Startseite Clustering analysis of different hop varieties according to their essential oil composition measured by GC/MS
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Clustering analysis of different hop varieties according to their essential oil composition measured by GC/MS

  • Paulius Kaškonas , Žydrūnas Stanius , Vilma Kaškonienė EMAIL logo , Kȩestutis Obelevičius , Ona Ragažinskienė , Antanas Žilinskas und Audrius Maruška
Veröffentlicht/Copyright: 28. September 2016
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Chemical Papers
Aus der Zeitschrift Chemical Papers Band 70 Heft 12

Abstract

This study describes the analysis of total hops essential oils from 18 cultivated varieties of hops, five of which were bred in Lithuania, and 7 wild hop forms using gas chromatography-mass spectrometry. The study sought to organise the samples of hops into clusters, according to 72 semi-volatile compounds, by applying a well-known method, k-means clustering analysis and to identify the origin of the Lithuanian hop varieties. The bouquet of the hops essential oil was composed of various esters, terpenes, hydrocarbons and ketones. Monoterpenes (mainly β-myrcene), sesquiterpenes (dominated by β-caryophyllene and α-humulene) and oxygenated sesquiterpenes (mainly caryophyllene oxide and humulene epoxide II) were the main compound groups detected in the samples tested. The above compounds, together with α-muurolene, were the only compounds found in all the samples. Qualitative and quantitative differences were observed in the composition of the essential oils of the hop varieties analysed. For successful and statistically significant clustering of the data obtained, expertise and skills in employing chemometric analysis methods are necessary. The result is also highly dependent on the set of samples (representativeness) used for segmentation into groups, the technique for pre-processing the data, the method selected for partitioning the samples according to the similarity measures chosen, etc. To achieve a large and representative data set for clustering analysis from a small number of measurements, numerical simulation was applied using the Monte Carlo method with normal and uniform distributions and several relative standard deviation values. The grouping was performed using the k-means clustering method, employing several optimal number of clusters evaluation techniques (Davies-Bouldin index, distortion function, etc.) and different data pre-processing approaches. The hop samples analysed were separated into 3 and 5 clusters according to the data filtering scenario used. However, the targeted Lithuanian hop varieties were clustered identically in both cases and fell into the same group together with other cultivated hop varieties from Ukraine and Poland.

Keywords: k-means clustering; number of clusters; hops; essential oils

Authors’ contribution

P. Kaskonas performed statistical data mining, interpretation of the clustering analysis results and prepared the section on chemometric analysis. V. Kaškonienė was responsible for the qualitative and quantitative data analysis and preparation of the chemical part. Z. Stanius performed GC/MS analysis and identification of the semi-volatile compounds. O. Ragažinskiene was responsible for collection of the hops and preparation of the samples’ material. K. Obelevičius prepared the essential oils using hydrodistillation. A. Maruška and A. Zilinskas assisted in the experimental design and interpretation of the results.

Supplementary data

Supplementary data associated with this article can be found in the online version of this paper (DOI: 10.1515/chempap-2016-0092).

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Received: 2015-12-1
Revised: 2016-5-3
Accepted: 2016-5-3
Published Online: 2016-9-28
Published in Print: 2016-12-1

© 2016 Institute of Chemistry, Slovak Academy of Sciences

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https://doi.org/10.1515/chempap-2016-0092
Schlagwörter für diesen Artikel
k-means clustering; number of clusters; hops; essential oils

Artikel in diesem Heft

  1. Review
  2. Sulphur and peroxide vulcanisation of rubber compounds – overview
  3. Original paper
  4. Isolation of sporopollenin-like biopolymer from Aspergillus niger and its characterisation
  5. Original paper
  6. Clustering analysis of different hop varieties according to their essential oil composition measured by GC/MS
  7. Original paper
  8. Determination of vapor—liquid equilibrium diagrams of multicomponent systems
  9. Original paper
  10. Enhancing lithium–sulphur battery performance by copper oxide@graphene oxide nanocomposite-modified cathode
  11. Original paper
  12. Magnetic properties of binary and ternary mixed metal oxides NiFe2O4 and Zn0.5Ni0.5Fe2O4 doped with rare earths by sol—gel synthesis
  13. Original paper
  14. Graphite felt modified with electroless Co–Ni–P alloy as an electrode material for electrochemical oxidation and reduction of polysulfide species
  15. Original paper
  16. Preparation and artificial ageing tests in stone conservation of fluorosilicone vinyl acetate/acrylic/epoxy polymers
  17. Original paper
  18. Co-precipitation behaviour of titanium-containing silicate solution
  19. Original paper
  20. Magnetic fluids’ stability improved by oleic acid bilayer-coated structure via one-pot synthesis
  21. Original paper
  22. Synthesis of 5-hydroxymethylfurfural from glucose in a biphasic medium with AlCl3 and boric acid as the catalyst
  23. Original paper
  24. Facile and efficient synthesis of xanthenedione derivatives promoted by niobium pentachloride
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