Microbial Activity in Caves−A Geological Perspective

Abstract

Caves are commonly the home of diverse microbial biotas, the sites of active mineral precipitation, and/or receptacles for the deposition of sediment. Mineral precipitation is commonly considered to be abiogenic despite the fact that microbes are present in caves, especially in the twilight zone. Detailed analysis of cave substrates from a geological perspective shows that microbes can mediate constructive (microbe calcification, trapping and binding, mediation of crystal growth) and destructive (substrate etching and breakdown) processes. Potentially these processes can significantly influence the formation and preservation of any cave deposit. Preservation of microbes is possible if mineralization takes place while the microbe is alive or shortly after its demise. If not, all record of the microbe will be lost to decay. Even if the microbes are preserved, it may be difficult to determine if they played an active or passive role in the formation of the deposits in which they are entombed. For old cave deposits, such an assessment must rely on spatial relationships and comparison of textures with those known to form as a result of microbial activity. Nevertheless, available evidence indicates that microbes can play a major role in the formation and modification of cave deposits. Equally, however, it is apparent that the full scope and impact of microbial activity on cave deposits has yet to be realized. Recognition of microbial activity in old CaCO 3 cave deposits relies on (1) documentation and recognition of mineralized microbes, (2) recognition of stromatolitic structures that formed through microbial activity, and/or (3) the identification of fabrics/textures that are known to be indicative of microbial activity. All of these criteria fundamentally rely on the interpretation of fabrics preserved in the cave deposits. Virtually all of these interpretations are open to debate.