The Influence of Particle Size of Ground Roasted Coffee in Discrimination of Decaffeinated Coffee Using Ultraviolet-Visible Spectroscopy and PLS-DA Method

Authors

  • Meinilwita Yulia Jurusan Teknologi Pertanian, Politeknik Negeri Lampung
  • Aniessa Rinny Asnaning Jurusan Teknologi Pertanian, Politeknik Negeri Lampung
  • Diding Suhandy Jurusan Teknologi Pertanian, Politeknik Negeri Lampung

DOI:

https://doi.org/10.25181/jppt.v18i1.1226

Keywords:

Pagar Alam coffee, Java Mocha coffee, UV-VIS spectroscopy, discrimination, SIMCA method, adulteration.

Abstract

This present research is an application of UV-VIS spectroscopy and SIMCA method to  distinguish robusta ground roasted coffee from Sumatera and Java. Spectral data  measurement of the filtered and diluted aqueous coffee samples was performed using a UV-VIS spectrometer (Genesys ™ 10S UV-Vis, Thermo Scientific, USA). SIMCA model was constructed for each class, SIMCA model of Sumatera robusta coffee and SIMCA model of Java robusta coffee. Prediction results show that all predictive samples are successfully grouped correctly according to their classes using the developed SIMCA model, except for S14aPA sample that fail to be classified as robusta coffee of Sumatra. Based on the results of the discriminant power plot analysis, it is concluded that in general the contribution of wavelengths between 200-350 nm is higher than that of the wavelength between 350-600 nm. Several wavelengths with very high contribution (high discriminant power value) and seen as peaks on the plot are 245 nm, 253 nm, 264 nm, 316 nm and 327 nm.

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References

Clarke, R.J. & Macrae, R. 1987. Coffee, vol 2: technology. London: Elsevier Applied Science.

Forman, J., Aizer, A. & Young, C.R. 1997. Myocardial infarction resulting from caffeine overdose in an

anorectic woman. Annals of Emergency Medicine, 29(1): 178–180.

Kerrigan, S. & Lindsey, T. 2005. Fatal caffeine overdose: Two case reports. Forensic Science International,

(1): 67–69.

Lafuente-Lafuente, C., Schnepf, N., Jarrin, I., Mazeron, M.C., Simoneau, G., Diemer, M., Mouly, S., Delcey,

V., Sellier, P. & Bergmann, J.. 2008. Incidence d’atteinte hépatique avancée dans une cohorte de

patients co-infectés VIH et hépatite B. La Revue de médecine interne, 29(S3): 372.

Liska, K. 2004. Drugs and the body with implication for society. 7 ed. New Jersey: Pearson.

Riesselmann, B., Rosenbaum, F., Roscher, S. & Schneider, V. 1999. Fatal caffeine intoxication. Forensic

Science International, 103(1): 49–52.

Suhandy, D., Waluyo, S., Sugianti, C., Yulia, M., Iriani, R., Handayani, F.N. & Apratiwi, N. 2016. The use of

UV-Vis-NIR spectroscopy and chemometrics for identification of adulteration in ground roasted

arabica coffees -investigation on the influence of particle size on spectral analysis. Prosiding Seminar

Nasional Tempe. Bandar Lampung.

Suhandy, D. & Yulia, M. 2017. Peaberry coffee discrimination using UV-visible spectroscopy combined with

SIMCA and PLS-DA. International Journal of Food Properties, 1–9.

Published

2018-01-01

How to Cite

Yulia, M., Asnaning, A. R., & Suhandy, D. (2018). The Influence of Particle Size of Ground Roasted Coffee in Discrimination of Decaffeinated Coffee Using Ultraviolet-Visible Spectroscopy and PLS-DA Method. Jurnal Penelitian Pertanian Terapan, 18(1), 46-51. https://doi.org/10.25181/jppt.v18i1.1226

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