Major and trace elements in organically or conventionally produced milk

John E Hermansen; Jens H Badsberg; Troels Kristensen; Vagn Gundersen

doi:10.1017/S0022029905000968

Abstract

A total of 480 samples of milk from 10 organically and 10 conventionally producing dairy farms in Denmark and covering 8 sampling periods over 1 year (triplicate samplings) were analysed for 45 trace elements and 6 major elements by high-resolution inductively coupled plasma mass spectrometry and inductively coupled plasma atomic emission spectrometry. Sampling, sample preparation, and analysis of the samples were performed under carefully controlled contamination-free conditions. The dairy cattle breeds were Danish-Holstein or Jersey. Sources of variance were quantified, and differences between production systems and breeds were tested. The major source of variation for most elements was week of sampling. Concentrations of Al, Cu, Fe, Mo, Rb, Se, and Zn were within published ranges. Concentrations of As, Cd, Cr, Mn and Pb were lower, and concentrations of Co and Sr were higher than published ranges. Compared with Holsteins, Jerseys produced milk with higher concentrations of Ba, Ca, Cu, Fe, Mg, Mn, Mo, P, Rh, and Zn and with a lower concentration of Bi. The organically produced milk, compared with conventionally produced milk, contained a significantly higher concentration of Mo (48 v. 37 ng/g) and a lower concentration of Ba (43 v. 62 ng/g), Eu (4 v. 7 ng/g), Mn (16 v. 20 ng/g) and Zn (4400 v. 5150 ng/g respectively). The investigation yielded typical concentrations for the following trace elements in milk, for which no or very few data are available: Ba, Bi, Ce, Cs, Eu, Ga, Gd, In, La, Nb, Nd, Pd, Pr, Rh, Sb, Sm, Tb, Te, Th, Ti, Tl, U, V, Y, and Zr.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Taylor, Andrew Branch, Simon Day, Martin P. Patriarca, Marina and White, Mark 2007. Clinical and biological materials, foods and beverages. Journal of Analytical Atomic Spectrometry, Vol. 22, Issue. 4, p. 415.

Sze, Kwan‐Lok Yeung, William Shu‐Biu and Fung, Ying‐Sing 2007. Separation and determination of metal cations in milk and dairy products by CE. ELECTROPHORESIS, Vol. 28, Issue. 22, p. 4156.

Hoac, Tien Lundh, Thomas Purup, Stig Önning, Gunilla Sejrsen, Kristen and Åkesson, Björn 2007. Separation of Selenium, Zinc, and Copper Compounds in Bovine Whey Using Size Exclusion Chromatography Linked to Inductively Coupled Plasma Mass Spectrometry. Journal of Agricultural and Food Chemistry, Vol. 55, Issue. 10, p. 4237.

Patra, R.C. Swarup, D. Kumar, P. Nandi, D. Naresh, R. and Ali, S.L. 2008. Milk trace elements in lactating cows environmentally exposed to higher level of lead and cadmium around different industrial units. Science of The Total Environment, Vol. 404, Issue. 1, p. 36.

Sola-Larrañaga, Cristina and Navarro-Blasco, Iñigo 2009. Chemometric analysis of minerals and trace elements in raw cow milk from the community of Navarra, Spain. Food Chemistry, Vol. 112, Issue. 1, p. 189.

Revilla, I. Lurueña-Martínez, M. A. Blanco-Lopez, M. A. Viñuela-Serrano, J. Vivar-Quintana, A. M. and Palacios, C. 2009. Changes in Ewe's Milk Composition in Organic versus Conventional Dairy Farms. Czech Journal of Food Sciences, Vol. 27, Issue. Special Issue 1, p. S263.

