- Cave bivalves from the genus Congeria can form high density populations
- In Jama u Predolcu cave the highest recorded density was 1625 individuals per meter square
- Congeria jalzici is adapted to colder caves and higher water level oscillations then C. kusceri
- Natural hydrological conditions are entirely altered leading to Congeria being highly endangered
- Cave bivalves can survive exposure to air for more than 2 months
Caves are some of the least-known ecosystems on Earth and long-term ecological studies and population size estimates are very rare. Genus Congeria is a Tertiary relict that comprises three species from Dinaric karst area; C. kusceri, C. jalzici and C. mulaomerovici, each with very limited distribution. They are the only known cave bivalves and in contrast to many other cave species, they form populations with high densities. We estimated that the population of C. kusceri in Jama u Predolcu is between 72,454 and 72,906 individuals. The highest density occurred between one and three meters depth, and reached maximum of 1,625 individuals per square meter. Here we also present the results of a two-year water temperature and water level survey in several C. kusceri and C. jalzici localities. Data loggers showed that C. jalzici occurs in colder caves and higher water level oscillations then C. kusceri. From our data, it is obvious that the natural hydrological conditions in Congeria habitats were seriously altered. This and a series of other threats led to Congeria species being highly endangered. During low water levels, a part of the bivalve population becomes exposed to air in most localities. Uniquely, they are active during that period and are able to survive those conditions for more than 2 months.
Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial 4.0 License
Jovanović Glavaš, Olga; Branko Jalžić; and Helena Bilandžija.
Population density, habitat dynamic and aerial survival of relict cave bivalves from genus Congeria in the Dinaric karst.
International Journal of Speleology,
Available at: http://scholarcommons.usf.edu/ijs/vol46/iss1/4