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RESEARCH ARTICLE

Thermoregulatory responses, and acid–base and electrolytic balance of indigenous ewes of different coat colour in an equatorial semi-arid region

Débora Andréa Evangelista Façanha A , Josiel Ferreira A , Robson Mateus Freitas Silveira https://orcid.org/0000-0003-2285-9695 B * , Fabrício Xavier Morais A , Chromácio Calafange de Medeiros A , Olivardo Facó C , José Ernandes Rufino de Sousa A and Valéria Veras de Paula A
+ Author Affiliations
- Author Affiliations

A Department of Animal Science, Federal Rural University of the Semi-arid Region (UFERSA), 59625-900 Mossoró, RN, Brazil.

B Department of Animal Science, Luiz de Queiroz College of Agriculture, University of São Paulo (USP), 13418-900 Piracicaba, SP, Brazil.

C Embrapa Caprinos e Ovinos, 62010-970 Sobral, CE, Brazil.


Handling Editor: Markandeya Jois

Animal Production Science 62(2) 121-130 https://doi.org/10.1071/AN20321
Submitted: 27 May 2020  Accepted: 22 September 2021   Published: 25 October 2021

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context: Animal husbandry in thermally stressful environments can be both complex and difficult, and the anticipated effects of climate change are expected to increase this condition.

Aim: Thermoregulatory responses, and acid–base and electrolytic balance were evaluated in indigenous ewes of different coat colour during different moments of natural heat stress.

Methods: Fifteen ewes of different colour (white, red and black; five of each) were used and data were collected for six consecutive weeks in the dry and rainy periods at three times of the day [(Moment 1) 0500 hours to 0600 hours; (Moment 2) 1200 hours to 1300 hours; and (Moment 3) 1700 hours to 1800 hours)]. Thermoregulatory (clinical measures), acid–base and electrolytic variables (blood examinations) were recorded. Air temperature and relative humidity were measured, and the radiant heat load was calculated.

Key results: Black ewes showed higher averages of respiratory rate (RR) and rectal temperature (RT). RT was different between before and after heat stress for all ewes, while the RR was not affected and cutaneous evaporation presented minor variations. Between 1200 hours and 1300 hours, there was an increase in the hydrogen potential, oxygen pressure, oxygen saturation and total carbon concentration averages, and a decrease in partial pressure of carbon dioxide for all ewes. The base excess was not significantly different for each time of the day between the periods, and were not affected by the time of the day or the season. White ewes were highly affected by the time of the day and the period regarding electrolytic parameters, followed by the red ewes and black ewes. The first two discriminant functions showed that ewes, regardless of coat colour, show similarity in the animal responses at Moments 1 and 3, compared with Moment 2. RT was the main variable that distinguished the three genetic groups.

Conclusions: Indigenous ewes of different coat colour recover physiological equilibrium after heat challenges. These adjustments enable them to maintain thermoregulatory responses, and acid–base and electrolytic balance within the physiological equilibrium.

Implications: These variations indicated the ability of Brazilian indigenous ewes of different coat colour to recover thermoregulatory, and acid–base and electrolytic balance after an environmentally challenging condition in an equatorial semi-arid region, regardless of the period.

Keywords: adaptation, blood gases, heat stress, Morada Nova ewes, multivariate analysis, semi-arid environment, thermal biology.


References

Abi-Saab S, Saleim FT (1995) Physiological responses of stress of filial crosses compared to local Awassi sheep. Small Ruminant Research 16, 55–59.
Physiological responses of stress of filial crosses compared to local Awassi sheep.Crossref | GoogleScholarGoogle Scholar |

Castro MSM, de Vasconcelos AM, dos Santos VO, Lopes AKC, de Farias MRS, Lima FRG, Rogério MCP, Ferreira J, Silveira RMF (2021) Thermoregulatory capacity of Santa Inês hair ewes of different genotypes associated with coat colors raised in a hot environment. Journal of Applied Animal Welfare Science 24, 400–410.
Thermoregulatory capacity of Santa Inês hair ewes of different genotypes associated with coat colors raised in a hot environment.Crossref | GoogleScholarGoogle Scholar | 32951463PubMed |

Collier RJ, Gebremedhin KG (2015) Thermal biology of domestic animals. Annual Review of Animal Biosciences 3, 513–532.
Thermal biology of domestic animals.Crossref | GoogleScholarGoogle Scholar | 25387108PubMed |