Zohoori, Vida Seal, Christopher J Moynihan, Paula J Steen, Ian N and Maguire, Anne 2009. The impact of fluoridated milks on the availability of trace elements in milk. Journal of the Science of Food and Agriculture, Vol. 89, Issue. 4, p. 595.

do Nascimento, Irinéia R. de Jesus, Raildo M. dos Santos, Walter N.L. Souza, Anderson Santos Fragoso, Wallace D. and dos Reis, Pedro Sanches 2010. Determination of the mineral composition of fresh bovine milk from the milk-producing areas located in the State of Sergipe in Brazil and evaluation employing exploratory analysis. Microchemical Journal, Vol. 96, Issue. 1, p. 37.

Gunicheva, T. N. 2010. Advisability of X‐ray fluorescence analysis of dry residue of cow milk applied to monitor environment. X-Ray Spectrometry, Vol. 39, Issue. 1, p. 22.

Sun, Wan-cheng Luo, Yi-hao and Ma, Hai-qing 2011. Preliminary Study of Metal in Yak (Bos grunniens) Milk from Qilian of the Qinghai Plateau. Bulletin of Environmental Contamination and Toxicology, Vol. 86, Issue. 6, p. 653.

Belzile, Nelson Chen, Yu-Wei and Filella, Montserrat 2011. Human Exposure to Antimony: I. Sources and Intake. Critical Reviews in Environmental Science and Technology, Vol. 41, Issue. 14, p. 1309.

Herwig, N. Stephan, K. Panne, U. Pritzkow, W. and Vogl, J. 2011. Multi-element screening in milk and feed by SF-ICP-MS. Food Chemistry, Vol. 124, Issue. 3, p. 1223.

2011. Organic Production and Food Quality. p. 163.

Sun, Wancheng Ghidini, Sergio Luo, Yihao Zanardi, Emanuela Ma, Haiqing and Ianieri, Adriana 2012. Macro and micro elements profile of yak (Bos grunniens) milk from Qilian of Qinghai plateau. Italian Journal of Animal Science, Vol. 11, Issue. 2, p. e33.

Pilarczyk, Renata Wójcik, Jerzy Czerniak, Paweł Sablik, Piotr Pilarczyk, Bogumiła and Tomza-Marciniak, Agnieszka 2013. Concentrations of toxic heavy metals and trace elements in raw milk of Simmental and Holstein-Friesian cows from organic farm. Environmental Monitoring and Assessment, Vol. 185, Issue. 10, p. 8383.

Brask-Pedersen, D.N. Glitsø, L.V. Skov, L.K. Lund, P. and Sehested, J. 2013. Effect of exogenous phytase on degradation of inositol phosphate in dairy cows. Journal of Dairy Science, Vol. 96, Issue. 3, p. 1691.

Soylak, Mustafa Cihan, Zeynep and Yilmaz, Erkan 2013. Heavy metal contents of organically produced, harvested, and dried fruit samples from Kayseri, Turkey. Environmental Monitoring and Assessment, Vol. 185, Issue. 3, p. 2577.

Ventura, Francesca Vignudelli, Marco Pieri, Linda and Pisa, Paola Rossi 2014. Assessment of a Precaution Index for Environmental Evaluation: An Example of Application to the Cow’s Milk Production. Food and Nutrition Sciences, Vol. 05, Issue. 10, p. 857.

Willhite, Calvin C. Karyakina, Nataliya A. Yokel, Robert A. Yenugadhati, Nagarajkumar Wisniewski, Thomas M. Arnold, Ian M.F. Momoli, Franco and Krewski, Daniel 2014. Systematic review of potential health risks posed by pharmaceutical, occupational and consumer exposures to metallic and nanoscale aluminum, aluminum oxides, aluminum hydroxide and its soluble salts. Critical Reviews in Toxicology, Vol. 44, Issue. sup4, p. 1.

Poulsen, Nina A. Rybicka, Iga Poulsen, Hanne D. Larsen, Lotte B. Andersen, Kell K. and Larsen, Mette K. 2015. Seasonal variation in content of riboflavin and major minerals in bulk milk from three Danish dairies. International Dairy Journal, Vol. 42, Issue. , p. 6.

Download full list

Article contents

Major and trace elements in organically or conventionally produced milk

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Major and trace elements in organically or conventionally produced milk

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests