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Spatial Analysis Used in Baseline Study for the Preparation of Management Plan of Kazbegi Protected Areas

Received: 04 August 2017    Accepted: 07 August 2017    Published: 23 August 2017
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Abstract

Collected data were separated in three generalized subsystem: environment (its main elements: air, land and water) as an Abiotic subsystems; flora and fauna, as the elements of a Biotic subsystem and Cultural environment, as a third subsystem, with its historical-cultural heritage and existing infrastructure. Interpretation and evaluation of the data were made for each component (Abiotic, Biotic and Cultural) through the use of criteria of significance and description of constraints (limiting factors) which were elaborated under the project SPPA/CS/2015-5/RE1. In parallel with the studies, the structure of GIS geodatabase for the protected area was created, which consists of both base map features – GIS layers, and thematic part. The base map scale is 1:25k, the scale of thematic maps is 1:50k. Based on the study results, the recommendations were developed: on the issues of the protected area category relevance, internal zoning, use of natural resources, biodiversity protection and monitoring. These recommendations will assist in the management plan preparation process, in order to accurately define the objectives of protected area and to properly design the work of the management and staff of the protected area.

DOI 10.11648/j.earth.s.2017060501.24
Published in Earth Sciences (Volume 6, Issue 5-1, October 2017)

This article belongs to the Special Issue New Challenge for Geography: Landscape Dimensions of Sustainable Development

Page(s) 93-110
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Protected Areas, Functional-Territorial Planning of Protected Areas, Zoning, Zone, ABC Method, Abiotic, Biotic, Cultural Subsystems, Spatial Analysis, GIS Model

