Eighty-one karst types and their main characteristics are described in this study, including the conditions of their development, the main characteristics of their karstification and their ...characteristic features. The classification includes the karst types of the Earth, a concise description of each karst type and the possibilities of belonging to several types of various karst areas. The classification of types is hierarchical in terms of groups, subgroups, types and subtypes. Karst can be classified according to their momentary state (the group of static karst types) and to their development (group of dynamic karst types). The group of static karst types has the azonal and zonal subgroups. zonal karst types may be situated under any climate. These karst types are categorized according to their geological characteristics (age of karstification, constituting rock, extent of coveredness, structure), their elevation, expansion, the morphology of their surface, hydrology and to the effects occurring on the karst. Taking the above mentioned factors into consideration, the author distinguishes various types and describes their characteristics. Zonal karst types are also described (tundra karst, temperate karst, subtropical karst, tropical karst), karst types that can be distinguished based on their geomorphic evolution are identified and their characteristics are presented.
This study includes a general description of the Earth’s karst types based on literary data and field observations. An improved classification of karst types distinguishes the main group, group, and ...subgroup; and, a division of karst types involves a main karst type, karst type, subtype, variety, and non-individual karst type. The relation between karst type and karst area is described. The role of various characteristics of karsts in the development of primary, secondary, and tertiary karst types is analyzed. Their structure is studied, which includes a geomorphic agent, process, feature, feature assemblage, karst system and the characteristics of the bearing karst area. Dominant, tributary, and accessory features are distinguished. The conditions of the stability and the development of types are studied, transformation ways are classified, and the effect of climate on types is described.
The diversity of small, medium, and large solution features of zonal karsts and high mountain karsts is described here. It was taken into consideration how diversity changes according to the ...distance from the Equator in case of small, medium and large features of various zonal karsts and how it varies based on the distance from altitude in case of the karren features (small features) of high mountain karsts. It can be established that the diversity of karst features decreases according to the distance from the Equator (independent of the size of the features), while in high mountains the diversity of karren features first increases with altitude and then it decreases. The decrease of the diversity of medium and large features moving away from the Equator can be explained by the decrease of dissolution intensity. The diversity change of karren features shows a relation with the diversity of the inclination of the bearing slope. Since on tropical karsts and in the medium elevated areas of high mountains (1600-2100 m) where bare slopes with large expansion and various slope inclination occur, the diversity of karren is great. On tropical karsts, slopes with diverse inclination were created by karstification and in high mountains by glacial erosion.