Camelia Slave – University of Agronomic Sciences and Veterinary Medicine of Bucharest, 59 Mărăști Blvd, Bucharest, Romania
DOI: https://doi.org/10.31410/ITEMA.2019.93
3rd International Scientific Conference on Recent Advances in Information Technology, Tourism, Economics, Management and Agriculture – ITEMA 2019 – Bratislava, Slovakia, October 24, 2019, CONFERENCE PROCEEDINGS published by the Association of Economists and Managers of the Balkans, Belgrade; Printed by: SKRIPTA International, Belgrade, ISBN 978-86-80194-23-3, ISSN 2683-5991, DOI: https://doi.org/10.31410/ITEMA.2019
Abstract
Geographic Information Systems allows visualization of spatial data (data with an associated
GPS location) in the form of a map and analyzes the relationships and patterns between data layers.
Geographic Information Systems (GIS) create friendly maps that are visually understood by both growers
and researchers.
By reporting different data collections in a geographic area, Geographic Information System, can help
manufacturers better understand spatial models and relationships to make management decisions. Variability
in a geographical area has economic consequences; Understanding this variability is the first
step towards efficient vineyard management.
From a digital altitude model – DEM (a grid that covers the known territory) we can deduce:- hypsometric
map, to define the area for producing certain varieties of wine vertically; soil map, to define areas
with soil type; CLC map showing the coverage of the land; relief units map, types of geomorphological
units in the study area.
The purpose of the article is to present the current situation of vineyards located in the Vrancea
County.
Keywords
Geographical Information Systems (GIS), Production, Maps, Viticulture.
References
[1] Bajocco S., De Angelis A., Perini L., Ferrara A., (2012) The impact of Land use/Land Cover
Changes on Land Degradation Dynamics. A Mediterranean case Study, Environmental
Management, May 2012, Issue 5, pp 980 -989
[2] Creasy, G. L., Creasy L. L., (2009). Crop Production Science in Horticulture, Volume 16:
Grapes. Wallingford, Oxon, GBR: CABI Publishing, p 117.
[3] Dumitriu I. C., (2008) Viticultura, Editura Ceres, Bucureşti
[4] Kasereka K., Yansheng G., Mbue I.N., Samake M., (2010) Remote sensing and geographic
information system for interfering land cover and land use change in Wuhan (China),
1987-2006 Journal of Sustainable Development, Vol 3, No. 2, pp 221 -229
[5] Leonowicz A.M., Jenny B., Humi L., – (2009) Automatic generation of hypsometric layers
for small scale maps, Computers and Geosciences 35 (10), October 2009, pp 2074 -2083
[6] Neamţu, I., (1994), Viticultura practică, Ed. Ceres, Bucureşti
[7] Patton J.C., Crawford P.V., (2013) The perception of hypsometric colours – The cartographic
Journal, volume 14, pp 115 -127
[8] Robinson, J. (1986). Vines, grapes & wines, Oxford University Press
[9] Smart, R.E., Robinson M.D., (1991), Sunlight into Wine: A Handbook for Wine-Grape
Canopy Management, Wine Titles, Hyde Park Press, Adelaide, Australia
[10] www://geo-spatial.org
[11] https://land.copernicus.eu/pan-european/corine-land-cover/clc-2000.
[12] http://www.opengis.org
[13] http://www.insse.ro/cms/
