Structural–tectonic controls and geomorphology of the karst corridors in alpine limestone ridges: Southern Carpathians, Romania

• Published in: Geomorphology (Amsterdam, Netherlands) Vol. 197; pp. 123 - 136
• Main Authors: Tîrlă, Laura, Vijulie, Iuliana
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 01.09.2013; Elsevier
• Subjects: Bogaz; Carpathians; Circular orientation data; Corridors; data collection; Earth sciences; Earth, ocean, space; Exact sciences and technology; Extensional environment; Fault; Faults; Geology; Geomorphology, landform evolution; home furnishings; Karst; karsts; Limestone; Marine and continental quaternary; morphometry; Mountains; Orientation; runoff; snowmelt; Solutionally-enlarged joints; springs (water); Statistical analysis; surface drainage; Surficial geology; valleys; Romania; Carpathians; Eastern Europe; Europe; Fault; Extensional environment; Carpathians; Solutionally-enlarged joints; Bogaz; Circular orientation data; Mesozoic; geomorphology; mountains; carbonate rocks; joints; speleothems; drainage patterns; faults; platforms; limestone; alpine environment; tectonic controls; Upper Jurassic; strike; runoff; preferred orientation; karst; carbonates; meltwater; landforms; Jurassic; sedimentary rocks; Phanerozoic; statistical analysis; valleys; landform evolution
• ISSN: 0169-555X; 1872-695X
• DOI: 10.1016/j.geomorph.2013.05.003

The relationship between surface karst development and the geological frame is widely acknowledged in the study of karst landforms. It is of considerable interest especially in alpine environments (e.g. Alpine–Dinaric–Carpathian orogenic system). Karst corridors are generally known as kluftkarren or bogaz and form by solution of limestone along a lithoclase network. The Vânturariţa-Buila Massif (Carpathians, Romania) is a typical alpine karst ridge and a former carbonate platform of Upper Jurassic age in which geologically-controlled karst features have been developing over a geologic timescale. Field research and mapping were useful in extracting geologic features. Joint- and structure-controlled karst corridors are common in the upper section of the mountain, between 1600 and 1850m. First, a complex system of lithoclases (fissures, joints and faults) occurred; then, surface runoff or meltwater solutionally enlarged them. Tension fractures strike in a northeast–southwest direction, parallel to homoclinal limestone layers. The exposed fault walls often preserve draperies and speleothem remnants. Further, statistical analysis of joint, fault and bogaz orientations has shown the close relation between the three datasets, and morphometric analysis centered only on the karst corridor system. Results derived from the statistical analysis of orientation data show that there is a strong preferred orientation of the bogaz or bogaz-like forms along the directional faults and that they commonly develop in extensional (tectonically active) environments. Additional features typical to fluviokarst are also present — subterranean connections between the karst corridors and the headwalls of the pocket valleys, generating headward recession both by continuous sapping of karst springs at the headwall base followed by collapses. An extremely poor surface drainage network developed in the upper pavement facing southeast, compared to that on the middle and lower sides. [Display omitted] •One of the limestone alpine environments in Romania was investigated in this study.•We identified, measured and mapped the structural features and karst corridors.•Statistical analysis of orientation data was a key-step of the study.•We analyzed the basic morphometry of a developed bogaz system.•Associated sub-surface karst features were helpful in tracing their evolution.