Biopitting Knowpia

Biopitting is a geologic phenomenon that occurs when small pits are created in rock as a result of the bioerosion induced by different organisms and/or microorganisms (for example, fungi, bacteria, algae, lichens). This phenomenon occurs when the organisms grow on or near the surface of rocks.

Etymology edit

The terms biopit and biopitting were introduced in 1981 to describe biologically induced decay phenomena.^[1] The terms have since been adopted by other authors to describe similar occurrences.^{[citation needed]}

Physical Process edit

Biopits are classified according to origin, shape (irregular, circular, ovoid), surface size (3 mm to 15 mm), and depth (range 1 to 5 mm).^[2]

Biopit formation by fungal organisms occurs via active penetration of the rock without previous activity by other organisms or physicochemical decay. The resulting bioerosion process occurs in several stages.^[2]

Prepenetration stage – The fungal cells reach the substratum, where appressoria (organs of attachment and absorption) are developed.
Penetration stage – Thin hyphae extend from the fungal organisms into the inner part of the rock.
Postpenetration stage – The penetration hyphae follow the fissures and cavities of the rock to reach internal hollows and cavities. At this stage, new colonies start to develop during what is referred to as the postpenetration stage. Subsequently, the internal colonies expand to much larger sizes than the superficially visible colonies.

Following the initial invasive attachment and growth, biomass increase and turgor pressure from the expanding hyphae can promote the loosening of rock crystals, which will eventually fall off of the main rock formation. These events occur in a progressive fashion, creating continuous cycles of penetration-decohesion-material loss and eventually leading to the appearance of multiple pits in the rock surface.^[3]

Since different organisms grow at varied rates, and in an assortment of growth patterns, the type and shape of the resulting biopits often corresponds to the fungal taxa present in the rock.

References edit

^ Krumbein, WE; Jens, K (1981). "Biogenic rock varnishes of the negev desert (Israel) an ecological study of iron and manganese transformation by cyanobacteria and fungi". Oecologia. 50 (1): 25–38. Bibcode:1981Oecol..50...25K. doi:10.1007/bf00378791. PMID 28310059. S2CID 27020398.
^ ^a ^b Sterflinger, Katja; Krumbein, Wolfgang E. (1997). "Dematiaceous fungi as a major agent for biopitting on Mediterranean marbles and limestones". Geomicrobiology Journal. 14 (3): 219–230. Bibcode:1997GmbJ...14..219S. doi:10.1080/01490459709378045.
^ McIlroy de la Rosa, John P; Warke, Patricia A; Smith, BErnard J (2012). "Microscale biopitting by the endolithic lichen Verrucaria baldensis and its proposed role in mesoscale solution basin development on limestone". Earth Surface Processes and Landforms. 37 (4): 374–384. Bibcode:2012ESPL...37..374M. doi:10.1002/esp.2244. S2CID 128780407.

[1] Krumbein, WE; Jens, K (1981). "Biogenic rock varnishes of the negev desert (Israel) an ecological study of iron and manganese transformation by cyanobacteria and fungi". Oecologia. 50 (1): 25–38. Bibcode:1981Oecol..50...25K. doi:10.1007/bf00378791. PMID 28310059. S2CID 27020398.

[Sterflinger-2] Sterflinger, Katja; Krumbein, Wolfgang E. (1997). "Dematiaceous fungi as a major agent for biopitting on Mediterranean marbles and limestones". Geomicrobiology Journal. 14 (3): 219–230. Bibcode:1997GmbJ...14..219S. doi:10.1080/01490459709378045.

[3] McIlroy de la Rosa, John P; Warke, Patricia A; Smith, BErnard J (2012). "Microscale biopitting by the endolithic lichen Verrucaria baldensis and its proposed role in mesoscale solution basin development on limestone". Earth Surface Processes and Landforms. 37 (4): 374–384. Bibcode:2012ESPL...37..374M. doi:10.1002/esp.2244. S2CID 128780407.

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Summary

Etymology edit

Physical Process edit

References edit