African Journal of
Agricultural Research

  • Abbreviation: Afr. J. Agric. Res.
  • Language: English
  • ISSN: 1991-637X
  • DOI: 10.5897/AJAR
  • Start Year: 2006
  • Published Articles: 6900

Full Length Research Paper

Detection and quantification of cow milk adulteration using portable near-infrared spectroscopy combined with chemometrics

Mohammed Abdallah Musa
  • Mohammed Abdallah Musa
  • State Key Laboratory of Agro-Product Quality and Safety, Institute of Quality Standards and Testing Technology for Agro-products, Chinese Academy of Agricultural Sciences, Beijing 100081, P. R. China.
  • Google Scholar
Shuming Yang
  • Shuming Yang
  • Department of Dairy Production, Faculty of Animal Production, University of Sinnar, Abu Naama, Sinnar State, Sudan.
  • Google Scholar


  •  Received: 08 November 2020
  •  Accepted: 04 December 2020
  •  Published: 28 February 2021

References

Allendorf M, Subramanian A, Rodriguez-Saona L (2012). Application of a handheld portable mid-infrared sensor for monitoring oil oxidative stability. Journal of the American Oil Chemists' Society 89:79-88
Crossref

 

Birkel E, Rodriguez-Saona L (2011). Application of a portable handheld infrared spectrometer for quantitation of trans fat in edible oils. Journal of the American Oil Chemists' Society 88(10):1477-1483.
Crossref

 

Campos Motta TM, Hoff RB, Barreto F, Andrade RBS, Lorenzini DM, Meneghini LZ, Pizzolato TM. (2014). Detection and confirmation of milk adulteration with cheese whey using proteomic-like sample preparation and liquid chromatography-electrospray-tandem mass spectrometry analysis. Talanta 120:498-505
Crossref

 

Cayuela JA, Weiland C (2010). Intact orange quality prediction with two portable NIR spectrometers. Postharvest Biology and Technology 58:113-120.
Crossref

 

Etzion Y, Linker R, Cogan U, Shmulevich I (2004). Determination of protein concentration in raw milk by mid-infrared Fourier transform infrared/attenuated total reflectance spectroscopy. Journal of Dairy Science 87:2779-2788
Crossref

 

Faraz A, Laleef M, Mustaf MI, Akhtar P, Yagoob M, Rehman S (2013). Detection of adulteration, chemical composition and hygienic status of milk supplied to various canteens of educaational institutes and public places in Fisal Abad. Journal of Animal and Plant Science 23:119-124.

 

Hassel S, Rodriguez-Saona LE (2012). Application of a handheld infrared sensor for monitoring the mineral fortification in whole grain cornmeal. Food Analytical Methods 5:571-57
Crossref

 

Kamthania M, Saxena J, Saxena K, Sharma DK (2014). Milk adulteration: Methods of detection &remedial measures. International Journal of Engineering and Technology Research 1:15-20.

 

Kawasaki M, Kawamura S, Tsukahara M, Morita S, Komiya M, Natsuga M (2008). Near-infrared spectroscopic sensing system for on-line milk quality assessment in a milking robot. Computers and Electronics in Agriculture 63:22-27.
Crossref

 

Kim SS, Young C, Mizaikoff B (2008). Miniaturized mid-infrared sensor technologies. Analytical and Bioanalytical Chemistry 390:231-237.
Crossref

 

Laporte MF, Paquin P (1999). Near-infrared analysis of fat, protein, and casein in cow's milk. Journal of Agricultural and Food Chemistry 47:2600-2605.
Crossref

 

Maeda H, Ozaki Y, Tanaka M, Hayashi N, Kojima T (1995). Near Infrared Spectroscopy and Chemometrics Studies of Temperature-Dependent Spectral Variations of Water: Relationship between Spectral Changes and Hydrogen Bonds. Journal of Near Infrared Spectroscopy 3:19.
Crossref

 

Moore JC, Spink J, Lipp M (2012). Development and application of a database of food ingredient fraud and economically motivated adulteration from 1980 to 2010. Journal of Food Science 77:R118-R126
Crossref

 

Mortland MM (1996). Urea complexes with montmorillonite an infrared absorption study. Clay Minerals 6:143-156.
Crossref

 

Pomerantsev AL (2014). Chemometrics in Excel, Wiley & Sons, Hoboken NJ.

 

Pomerantsev AL (2008). Acceptance areas for multivariate classification derived by projection methods. Journal of Chemometrics 22:601-609.
Crossref

 

Pomerantsev AL, Rodionova OY (2013). Concept and role of extreme objects in PCA/SIMCA. Journal of Chemometrics 28:429-438.
Crossref

 

Poonia A, Jha A, Sharma R, Singh HB, Rai AK, Sharma N (2017). Detection of adulteration in milk: A review. International Journal of Dairy Technology 70(1):23-42.
Crossref

 

Rodriguez-Saona LE, Koca N, Harper WJ, Alvarez VB (2006). Rapid determination of swiss cheese composition by Fourier transform infrared/attenuated total reflectance spectroscopy. Journal of Dairy Science 89:1407-1412.
Crossref

 

Salih MAM, Yang S (2017) Common Milk Adulteration in Developing Countries Cases Study in China and Sudan: A Review. Advances in Dairy Research 5:192.

 

Santos PM, Pereira-Filho ER, Rodriguez-Saona LE (2013). Application of hand-held and portable infrared spectrometers in bovine milk analysis. Journal of Agricultural and Food Chemistry 61:1205-1211
Crossref

 

Singuluri H, Sukumaran MK (2014) Milk adulteration in Hyderabad, India-a comparative study on the levels of different adulterantspresent in milk. Journal of Chromatography and Separation Techniques 5:1-3.
Crossref

 

Soomro AA, Khaskheli M, Memon MA, Barham GS, Haq IU, Fazlani SN, Khan IA, Lochi GM, Soomro RN (2014). Study on adulteration and composition of milk sold at Badin. International Journal of Research in Applied, Natural and Social Sciences 2(9):57-70.