Advanced search
Publication Cover
Italian Journal of Animal Science Volume 21, 2022 - Issue 1
Submit an article Journal homepage
1,594
Views
1
CrossRef citations to date
0
Altmetric
Papers

Correlations between bulk tank milk analysis with weather conditions in dairy farms under tropical environments

Raúl Molina Benavidesa Departamento de Ciencia Animal, Universidad Nacional de Colombia, Palmira, ColombiaCorrespondence[email protected]
,
Mauricio Vélez Terranovab Universidad Nacional de Colombia, Palmira, Colombia
,
Sandra Perilla Duquea Departamento de Ciencia Animal, Universidad Nacional de Colombia, Palmira, Colombia
,
Rómulo Campos Gaonaa Departamento de Ciencia Animal, Universidad Nacional de Colombia, Palmira, Colombia
&
Hugo Sánchez Guerreroa Departamento de Ciencia Animal, Universidad Nacional de Colombia, Palmira, Colombia
Pages 217-227 | Received 06 May 2020, Accepted 04 Jan 2022, Published online: 03 Feb 2022

References

  • Barrera GA, Angeli N, Machado L, Cardoso F, Gonzalez F. 2015. Relationships between heat stress and metabolic and milk parameters in dairy cows in southern Brazil. Trop Anim Health Prod. 47(5):889–894.
  • Bertocchi L, Vitali A, Lacetera N, Nardone A, Varisco G, Bernabucci U. 2014. Seasonal variations in the composition of Holstein cow's milk and temperature-humidity index relationship . Animal. 8(4):667–674.
  • Bondan C, Folchini JA, Noro M, Quadros LD, Machado MK, González DH. 2018. Milk composition of Holstein cows: a retrospective study. Cienc Rural. 48(12):1–8.
  • Bouraoui R, Lahmar M, Majdoub A, Djemali M, Belyea R. 2002. The relationship of temperature–humidity index with milk production of dairy cows in a Mediterranean climate. Anim Res. 51(6):479–491.
  • Carulla JE, Ortega E. 2016. Dairy production systems of Colombia: challenges and opportunities. Arch. Latinoam Prod Anim. 24(2):83–87.
  • Costa BA, Dantas MR, Alvarenga BM, Peripolli V, Tanure BC, McManus C. 2018. Programs for best dairy management practice in Brazil and their applications. J Clean Prod. 176:1026–1033.
  • Gabbi AM, Peripolli V, Cobuci JA, Fischer V, Costa JB, McManus C. 2017. Can meteorological variables affect milk production in different lactation orders of dairy cows in the Cfb climatic zone? A case study in Southern Brazil. Arch Zootec. 66(254):271–278.
  • Gantner V, Bobic T, Gantner R, Gregic M, Kuterovac K, Novakovic J, Potocnik K. 2017. Differences in response to heat stress due to production level and breed of dairy cows. Int J Biometeorol. 61(9):1675–1685.
  • Gaughan JB, Mader TL. 2014. Body temperature and respiratory dynamics in un-shaded beef cattle. Int J Biometeorol. 58(7):1443–1450.
  • Gauly M, Bollwein H, Breves G, Brügemann K, Dänicke S, Daş G, Demeler J, Hansen H, Isselstein J, König S, et al. 2013. Future consequences and challenges for dairy cow production systems arising from climate change in Central Europe – a review. Animal. 7(5):843–859.
  • Gomes da Silva R, Façanha Morais D, Guilhermino M. 2007. Evaluation of thermal stress indexes for dairy cows in tropical regions. R Bras Zootec. 36(4 suppl):1192–1198.
  • Hammami H, Bormann J, M'hamdi N, Montaldo HH, Gengler N. 2013. Evaluation of heat stress effects on production traits and somatic cell score of Holsteins in a temperate environment. J Dairy Sci. 96(3):1844–1855.