References
[1] Akhalkatsi M., Tarkhnishvili D., 2012, Habitats of Georgia (Habitats of Natura 2000 in Georgia are developed in the framework of the project of GTZ), Tbilisi, 118 pp.
[2] Abdaladze O., Akhalkatsi M., Nakhutsrishvili G., Smith W. K. 2005): Some Morphological Features of Betula litwinowii at Tree line in the Central Caucasus. - Proc. Georgian Acad. Sci. Biol. Ser. B, vol. 3, N 2, pp. 57-65.
[3] Abdaladze, O., Khetsuriani, L. 2003: Ecophysiological Peculiarities in Trifolium ambiguum in subalpine zone of the Central Caucasus. Bull. Georg. Acad. Sci. Vol. 167, 150-153.
[4] Abuladze A. 1990. Organization of feeding-places for large raptors // Study and protection of Birds of Prey. Moscow: 240-248 (in Russian).
[5] Abuladze A., 2013, Birds of Prey of Georgia// in Materials towards a Fauna of Georgia, Issue VI, Institute of Zoology, Ilia State University; Printing House “Lasha Khvichia”, Tbilisi: 218 pp.
[6] Agreement on Conservation of African-Eurasian Migratory Waterbirds, Appendix I&II. 1994.
[7] Arabuli A. 1989, Present condition of rare ungulate species in Georgia., All-Union USSR Conference I, Moscow (in Russian).
[8] Bakradze M., Chkhikvadze V., 1992. Checklist of Amphibians and Reptiles of Georgia. News of the Georgian Academy of Sciences, 146 (3): pp 623-628.
[9] Barthlott, W., Lauer, W., Placke, A. 1996: Global distribution of species diversity in vascular plants: towards a world map of phytodiversity. Erdkunde 50, 317-327.
[10] Bastedo, J. D., Nelson, J. G. & Theberge, J. B. Environmental Management (1984) 8: 125. https://doi.org/10.1007/BF01866933
[11] Beruchashvili N., 1995, Beruchashvili. Caucasus: Landscapes, Models, Experiments, Tbilisi, UNEP-GRID, (In Russian).
[12] Beruchashvili N. L, 1983, Landscape Map of Georgia, N., Types of Vertical Structure of Natural-territorial Complexes. Tbilisi: TSU, Fund material. Scale 1: 500,000 (In Russian).
[13] Beruchashvili N., 1979, Landscape Map of Caucasus. Tbilisi: TSU, 1979. Scale 1:1,000,000.
[14] Bukhnikashvili A., Kandaurov A., Natradze I., 2008, Action Plan for Georgian Bats //Campester, Tbilisi, Georgia, “Uuniversali”: 103.
[15] Bukhnikashvili. A. 2004. On Cadastre of Small Mammals (Insectivora, Chiroptera, Lagomorpha, Rodentia) of Georgia.// Publ. House “Universal”. Tbilisi: 132 pp.
[16] Bukhnikashvili A., Kandaurov A., 2002, "The Annotated List of Mammals of Georgia" //Proceedings of the Institute of Zoology of Academy of Sciences of the Georgia, Metsniereba, Tbilisi, vol. XXI: 319 – 340.
[17] Bukhnikashvili A., Kandaurov A., 1998. The Threatened and insufficiently studied species (Insectivora, Rodentia).// Tbilisi: 56 pp., 27 maps.
[18] Canter, Larry W, "Environmental Impact Assessment.", 2nd edition, 1996, pp. 660.
[19] Gagnidze, 2005. Vaskular Plants of Georgia. A Nomenclatural Checklist. Tbilisi.
[20] Gavashelishvili, A. 2009. GIS-based Habitat Modeling of Mountain Ungulate species in the Caucasus Hotspot. Pp: 74-82. In: Zazanashvili, N. & Mallon, D. (Eds) Status and Protection of Globally Threatened Species in the Caucasus. Tbilisi: CEPF, WWF. Contour Ltd., 232 pp.
[21] Gavashelishvili, A. 2004. Habitat selection by East Caucasian tur (Capra cylindricornis). Biological Conservation 120: 391-398.
[22] Gurielidze Z., 1997. Large Mammals (Carnivora, Artiodactyla, Cetacea). In book: Chatwin, M. E., Kikodze, D., Svanidze, T., Chikvaidze, J., Gvritishvili, M., and Tarkhnishvili, D. (Eds.), Georgian Country Biological Diversity Study Report, (1996., Program "Assistance for preparation of Biodiversity Country Study in the Republic of Georgia"), UNEP, Ministry of Environment of Georgia, Noah's Ark Centre for Recovery of Endangered Species; 1997, Tbilisi, Georgia: 74-82. (in Georgian).
[23] IUCN. 2014. Consultation Document on an IUCN Standard for the Identification of Key Biodiversity Areas.
[24] IUCN. 2006. 2006 IUCN Red List of Threatened Species. [www.iucnredlist.org].
[25] IUCN. 2001. IUCN Red List Categories and Criteria – version 3.1. Gland, Switzerland and Cambridge, UK: IUCN.
[26] Janashvili A., 1963. Animals of Georgia, Vol. III - Vertebrates. Tbilisi.
[27] Jedrzejewski W., Nowak S., Kurek R., Myslajek R., Stachura K., Zawadzka B., Pchalek, 2009. Animals and Roads/ Methods of mitigating the negative impact of roads on wildlife. Mammal Research Institute, Polish Academy of Sciences, Bialowieza; Pp. 94.
[28] Joerin, F. and Musy, A. (2000). “Land Management with GIS and Multicriteria Analysis.” International Transactions in Operational Research. 7 (2000) 67-78.
[29] Kandaurov A. (editor); Yavruyan E., Rakhmatulina I., Bukhnikashvili A., Kandaurov A., Natradze I., Gazaryan S., 2008, Bats Conservation Action Plan for the Caucasus, Tbilisi, Publishing House “UNIVERSAL”, 87 pp. (Engl.).
[30] Ketskhoveli, N. (1960) Georgia’s Vegetation Cover. Tbilsi: Metsniereba. (in Georgian).
