions their rearing in the autumn-winter period]. Naukovo-tekhnichnyi biuleten Instytutu tvarynnytstva NAAN [Scientific and Technical Bulletin of the Institute of Animal Science of the National Academy of Agrarian Science of Ukraine]. Kharkiv, 115, 208-213 [in Ukrainian].
14. Saha, C. K., Ammon, C., Berg, W., Fiedler, M., Loebsin, C., Sanftleben, P., Brunsch, R., & Amon, T. (2014). Seasonal and diel variations of ammonia and methane emissions from a naturally ventilated dairy building and the associated factors influencing emissions. Sci. Total Environ. 468, 53-62. doi: 10.1016/j.scitotenv.2013.08.015.
15. Philippe, F. X., Cabaraux, J. F., & Nicks, B. (2011). Ammonia emissions from pig houses: Influencing factors and mitigation techniques. Agric. Ecosyst. Environ, 141, 245-260. doi: 10.1016/j.agee.2011.03.012.
16. Ladyka, V. I., Khmelnychyi, L. M., Shpetnyi, M. B., & Vechorka, V. V. (2020). Richna dynamika parametriv mikroklimatu v sektsii z systemoiu ventyliatsii rivnomirnoho tysku zalezhno vid zhyvoi masy tvaryn [Annual dynamics of microclimate parameters in a section with a uniform pressure ventilation system depending on the live weight of animals]. Tekhnolohiia vyrobnytstva i pererobky produktsii tvarynnytstva [Animal Husbandry Products Production and Processing]. Bila Tserkva, 1, 7-14. doi:10.33245/2310-9289-2020-156-1-7-134 [in Ukrainian].
17. Bastviken, D., Nygren, J., Schenk, J., Parellada Massana, R., & Duc, N. T. (2020). Technical note: Facilitating the use of low-cost methane (CH4) sensors in flux chambers - calibration, data processing, and an open-source make-it-yourself logger. Biogeosciences, 17, 3659-3667. doi: 10.5194 /bg-17-3659-2020.
18. Natrus, S. P., & Stryhina M. V. (2018). Zabrudnennia atmosfernoho povitria ta rozvytok systemy monitorynhu u Donetskii oblasti [Atmospheric air pollution and development of the monitoring system in the Donetsk region]. Ekolohiia promyslovoho rehionu, materialy nauk.-prakt. konf. III ekolohichnoho Forumu [Ecology of the industrial region, Proceedings of the scientific and practical conference of the III ecological forum]. Sloviansk: FOP Butko V.I., 5-8 [in Ukrainian].
19. Bashchenko, M. I., Voloshchuk, V. M., Ivanov, V. O., Nebylytsia, M. S., Boiko, O. V., Sotnichenko, Yu. M., & Tkach, Ye. F. (2021). Metodyka multyparametrychnoi otsinky mikroklimatu tvarynnytskykh prymishchen metodom bezperervnoi avtomatychnoi reiestratsii [The method of multi-parametric assessment the microclimate of livestock premises by method of continuous automatic registration]. Instytut svynarstva i APV NAAN [Institute of Pig Breeding and AIP NAAS]. Poltava [in Ukrainian].
20. Svynarski pidpryiemstva (kompleksy, fermy, nevelyki silski hospodarstva) [Pig enterprises (complexes, farms, small farms)] : VNTP-APK 02.05. (2006). Kyiv: Ministry of Agrarian Policy of Ukraine [in Ukrainian].
21. Pro zatverdzhennia hihiienichnykh rehlamentiv dopustymoho vmistu khimichnykh i biolohichnykh rechovyn u povitri robochoi zony [On the approval of hygienic regulations on the permissible content of chemical and biological substances in the air of the working area]: Order of the Ministry of Health of Ukraine. 2020. № 1596 iz zminamy № 881 ta № 1715 (2021). [in Ukrainian].
22. WHO global air quality guidelines: particulate matter (PM2.5 and PM10), ozone, nitrogen dioxide, sulfur dioxide and carbon monoxide. URL: https://apps.who.int/iris/handle/10665/345329 (date of access: 28.12.2022.)