Costa CCM, Maia ASC, Brow-Brandl TM, Neto MC, Fonsêca VFC (2018a) Thermal equilibrium of Nellore cattle in tropical conditions: an investigations of circadian pattern. Journal of Thermal Biology 74, 317–324.
Thermal equilibrium of Nellore cattle in tropical conditions: an investigations of circadian pattern.Crossref | GoogleScholarGoogle Scholar |

Costa CCM, Maia ASC, Nascimento ST, Nascimento CCN, Neto MC, Fonsêca VFC (2018b) Thermal balance of Nellore cattle. International Journal of Biometeorology 62, 723–731.
Thermal balance of Nellore cattle.Crossref | GoogleScholarGoogle Scholar |

Costa WP, Façanha DAE, Leite JHGM, Silva RCB, Souza CH, Chaves DF, Vasconcelos AM, Soto-Blanco B, Vale AM, Pimenta Filho EC (2015) Thermoregulatory responses and blood parameters of locally adapted ewes under natural weather conditions of Brazilian semiarid region. Semina 36, 4589–4600.
Thermoregulatory responses and blood parameters of locally adapted ewes under natural weather conditions of Brazilian semiarid region.Crossref | GoogleScholarGoogle Scholar |

da Silva WE, Leite JHGM, de Sousa JER, Costa WP, da Silva WST, Guilhermino MM, Asensio LAB, Façanha DAE (2017) Daily rhythmicity of the thermoregulatory responses of locally adapted Brazilian sheep in a semiarid environment. International Journal of Biometeorology 61, 1221–1231.
Daily rhythmicity of the thermoregulatory responses of locally adapted Brazilian sheep in a semiarid environment.Crossref | GoogleScholarGoogle Scholar | 28091856PubMed |

Esmay ML (1969) ‘Principles of animal environment’, 2nd edn. p. 325. (AVI Publishing Co., Inc.: Westport, CT, USA)

Façanha DAE, Ferreira J, Silveira RMF, Nunes TL, de Oliveira MG, de Sousa JE, de Paula VV (2020) Are locally adapted goats able to recover homeothermy, acid–base and electrolyte equilibrium in a semi-arid region? Journal of Thermal Biology 90, 102593
Are locally adapted goats able to recover homeothermy, acid–base and electrolyte equilibrium in a semi-arid region?Crossref | GoogleScholarGoogle Scholar | 32479388PubMed |

Façanha DAE, Ferreira JB, Morais JHG, Sousa JA, Costa WP, Guilhermino MM, Asensio LAB, Vasconcelos AM, Silveira RMF (2019) The dynamic adaptation of Brahman steers in a savanna biome. Journal of Thermal Biology 81, 128–136.
The dynamic adaptation of Brahman steers in a savanna biome.Crossref | GoogleScholarGoogle Scholar | 30975410PubMed |

Facó O, Paiva SR, Alves LRN, Lôbo RNB, Vilela LCV (2008) ‘Raça Morada Nova: origem, características e perspectivas’, 1st edn. no. 75. (Embrapa caprinos: Sobral, CE, Brazil)

Ferreira J, Serafim MV, Diógenes GV, Silveira RMF, Antas SU, Costa MG (2021a) Simultaneity between nutrition and thermoregulatory responses in ruminants. Biological Rhythm Research 52, 1372–1382.
Simultaneity between nutrition and thermoregulatory responses in ruminants.Crossref | GoogleScholarGoogle Scholar |

Ferreira J, Silveira RMF, de Sousa JER, Façanha DAE (2020) Locally adapted goats efficiently gain and lose heat in an equatorial semi-arid environmental. International Journal of Biometeorology 64, 1777–1782.
Locally adapted goats efficiently gain and lose heat in an equatorial semi-arid environmental.Crossref | GoogleScholarGoogle Scholar | 32601740PubMed |

Ferreira J, Silveira RMF, de Sousa JER, Vasconcelos AM, Guilhermino MM, Façanha DAE (2021b) Evaluation of homeothermy, acid–base and electrolytic balance of black goats and ewes in an equatorial semi-arid environment. Journal of Thermal Biology 100, 103027
Evaluation of homeothermy, acid–base and electrolytic balance of black goats and ewes in an equatorial semi-arid environment.Crossref | GoogleScholarGoogle Scholar | 34503774PubMed |

Ferreira JB, Bezerra ACDS, Guilhermino MM, Leite JHGM, Silva WE, Paiva RDM, Barbosa TN, Sousa ER, Façanha DAE (2017) Performance, endoparasitary control and blood values of ewes locally adapted in semiarid region. Comparative Immunology, Microbiology & Infectious Diseases 52, 23–29.
Performance, endoparasitary control and blood values of ewes locally adapted in semiarid region.Crossref | GoogleScholarGoogle Scholar |