[31] Kharadze, А. 1960: Endemic hemi-xerophilous element of the Greater Caucasus. Botany Isuues 5, 115-126. (in Russian)
[32] Kharadze, A. (1946) For Studies of the Peri-glacial Vegetation of the Central Greater Caucasus. Bull. Georg. Acad. Sci. 7. p. 9-10.
[33] Khetsuriani, L. 1976: Eco-physiological features of some plants of the Central Greater Caucasus. Academy of Sciences of the GSSR Press. Series Biology, volume 2, 4: 352-357. (in Russian).
[34] Körner, C., Nakhutsrishvili, G. 1987: Effect of grass-mowing and grazing on water exchange in high-mountain plants. Book: Ecology of Kazbegi high mountain meadows (Central Greater Caucasus). (Editor Rabotnov, T.) Metsniereba (Science), Tbilisi. 99-120.(in Russian).
[35] Körner Ch 2012: Biological diversity – the essence of life and ecosystem functioning. Nova Acta Leopoldina 116/394: 147-159.
[36] Kutubidze, M., 1985. The Guide to the Birds of Georgia // Published by Tbilisi State University: 648 pp. + b/w ill. (in Georgian).
[37] Maidment D., Djokic D., 2000, “Hydrologic and Hydraulic Modeling Support with Geographic Information Systems” //ESRI Press.
[38] Ndubisi, Foster, 2002, Ecological planning: a historical and comparative synthesis; ISBN 0-8018-6801-7
[39] Nakhutsrishvili, G. (2013) The Vegetation of Georgia (Caucasus). Heidelberg, New York, Dortrecht, London: Springer.
[40] Nakhutsrishvili, G., Abdaladze, O. and Akhalkatsi, M. (2006) Biotope Types of the Treeline in the Central Greater Caucasus. In Gafta, D, & Akeroyd, J. (eds.): Nature Conservation. Concepts and Practice., Berlin, Heidelberg, New York: Springer.
[41] Nakhutsrishvili G., Abdaladze O., Akhalkatsi M. (2004): Global warming and Treeline. – Proc. Acad. Sci. Biol. Ser. B., vol. 2, 3-4, pp. 87-90.
[42] Nakhutsrishvili G., Abdaladze O., Akhalkatsi M. (2004): Concerning the Tree line Vegetation of the kazbegi Region (the Central Caucasus). – Bull. Georg. Acad. sci. vol. 169, 1, pp. 122-125.
[43] Nakhutsrishvili, G. (2003) High-mountain Vegetation of the Caucasus Region. In Nagy, L., Grabherr, G., Körner, CH. & Thompson, D. B. A. (eds.) Alpine Biodiversity in Europe, Ecol. Stud. 167. Berlin-Heidelberg: Springer.
[44] Nakhutsrishvili, G. 1988: The ecological characteristic of high mountain meadows’ vegetation. (an example of Kazbegi example, Central Greater Caucasus). Book: High Mountain Ecology (Editor Nakhutsrishvili). Metsniereba (Science), Tbilisi. 175-200. (in Russian).
[45] Sakhokia M., E. Khutsishvili. 1975. Conspectus Florae Plantarum Vascularium Khevi, Distr. Kazbegi, RSS Georgicae. Tbilisi.
[46] Sérusiaux, E. (1989) Liste rouge des macrolichens dans la Communauté Européenne. Liège: Université de Liège.
[47] Shidlovskiy M. V., 2013. «Insectivore and Cheiroptera of Georgia» (Faunistic profile) and «Rodents of Georgia - Faunistic composition and eco-geographical distribution», Lasha Khvichia” press, 2013, 176 pp. (in Russian).
[48] Shidlovsky M., 1976. Guide to Rodents of Transcaucasia, Second Edition. Metsniereba, Tbilisi. p. 255. (In Russian).
[49] Sokolov V., Tembotov A., 1989. Vertebrates of Caucasus, Mammals, Insectivora. Moscow, Nauka. p. 545. (In Russian)
[50] Solomon., J., Shulkina, T. and Schatz, G. E. (eds.) (2014) Red List of the Endemic Plants of the Caucasus: Armenia, Azerbaijan, Georgia, Iran, Russia and Turkey. Monographs in Systematic Botany from the Missouri Botanical Garden (MSB) 125. Saint Louis: Missouri Botanical Garden Press.
[51] Stephenson S., “Abiotic, Biotic and Cultural Resource Survey for Land Planning along the Rideau Canal”, Queen’s University, School of Urban and Regional Planning, 2011.
[52] Tarkhnishvili, D., 2012, Evolutionary History, Habitats, Diversification, and Speciation in Caucasian Rock Lizards // Advances In Zoology Research, Volume 2 (Ed. Jenkins Op), Nova Science Publishers, Hauppauge (Ny) Pp. 79-120.
[53] Tarkhnishvili D., Kandaurov A., Bukhnikashvili A., 2002, "Declines of amphibians and reptiles in Georgia during the 20th century: virtual vs. actual problems" //Zeitschrift für Feldherpetologie, 2002, № 9: 89-107.
[54] Vereshchagin N., 1959. Mammals of Caucasus - History of Faunal Development. USSR Academy of Sciences. p. 703. (In Russian).
[55] Zazanashvili, N., Gagnidze, R., and Nakhutsrishvili, G. (2000). Main Types of Vegetation Zonation on the Mountains of the Caucasus. Acta Phytogeographica Suecica 85: 7-16.
[56] Zimina R. Zlotin R. (editor), 1990, Biota of the ecosystems of the Greater Caucasus, Academy of Sciences of the USSR, "Nauka" (Science), М., 200 с. (in Russian).
[57] Zimina R. Yasnyi E., Zhuravlev M., 1988, Birds and mammals in the high mountain ecosystems of Kazbegi. Academy of Sciences of the GSSR Press. Series Biology, Tbilisi, XIV, N 4, 236-243. (in Russian).
Author Information
  • GIS and Remote Sensing Consulting Center “GeoGraphic”, Tbilisi, Georgia