  • Haygert-Velho I, Conceição G, Cosmam L, Alessio D, Busanello M, Sippert M, Damiani C, Almeida AP, Velho JP. 2018. Multivariate analysis relating milk production, milk composition, and seasons of the year. An Acad Bras Cienc. 90(4):3839–3852.
  • Herbut P, Angrecka S. 2018. Relationship between THI level and dairy cows’ behaviour during summer period. Ital J Anim. Sci. 17(1):226–233.
  • Hill DL, 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.
  • InfoStat 2019. Grupo InfoStat, FCA. Argentina: Universidad Nacional de Córdoba.
  • Laird, D.T.; G. Lenarz; F.M. Scher; T.E. Graham and R. Reddy (2004). Microbiological count method (chapter 6): In Standard methods for the examination of dairy products, 17th edition. AP HA. Washington D C, USA, pp. 153–185.
  • Lambertz C, Sanker C, Gauly M. 2014. Climatic effects on milk production traits and somatic cell score in lactating Holstein-Friesian cows in different housing systems. J. Dairy Sci. 97(1):319–329.
  • Landers J. 2007. Sistemas tropicales de agricultura-ganadera en la agricultura de conservación la experiencia en Brazil. Roma: FAO.
  • Liu J, Li L, Chen X, Lu Y, Wang D. 2019. Effects of heat stress on body temperature, milk production, and reproduction in dairy cows: a novel idea for monitoring and evaluation of heat stress – a review. Asian-Australas J Anim Sci. 32(9):1332–1339.
  • Lopes BL, Eckstein C, Pina SD, Carnevalli AR. 2016. The influence of trees on the thermal environment and behaviour of grazing heifers in Brazilian Midwest. Trop Anim Health Prod. 48(4):755–761.
  • Manly BF. 2004. Análisis estadístico multivariado. Londres: Chappman & Hall.
  • McCafferty DJ, Pandraud G, Gilles J, Fabra-Puchol M, Henry PY. 2017. Animal thermoregulation: a review of insulation, physiology and behaviour relevant to temperature control in buildings. Bioinspir Biomim. 13(1):011001.
  • Milani MR, Hense A, Rahmani E, Ploeger A. 2015. A pilot investigation of the relationship between climate variability and milk compounds under the Bootstrap Technique. Foods. 4(3):420–439.
  • Milani MR, Hense A, Rahmani E, Ploeger A. 2015b. A survey of the relationship between climatic heat stress indices and fundamental milk components considering uncertainty. Climate. 3(4):876–900.
  • Molina BA, Sanchez GH, Campos GR, Atzori A, Morales JD. 2017. Dynamic estimation of greenhouse gas emissions from bovine livestock of Valle del Cauca, Colombia. Acta Agron. 66(3):422–429.
  • Molina BA, Silva AF, Perilla DS, Sánchez GH. 2016. Caracterización del ambiente térmico para la actividad ganadera bovina en el Valle del Cauca, Colombia. Acta Agron. 65(4):406–412.
  • Moraes LE, Kebreab E, Strathe AB, Dijkstra J, France J, Casper DP, Fadel JG. 2015. Multivariate and univariate analysis of energy balance data from lactating dairy cows. J Dairy Sci. 98(6):4012–4029.
  • Morales-Vallecilla F, Ortiz-Grisales S. 2018. Productividad y eficiencia de ganaderias lecheras especializadas en el Valle del Cauca (Colombia). Rev Med Vet. 65(3):252–268.
  • Mylostyvyi R, Chernenko O. 2019. Correlations between environmental factors and milk production of Holstein Cows. Data. 4(3):103.
  • Oosting SJ, Udo HM, Viets TC. 2014. Development of livestock production in the tropics: farm and farmers' perspectives. Animal. 8(8):1238–1248.
  • Patel KJ, Boghra VR. 2018. Modifications in Richmond formula for calculating Solids-not-fat/Total solids percent in cows' milk in Gujarat State. Asian Journal of Dairy & Food Research J Dairy Foods Home Sci. 37(4):278–282.
