Naslov
Level change in Vrgorac lake - Result of neotektonic subsidance and intensive sediment erosion

Autori
Posilović, Hrvoje ; Galović, Lidija

Vrsta, podvrsta i kategorija rada
Sažeci sa skupova, sažetak, znanstveni

Izvornik
Zbornik na trudovi, Kniga 1, Third Congress of Geologists of Republic of Macedonia, Struga / Lepitkova, Sonja ; Boev, Blažo - Skopje : Makedonsko geološko društvo, 2016, 189-190

Skup
Third Congress of Geologists of Republic of Macedonia

Mjesto i datum
Struga, Sjeverna Makedonija, 30.09.2016. - 02.10.2016

Vrsta sudjelovanja
Predavanje

Vrsta recenzije
Međunarodna recenzija

Ključne riječi
Vrgorac polje, Paleolake, water level, stromatolite, dissolution scallops

Sažetak
Based on stromatolite structures and limestone dissolution scallops, water level change in Vrgorac paleolake is reconstructed. Dissolution scallops are scallop-shaped depressions developed on the rock surface, usually up to few centimeters in diameter. Scallops develop in homogenous and fine grained material like micritic limestone. They are formed by dissolution of limestone surface in submerged conditions, especially if some sort of water flow is present. Stromatolites are laminar biomineralization structures formed in saline or fresh water by catching and binding fine sediment grains on the surface of microbial mats. Stromatolites mainly develop on cyanobacterial biofilms in the zone of constant water level fluctuation. During the Pleistocene and Holocene the depression was permanent lake with significant water level fluctuations. In the most recent time there is significant anthropogenic influence caused by digging outlet channels and tunnels through natural dams, transforming and renaming the Vrgorac Lake to Vrgorac polje. In a research presented here we are using dissolution scallops and stromatolite remains as indicators of the former water level. Water level in a lake can be expressed as absolute level (water height above the sea level), or water depth (water rise above the lake bottom). Absolute water level and water depth depend on water volume held in a lake and sediment amount at the lake bottom. Today Vrgorac polje depression is periodically flooded during the winter and autumn ; water level can reach up to ten meters above present day lake bottom. In the zone of five meters above the lake bottom, recent stromatolites and endolithic algae can be found (Figure 2a). Recent stromatolites are developed as a crust on cretaceous limestones up to 2 cm in thickness. Figure 2b shows numerous algal filaments at the contact of stromatolite crust and base rock. Position of these stromatolites is marked with T1 on Figure 1. We found stromatolite traces and dissolution scallops about 25 meters above present day lake bottom (50 m.a.s.l.) (Figure 1.). Figure 3a shows stromatolite remains and dissolution scallops found at that altitude without preserved stromatolite crust visible by naked eye. However, in thin section of the sample (Figure 3b) endolithic algae remains are still visible, but stromatolite incrustation is eroded. Position of these stromatolites is marked with T2 on Figure 1.Reasons of water level change in the Vrgorac Lake are multiple. Water dynamic in the lake was very intensive. Erosion and resedimentation of the lake sediment is evident and important factor in water level change. If intensive sedimentation occurs, water level will rise. Contrary, in the case of extensive erosion water level will drop. The most important influence on water level is neotectonic subsidence of the bottom and/or rise of the lake shore. Bottom and shore movements are result of the tectonic movements. Today Vrgorac area is among the most active neotectonic zones in Outer Dinarides.

Izvorni jezik
Engleski

Znanstvena područja
Geologija

POVEZANOST RADA