References

1. A.G. Reynolds, Chapter 11 – Viticultural and Vineyard Management Practices and Their Effects on Grape and Wine Quality, A.G. Reynolds, Ed., Managing Wine Quality, Viticulture and Wine Quality, A Volume in Woodhead Publishing Series in Food Science, Technology and Nutrition, Woodhead Publishing, Sawston, Cambridge, 2010, pp. 365–444.
2. H. Bombrun, D.A. Sumner, What Determines the Price of Wine? The Value of Grape Characteristics and Wine Quality Assessments, AIC Issues Brief No. 18, University of California, 2003, pp. 1–6.
3. C. Spence, Multisensory experiential wine marketing, Food Qual. Preference, 71 (2019) 106–116.
4. H. Sirén, K. Sirén, S. Sharma, L. Kaijanen, J. Ruokonen, M. Bricka, S. Rovio, Differences in Pinot Noir Red Wines Produced by Different Methods: Chromatographic, Spectroscopic, and Electro Aided Study, A.S. Peeters, Ed., Wine: Types, Production and Health, Nova Science Publishers, Finland, 2011.
5. P. Catania, M. Vallone, F. Pipitone, Analysis of the main factors influencing the quality of wine from mechanically harvested grapes, J. Agric. Eng., 4 (2009) 27–30.
6. M.M. Markoski, J. Garavaglia, A. Oliveira, J. Olivaes, A. Marcadenti, Molecular properties of red wine compounds and cardiometabolic benefits, Nutr. Metab. Insights, 9 (2016) 51–57.
7. E. Pagliarini, M. Laureati, D. Gaeta, Sensory descriptors, hedonic perception and consumer’s attitudes to Sangiovese red wine deriving from organically and conventionally grown grapes, Front. Psychol., 4 (2013) 1–7, doi: 10.3389/fpsyg.2013.00896.
8. M. Sokolowsky, U. Fischer, Evaluation of bitterness in white wine applying descriptive analysis, time-intensity analysis, and temporal dominance of sensations analysis, Anal. Chim. Acta, 732 (2012) 46–52.
9. G.M. Shepherd, Neurogastronomy – How the Brain Creates Flavor and Why it Matters, Columbia University Press, New York, 2012.
10. M. Szpakowska, E. Marjańska, E. Brodnicka, Taste Qualities Estimation by Taste Sense and Electrochemical Sensors, H. Śmigielska, Ed., Current Trends in Commodity Science: Analysis and Consumer Acceptance of Food Products, Poznań University of Economics, Faculty of Commodity Science, Poznań, 2013, pp. 104–115.
11. S. Kataoka, R.B. Yang, Y. Ishimaru, H. Matsunami, J. Sévigny, J.C. Kinnamon, T.E. Finger, The candidate sour taste receptor, PKD2L1, is expressed by type III taste cells in the mouse, Chem. Senses, 33 (2008) 243–254.
12. Y.-J. Huang, Y. Maruyama, K.-S. Lu, E. Pereira, I. Plonsky, J.E. Baur, D.Q. Wu, S.D. Roper, Mouse taste buds use serotonin as a neurotransmitter, J. Neurosci., 25 (2005) 843–847.
13. K. Toko, Biometric Sensor Technology, Cambridge University Press, 2000.
14. Y. Tahara, K. Toko, Electronic tongues–a review, IEEE Sens. J., 13 (2013) 3001–3011.
15. A. Legin, A. Rudnitskaya, L. Lvova, Y. Vlasov, C. Di Natale, A. D’Amico, Evaluation of Italian wine by the electronic tongue: recognition, quantitative analysis and correlation with human sensory perception, Anal. Chim. Acta, 484 (2003) 33–44.
16. A. Legin, A. Rudnitskaya, Y. Vlasov, C. Di Natale, E. Mazzone, A. D’Amico, Application of electronic tongue for quantitative analysis of mineral water and wine, Electroanalysis, 11 (1999) 814–820.
17. A. Rudnitskaya, H.H. Nieuwoudt, N. Muller, A. Legin, M. du Toit, F.F. Bauer, Instrumental measurement of bitter taste in red wine using an electronic tongue, Anal. Bioanal. Chem., 397 (2010) 3051–3060.
18. Z.Q. Sun, Y.F. Zhang, X.Y. Xu, M.L. Wang, L.J. Kou, Determination of the total phenolic content in wine samples using potentiometric method based on permanganate ion as an indicator, Molecules, 24 (2019) 1–9, doi: 10.3390/molecules24183279.
19. L. Gil-Sánchez, J. Soto, R. Martínez-Máñez, E. Garcia-Breijo, J. Ibáñez, E. Llobet, A novel humid electronic nose combined with an electronic tongue for assessing deterioration of wine, Sens. Actuators, A, 171 (2011) 152–168.
20. A. Riul Jr., H.C. de Sousa, R.R. Malmegrim, D.S. dos Santos Jr., A.C.P.L.F. Carvalho, F.J. Fonseca, O.N. Oliveira Jr., L.H.C. Mattoso, Wine classification by taste sensors made from ultra-thin films and using neural networks, Sens. Actuators, B, 98 (2004) 77–82.
21. C. Di Natale, R. Paolesse, A. Macagnano, A. Mantini, A. D’Amico, M. Ubigli, A. Legin, L. Lvova, A. Rudnitskaya, Y. Vlasov, Application of a combined artificial olfaction and taste system to the quantification of relevant compounds in red wine, Sens. Actuators, B, 69 (2000) 342–347.
22. M. Szpakowska, A. Magnuszewska, J. Szwacki, On the possibility of using liquid or lipid, lipid like-polymer membrane systems as taste sensor, J. Membr. Sci., 273 (2006) 116–123.
23. E. Marjańska, M. Szpakowska, Qualitative and quantitative analysis of selected tonic waters by potentiometric taste sensor with all-solid-state electrodes, IEEE Sens. J., 18 (2018) 1250–1255.
24. E. Marjańska, M. Szpakowska, All solid state electrodes taste sensor with modified polymer membranes for discrimination of mineral water with different CO2 level, Desal. Water Treat., 128 (2018) 278–284.
25. W. Szpakowski, E. Brodnicka, M. Szpakowska, The possibility of the application of a potentiometric sensor with all-solid-state electrodes for the quality control of different natural waters, Desal. Water Treat., 128 (2018) 133–139.
26. E. Brodnicka, M. Szpakowska, Application of potentiometric taste sensor with all solid state electrodes for distinguishing of red dry wines from Polish and French vineyards, Towaroznawcze Problemy Jakości, 1 (2018) 76–84.
27. E. Brodnicka, M. Szpakowska, Investigation of Acidic Solutions by Potentiometric Taste Sensor with all Solid State Electrodes, M. Miśniakiewicz, S. Popek, Eds., Polish Society of Commodity Science, Kraków, 2014, pp. 161–171.
28. V.L. Singleton, J.A. Rossi, Colorimetry of total phenolics with phosphomolybdic-phosphotungstic acid reagents, Am. J. Enol Vitic., 16 (1965) 144–158.
29. ISO 6658:2017 Sensory Analysis, Methodology, General Guidance, Geneva, Switzerland.
30. H. Abdi, L.J. Williams, Principal Component Analysis, John Wiley & Sons Inc., 2 (2010) 433–458. Available at: https://www. webpages.uidaho.edu/~stevel/519/PCA_Abdi.pdf.
31. K. Toko, Taste sensor with global selectivity, Mater. Sci. Eng., 4 (1996) 69–82.