J 2013

Identification of the near-surface geological structure and deposits for land use planning purposes in the Doubrava Region (Czech Republic)

MARSCHALKO, Marian, Isik YILMAZ, Martin BEDNARIK and Karel KUBEČKA

Basic information

Original name

Identification of the near-surface geological structure and deposits for land use planning purposes in the Doubrava Region (Czech Republic)

Authors

MARSCHALKO, Marian, Isik YILMAZ, Martin BEDNARIK and Karel KUBEČKA

Edition

View Journal Information, INDIA, Publisher GEOLOGICAL SOC INDIA, NO 63, 12TH CORSS, BASAPPA LAY OUT, GAVIPURAM PO, PO BOX 1922, BANGALORE, 560-019, INDIA, 2013, 0705-3797

Other information

Language

English

Type of outcome

Článek v odborném periodiku

Field of Study

20101 Civil engineering

Confidentiality degree

není předmětem státního či obchodního tajemství

Organization unit

Institute of Technology and Business in České Budějovice

UT WoS

WOS:00032242650

Keywords in English

OSTRAVA-KARVINA COALFIELD; ENGINEERING GEOLOGY; LIQUEFACTION SUSCEPTIBILITY; MINING ACTIVITY; URBAN GEOLOGY; CITY; LANDSLIDE; TURKEY; IMPACT

Tags

Tags

Reviewed
Změněno: 16/11/2014 19:39, doc. Ing. Karel Kubečka, Ph.D.

Abstract

V originále

The objective of this paper is to highlight the importance of taking engineering geological characteristics and structures into account in land use planning. There have been a number of studies worldwide dealing with this issue. However more extensive implementation into land use planning practice still remains a task for the future in many places. A case study analyzing the geological environment in relation to the sites assigned for future development according to an existing land use plan was conducted in the Doubrava Region (north-east of the Czech Republic). Here, the geological conditions have been mostly influenced by anthropogenic processes connected with black coal mining. The engineering-geological zones, the pre-Quaternary basement and rock workability classes in the localities where future development is proposed on land use plans were evaluated using overlay analysis in a Geographic Information System (GIS). Landscape factors were also taken into account. Significant variability was identified in the investigated geological factors that have a bearing on safe cost effective development. Use of the results in future land use planning would have considerable financial benefits in implementation of future built development and these important conditions should be used by architects and designers, builders, land use planners, developers and scientists.