  • Pavani K, Carvalhais I, Faheem M, Chaveiro A, Reis VF, Da Silva MF. 2015. Reproductive performance of holstein dairy cows grazing in dry-summer subtropical climatic conditions: effect of heat stress and heat shock on meiotic competence and in vitro fertilization. Asian-Australas J Anim Sci. 28(3):334–342.
  • Picinin LC, Bordignon-Luiz M, Cerqueira MP, Toaldo IM, Souza FN, Leite MO, Fonseca LM, Lana AM. 2019. Effect of seasonal conditions and milk management practices on bulk milk quality in Minas Gerais State-Brazil. Arq Bras Med Vet Zootec. 71(4):1355–1363.
  • Polsky L, von Keyserlingk AG. 2017. Invited review: effects of heat stress on dairy cattle welfare. J Dairy Sci. 100(11):8645–8657.
  • Promket D, Kenchaiwong W, Ruangwittayanusorn K. 2020. Effects of climate change on milk yield and milk composition in Thai crossbred Holstein cows. GEOMATE. 18(67):108–113.
  • Ramírez EJ, Rodríguez MJ, Huerta MR, Cárdenas CA, Juárez BJ. 2019. Tropical milk production systems and milk quality: a review. Trop Anim Health Prod. 51(6):1295–1305.
  • Renna M, Lussiana C, Malfatto V, Mimosi A, Battaglini ML. 2010. Effect of exposure to heat stress conditions on milk yield and quality of dairy cows grazing on Alpine pasture. In Proceedings of 9th European IFSA Symposium, 4–7 July 2010. Vienna (Austria). p. 1338–1348.
  • Rhoads R, La Noce J, Wheelock JB, Baumgard L. 2011. Short communication: alterations in expression of gluconeogenic genes during heat stress and exogenous bovine somatotropin administration. J Dairy Sci. 94(4):1917–1921.
  • Ruiz JI, Vargas B, Abarca S, Hidalgo HG. 2019. Heat stress effect on dairy cattle production in Costa Rica. Agronomy Mesoamerican. 30(3):733–750.
  • SAS Inc SI 2011. CSAS/STAT® 9.3 Guía del usuario. Cuidado. NC: SAS Institute Inc.
  • Scharf B, Leonard MJ, Weaber RL, Mader TL, Hahn GL, Spiers DE. 2011. Determinants of bovine thermal response to heat and solar radiation exposures in a field environment. Int J Biometeorol. 55(4):469–480.
  • Sherry A, Henson RK. 2005. Conducting and interpreting canonical correlation analysis in personality research: a user-friendly primer. J Pers Assess. 84(1):34–37.
  • Shiker AK. 2012. Multivariate statistical analysis. Br J Sci. 6(11):55–66.
  • Sourabh Y, Kumar CS, Hankar SS, Sudheer J. 2017. Correlation between milk constituents and somatic cell counts in Holstein Friesian crossbred cattle. Int J Agri Sci. 9(7):3840–3842.
  • Stürmer M, Busanello M, Velho JP, Heck VI, Haygert-Velho IM. 2018. Relationship between climatic variables and the variation in bulk tank milk composition using canonical correlation analysis. Int J Biometeorol. 62(9):1663–1674.
  • Thamo T, Addai D, Pannell DJ, Robertson MJ, Thomas DT, Young JM. 2017. Climate change impacts and farm-level adaptation: economic analysis of a mixed cropping–livestock system. Agric Syst. 150:99–108.
  • Aliç Ur Al D, Baritçi İ. 2013. Determination of relationship between some udder and body traits of Holstein cows by canonical correlation analysis. Kocatepe Vet J. 6 (1):11–11.
  • Vargha A, Bergman LR, Delaney HD. 2013. Interpretation problems of the partial correlation with nonnormally distributed variables. Qual Quant. 47(6):3391–3402.
  • Zuluaga JJ, Restrepo BF. 2009. Efecto meteorológico sobre la producción y calidad de la leche en dos Municipios de Antioquia – Colombia. Rev Lasallista Investig. 6(1):50–57.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.