  • Institute of Zoology, Ilia State University, Tbilisi, Georgia

  • Institute of Botanic, Ilia State University, Tbilisi, Georgia

  • Faculty of Exact and Natural Sciences, Ivane Javakhishvili Tbilisi State University (TSU), Tbilisi, Georgia

  • GIS and Remote Sensing Consulting Center “GeoGraphic”, Tbilisi, Georgia

  • GIS and Remote Sensing Consulting Center “GeoGraphic”, Tbilisi, Georgia

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  • APA Style

    Tamar Bakuradze, Andrei Kandaurov, Marine Mosulishvili, Dali Nikolaishvili, Mamuka Gvilava, et al. (2017). Spatial Analysis Used in Baseline Study for the Preparation of Management Plan of Kazbegi Protected Areas. Earth Sciences, 6(5-1), 93-110. https://doi.org/10.11648/j.earth.s.2017060501.24

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    ACS Style

    Tamar Bakuradze; Andrei Kandaurov; Marine Mosulishvili; Dali Nikolaishvili; Mamuka Gvilava, et al. Spatial Analysis Used in Baseline Study for the Preparation of Management Plan of Kazbegi Protected Areas. Earth Sci. 2017, 6(5-1), 93-110. doi: 10.11648/j.earth.s.2017060501.24

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    AMA Style

    Tamar Bakuradze, Andrei Kandaurov, Marine Mosulishvili, Dali Nikolaishvili, Mamuka Gvilava, et al. Spatial Analysis Used in Baseline Study for the Preparation of Management Plan of Kazbegi Protected Areas. Earth Sci. 2017;6(5-1):93-110. doi: 10.11648/j.earth.s.2017060501.24

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  • @article{10.11648/j.earth.s.2017060501.24,
      author = {Tamar Bakuradze and Andrei Kandaurov and Marine Mosulishvili and Dali Nikolaishvili and Mamuka Gvilava and Sophiko Kenkebashvili},
      title = {Spatial Analysis Used in Baseline Study for the Preparation of Management Plan of Kazbegi Protected Areas},
      journal = {Earth Sciences},
      volume = {6},
      number = {5-1},
      pages = {93-110},
      doi = {10.11648/j.earth.s.2017060501.24},
      url = {https://doi.org/10.11648/j.earth.s.2017060501.24},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.earth.s.2017060501.24},
      abstract = {Collected data were separated in three generalized subsystem: environment (its main elements: air, land and water) as an Abiotic subsystems; flora and fauna, as the elements of a Biotic subsystem and Cultural environment, as a third subsystem, with its historical-cultural heritage and existing infrastructure. Interpretation and evaluation of the data were made for each component (Abiotic, Biotic and Cultural) through the use of criteria of significance and description of constraints (limiting factors) which were elaborated under the project  SPPA/CS/2015-5/RE1. In parallel with the studies, the structure of GIS geodatabase for the protected area was created, which consists of both base map features – GIS layers, and thematic part. The base map scale is 1:25k, the scale of thematic maps is 1:50k. Based on the study results, the recommendations were developed: on the issues of the protected area category relevance, internal zoning, use of natural resources, biodiversity protection and monitoring. These recommendations will assist in the management plan preparation process, in order to accurately define the objectives of protected area and to properly design the work of the management and staff of the protected area.},
     year = {2017}
    }
    

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  • TY  - JOUR
    T1  - Spatial Analysis Used in Baseline Study for the Preparation of Management Plan of Kazbegi Protected Areas
    AU  - Tamar Bakuradze
    AU  - Andrei Kandaurov
    AU  - Marine Mosulishvili
    AU  - Dali Nikolaishvili
    AU  - Mamuka Gvilava
    AU  - Sophiko Kenkebashvili
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    PY  - 2017
    N1  - https://doi.org/10.11648/j.earth.s.2017060501.24
    DO  - 10.11648/j.earth.s.2017060501.24
    T2  - Earth Sciences
    JF  - Earth Sciences
    JO  - Earth Sciences
    SP  - 93
    EP  - 110
    PB  - Science Publishing Group
    SN  - 2328-5982
    UR  - https://doi.org/10.11648/j.earth.s.2017060501.24
    AB  - Collected data were separated in three generalized subsystem: environment (its main elements: air, land and water) as an Abiotic subsystems; flora and fauna, as the elements of a Biotic subsystem and Cultural environment, as a third subsystem, with its historical-cultural heritage and existing infrastructure. Interpretation and evaluation of the data were made for each component (Abiotic, Biotic and Cultural) through the use of criteria of significance and description of constraints (limiting factors) which were elaborated under the project  SPPA/CS/2015-5/RE1. In parallel with the studies, the structure of GIS geodatabase for the protected area was created, which consists of both base map features – GIS layers, and thematic part. The base map scale is 1:25k, the scale of thematic maps is 1:50k. Based on the study results, the recommendations were developed: on the issues of the protected area category relevance, internal zoning, use of natural resources, biodiversity protection and monitoring. These recommendations will assist in the management plan preparation process, in order to accurately define the objectives of protected area and to properly design the work of the management and staff of the protected area.
    VL  - 6
    IS  - 5-1
    ER  - 

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