Geochemical Characteristics of Home Made Wine Produced in the Tikves Area

Boev, Ivan (2012) Geochemical Characteristics of Home Made Wine Produced in the Tikves Area. Masters thesis, University Goce Delcev Shtip.

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Abstract

In the paper GEOCHEMICAL CHARACTERISTICS OF HOME MADE WINE
PRODUCED IN THE TIKVES AREA are presented the results of the geochemical
researches of a determined quantity of homemade wine (the presence of the
elements Al, Ba, Ca, Cu, K, Mg, Mn, Na, Sr, As, Cd, Co, Cr, Ni, Pb, Zn) trough the
usage of the method ICP-AES and AAS, as well as the presence of the above
mentioned elements in the appropriate soil systems. In the paper we make a
comparison on the determined elements with the wines produced industrially in the
wineries in Republic of Macedonia.
It is believed that the wine production is as old as the civilization. The wine is
a concoction which is integral part of the human nutrition and had played a
significant role in the development of the society, religion and culture. Like any other
skill, the wine production was based on empirical conclusions, marking of some
external appearances without entering into the essence of the process. This way of
production was practiced for centuries, until Pasteur who, with his book “Study for
the wine” (1866) opened the doors of the science for understanding the processes
that happen during the wine production. The new scientific results and the technical
technological achievements are a base for a progress of each branch of the industry,
including the wine industry.
The wine as a product of the alcohol fermentation of the grape juice contains
in itself large number of compounds, out of which some are in the grape juice, while
other appeared during the alcohol fermentation, with the transformation of the sugar
in some compounds. All those compounds enter in the geochemical composition of
the wine, determining its quality which is manifested trough the organic leptical
features of the wine. For the quality of the wine, both the qualitative and the
quantitative composition are important. The determination of the geochemical
composition of the wine is made with analytical methods. Some of these analytical
methods are simple and fast, while others are complex and more time spending.
Parallel with the development of the technology for wine production, the analytical methods that determine the geochemical composition are developed as well. There
are many reasons that determine the need of wine analyses.
Some of them are the following:
- control of the process of ripening the grape, process of wine production, and wine
ageing;
- eliminating and decreasing the possibility for wine putrescence;
- improving and intervention during the production process;
- wine mixing: with precise analyses data are getting for the production of separate
wine mixtures;
- issuing certificates for wine export which anticipate detailed analyses, and certain
conditions. They are a legal regulative in each country.
The basic composition of the wine into which all the other substances are
dissolved is the water. It consists 2/3 to 4/5 of the wine, which means that in 1l wine
there are 600 to 800 ml water. One of the basic products of the sugar transformation
(glucoses and fructose) during the alcohol fermentation is the ethyl alcohol. The
volume part of the etil alcohol is 90 to 140 ml in 1 l, t.e. 9% to 14 %. Apart from the
ethic alchocol, there are other types of alcohol in the wine: glycerol (5-14 g l), 2,3,-
butandiol ( 0.3-1.5 g L), and traces of methanol and higher alcohols. From the
organic acids in the wine can be find the following: wine, apple, lemon, cilibar, acid,
and others. The mass concentration of the total acids in the wine ranges between
very wide limits from 4.5 to 12 g L, but in our region there is no wine with larger
quantities of the total acid of 9g l (Teran and Rizling). The concentration of the
polyphenol compounds (antocianid and tannin) in wine is from 0.1 to 4 g L. the total
nitrogen can be from the ammonia, the amino-acids and from the proteins and it
ranges until 1000 mg L. From the elements in the wine, the most present is the
Kalium, in an average amount of 1 g L, and after it, come the magnesium, calcium,
natrium and phosphorus. From the hard metals, the following are present: Fe, Cu,
Zn, Al, Co, Se, Cr, Mn, and lately there is a need of determining the elements like: Li,
B, F, Si, V, Ni, As, Sn, Pb and Hg. From the anion the most present are the
phosphates, chlorides and sulphates. The aroma substances of the wine are made
by the alchocols, aldehides, ketons, oil acids, esterites, terpenints, and others. The
wine is not rich in vitamins, but it consists of the ascorbic acid, thiamin, riboflavin,
pyridoxine, cobalamin, nicotinamid, mezoinozitol, panthoten and folic acid, i.e biotin.
Today, most attention is devoted to the link between the nature and the man.
The contamination of the environment with toxic elements which are included in the
food chain leads to piling uo in the organism. It is no longer sufficient to just
determine the total concentration because, as it is proved, the toxic depends on physical and chemical form. It is especially important for the arsenic, mercury, which
are well known toxic elements that can be find in various forms.
On the base of the conducted research it can be concluded that the presence
of some elements in traces (As, Pb, Cd, Cr, Ni) is higher in the homemade wine in
comparison with the wine produced in the wineries. This difference is a result of the
technological procedures which are applied in the technology of the wine production.
Therefore, it can be concluded that in some cases there can be find a
correlation of the presence of elements in traces in the soil systems and the same
elements in matrix in wine produced of grapes of those same soils.

Item Type: Thesis (Masters)
Subjects: Engineering and Technology > Other engineering and technologies
Divisions: Faculty of Natural and Technical Sciences
Depositing User: Sladzana Dimiskov
Date Deposited: 06 Nov 2012 13:46
Last Modified: 14 Nov 2012 12:24
URI: https://eprints.ugd.edu.mk/id/eprint/495

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