Finch VA, Dmi’el R, Boxman R, Shkolnik A, Taylor CR (1980) Why black goats in hot deserts? Effects of coat color on heat exchanges of wild and domestic goats. Physiological Zoology 53, 19–25.
Why black goats in hot deserts? Effects of coat color on heat exchanges of wild and domestic goats.Crossref | GoogleScholarGoogle Scholar |

Godfrey RW, Preston WD, Joseph SR, LaPlace L, Hillman PE, Gebremedhin KG, et al. (2017) Evaluating the impact of breed, pregnancy, and hair coat on body temperature and sweating rate of hair sheep ewes in the tropics. Journal of Animal Science 95, 2936–2942.
Evaluating the impact of breed, pregnancy, and hair coat on body temperature and sweating rate of hair sheep ewes in the tropics.Crossref | GoogleScholarGoogle Scholar | 28727097PubMed |

Krause KL, Foster HV, Davis SE, Kiner T, Bonis JM, Pan LG, Qian B (2009) Focal acidosis in the pre-Botzinger complex area of awake goats induces a mild tachypnea. Journal of Applied Physiology 106, 241–250.
Focal acidosis in the pre-Botzinger complex area of awake goats induces a mild tachypnea.Crossref | GoogleScholarGoogle Scholar | 19008492PubMed |

Landim AV, Roriz ND, Silveira RMF, Vega WHO, Costa HHA, de Sousa LCO, Alves GC, Ferreira J, Mourão GB (2021) Sheep meat production in the Brazilian semi-arid region: Crossing between indigenous breeds. Trop Anim Health Prod 53, 510
Sheep meat production in the Brazilian semi-arid region: Crossing between indigenous breeds.Crossref | GoogleScholarGoogle Scholar | 34628538PubMed |

Leite JHGM, Asensio LAB, da Silva WST, da Silva WE, Chaves DF, Facó O, Costa WP, Façanha DAE (2018) Locally adapted Brazilian sheep: a model of adaptation to Semiarid region. Semina 39, 2261–2272.
Locally adapted Brazilian sheep: a model of adaptation to Semiarid region.Crossref | GoogleScholarGoogle Scholar |

Leite JHGM, Façanha DAE, Costa WP, Chaves DF, Guilhermino MM, Silva WST, Bermejo LA (2017) Thermoregulatory responses related to coat traits of Brazilian native ewes: an adaptive approach. Journal of Applied Animal Research 46, 353–359.
Thermoregulatory responses related to coat traits of Brazilian native ewes: an adaptive approach.Crossref | GoogleScholarGoogle Scholar |

Maia ASC, da Silva RG, Nascimento ST, Nascimento CCN, Pedrosa HP, Domingos HGT (2015) Thermoregulatory responses of goats in hot environment. International Journal of Biometeorology 59, 1025–1033.
Thermoregulatory responses of goats in hot environment.Crossref | GoogleScholarGoogle Scholar |

Maia ASC, Nascimento ST, Nascimento CCN, Gebremedhin KG (2016) Thermal equilibrium of goats. Journal of Thermal Biology 58, 43–49.
Thermal equilibrium of goats.Crossref | GoogleScholarGoogle Scholar |

Marai IFM, El-Darawany AA, Fadiel A, Abdel-Hafez MAM (2007) Physiological traits as affected by heat stress in sheep. A review. Small Ruminant Research 71, 1–12.
Physiological traits as affected by heat stress in sheep. A review.Crossref | GoogleScholarGoogle Scholar |

Marai IFM, Shalaby TH, Bahgat LB, Abdel-Hafez MA (1997) Fattening of lambs on concentrates mixture diet alone without roughages or with addition of natural clay under subtropical conditions of Egypt. Growth performance and behaviour. In ‘Proceedings of International Conference on Animal Production & Health’, Dokki, Cairo, Egypt. pp. 279–296. https://agris.fao.org/agris-search/search.do?recordID=EG1998001014

McManus C, Louvandini H, Gugel R, Sasaki LCB, Oliveira EMB, Bernal FEM, Paiva SR, Paim TP (2011) Skin and coat traits in sheep in Brazil and their relation with heat tolerance. Tropical Animal Health and Production 43, 121–126.
Skin and coat traits in sheep in Brazil and their relation with heat tolerance.Crossref | GoogleScholarGoogle Scholar | 20680445PubMed |

Neves MLMW, Azevedo M, da Costa LAB, Guim A, Leite AM, Chagas JC (2009) Critical levels of the thermal comfort index for Santa Ines sheep under grazing at the agreste region of Pernambuco State. Acta Scientiarum – Animal Sciences 31, 169–175.

Nunes SF, Ferreira J, Silveira RMF, Sales DC, de Sousa JER, Paiva SR, Façanha DAE (2020) Morphometric caracterization and zoometric índices of white Morada Nova breed: the first step for conservation. Small Ruminant Research 192, 106178
Morphometric caracterization and zoometric índices of white Morada Nova breed: the first step for conservation.Crossref | GoogleScholarGoogle Scholar |

Reece OW (2008) ‘Anatomia Funcional e Fisiologia dos Animais Domésticos.’, 3rd edn. (Roca: São Paulo, Brazil)

Scholtz MM, Maiwashe A, Neses FWC, Theunissen A, Olivier WJ, Mokolobate MC, Hendriks J (2013) Livestock breeding for sustainability to mitigate global warming, with the emphasis on developing countries. South African Journal of Animal Science 43, 269–281.
Livestock breeding for sustainability to mitigate global warming, with the emphasis on developing countries.Crossref | GoogleScholarGoogle Scholar |

Sejian V, Bhatta R, Gaughan JB, Dunshea FR, Lacetera N (2018) Review: adaptation of animals to heat stress. Animal 12, s431–s444.
Review: adaptation of animals to heat stress.Crossref | GoogleScholarGoogle Scholar | 30139399PubMed |

Silveira RMF, Brito e Silva BE, Vasconcelos AM, Façanha DAE, Martins TP, Rogério MCR, Ferreira JB (2021a) Does organic selenium supplement affect the thermoregulatory responses of dairy goats? Biological Rhythm Research 52, 869–881.
Does organic selenium supplement affect the thermoregulatory responses of dairy goats?Crossref | GoogleScholarGoogle Scholar |

Silveira RMF, Ferreira J, Busanello M, Vasconcelos AM, Valente FLJ, Façanha DAE (2021c) Relationship between thermal environment and morphophysiological, performance and carcass traits of Brahman bulls raised on tropical pasture: a canonical approach to a set of indicators. Journal of Thermal Biology 96, 102814
Relationship between thermal environment and morphophysiological, performance and carcass traits of Brahman bulls raised on tropical pasture: a canonical approach to a set of indicators.Crossref | GoogleScholarGoogle Scholar |

Silveira RMF, Vasconcelos AM, Silva JV, Vega WHO, Toro-Mujica P, Ferreira J (2021b) Typification, characterization and differentiation of sheep production systems in the Brazilian semiarid region. NJAS – Impact in Agricultural and Life Science 93, 48–73.
Typification, characterization and differentiation of sheep production systems in the Brazilian semiarid region.Crossref | GoogleScholarGoogle Scholar |

Vasconcelos AA, Albuquerque CC, Carvalho JF, et al. (2020a) Adaptive profile of dairy cows in a tropical region. International Journal of Biometeorology 64, 105–113.
Adaptive profile of dairy cows in a tropical region.Crossref | GoogleScholarGoogle Scholar |

Vasconcelos AA, Carvalho JF, Albuquerque CC, de Façanha DAE, Lima FRL, Silveira RMF, Ferreira JB (2020b) Development of an animal adaptability index: application for dairy cows. Journal of Thermal Biology 89, 102543
Development of an animal adaptability index: application for dairy cows.Crossref | GoogleScholarGoogle Scholar |

Vasconcelos AM, Osterno JJ, Rogério MCP, Façanha DAE, Landim AV, Pinheiro AA, Silveira RMF, Ferreira JB (2021) Adaptive profile of Saanen goats in tropical conditions. Biological Rhythm Research 52, 748–758.
Adaptive profile of Saanen goats in tropical conditions.Crossref | GoogleScholarGoogle Scholar |

Vicente-Pérez R, Avendaño-Reyes L, Mejía-Vázquez A, Álvarez-Venezuela FD, Corréa-Calderón A, Mellado M, Meza-Herrera CA, Guerra-Liera JE, Robinson PH (2016) Prediction of rectal temperature using non-invasive physiologic variable measurements in hair pregnant ewes subjected to natural conditions of heat stress. Journal of Thermal Biology 55, 1–6.
Prediction of rectal temperature using non-invasive physiologic variable measurements in hair pregnant ewes subjected to natural conditions of heat stress.Crossref | GoogleScholarGoogle Scholar | 26724191PubMed |