(Abstracts excluded)
For publications on bioerosion involving cyanobacteria and cyanobacterial endoliths see: Publications on Cyanobacteria: # 11, 17, 19, 20, 23, 24, 34, 43, 44, 46, 55, 56, 58, 59, 61, 64, 67, 68, 69, 75, 78, 79, 81, 82, 84, 86, 89, 90, 91, 93, 94, 96.
Consult also publications on: Microorganisms in Sediments and Stromatolites,
and publications on more General and Aquatic ecology
Tribollet, A., Langdon, C.,
Golubic, S. & Atkinson, M. 2006. Endolithic microflora are major primary
producers in dead carbonate substrates of Hawaiian coral reefs. J. Phycol. 42: 292-303, DOI: 10.1111/j.1529-8817.2006.00198.x.
(28)
Golubic, S., Radtke, G. & Le Campion-Alsumard, T. 2005. Endolithic fungi, p. 38-48. In: Ganguli, B.N. and Deshmukh, S.K. (Eds.) Fungi: Multifaceted Microbes. Anamaya Publishers, New Delhi., in press. (27)
Glaub,
Tribollet A and Golubic S. 2005. Cross-shelf differences in the pattern
and pace of bioerosion of experimental carbonate substrates exposed for 3 years
on the northern
Radtke,
G. & Golubic, S. 2005. Microborings in mollusk shells,
Golubic, S., Radtke, G. & Le Campion-Alsumard, T. 2005. Endolithic fungi in marine ecosystems. Trends in Microbiology 13: 229-235, DOI:10.1016/j.tim.2005.03.007. (23)
Golubic, S. & Schneider, J. 2003. Microbial endoliths as internal biofilms. p. 249-263. In: Krumbein, W.E., Dornieden, T. & Volkmann, M. (Eds) Fossil and Recent Biofilms, Kluwer Publ. Co. (22)
Bentis, C.J., Kaufman, L. & Golubic, S. 2000. Endolithic fungi in reef-building corals (Order: Scleractinia) are common, cosmopolitan, and potentially pathogenic. Biological Bulletin 198: 254-260. (21)
Priess, K., Le Campion-Alsumard, T., Golubic, S., Gadel, F., & Thomassin, B.A., 2000. Fungi in corals: black bands and density-banding of Porites lutea and P. lobata skeleton. Marine Biology 136: 19-27. (20)
Vogel, K., Gektidis, M., Golubic,
S., Kiene, W.E. & Radtke, G. 2000. Experimental studies on microbial
bioerosion at
Pari, N., Peyrot-Clausade, M., Le Campion-Alsumard, T., Hutchings, P., Chazottes,
V., Golubic, S., Le Campion, J. & Fontaine, M.F. 1998. Bioerosion of
experimental substrates on high islands and on atoll lagoons (
Radtke, G., Hofmann, K. & Golubic, S. 1997. A bibliographic overview of micro- and macroscopic bioerosion. Cour. Forsch.-Inst. Senckenberg 201: 307-340. (17)
Mao-Che, L., Le Campion-Alsumard,
T., Boury-Esnault, N., Payri, C., Golubic, S. & Bezac, C. 1996.
Biodegradation of shells of the black pearl oyster Pinctada margaritifera
var cumingii, by microborers and sponges of
Radtke, G., Gektidis, M., Golubic, S., Hofmann, K., Kiene, W.E. & Le Campion-Alsumard, T. 1997. The identity of an endolithic alga: Ostreobium brabantium Weber-van Bosse is recognized as carbonate-penetrating rhizoids of Acetabularia (Chlorophyta, Dasycladales). Cour. Forsch.-Inst. Senckenberg, 201: 341-347. (15)
Le Campion-Alsumard, T., Golubic,
S. & Hutchings, P. 1995. Microbial endoliths in skeletons of live and dead
corals: Porites lobata (Moorea,
Le Campion-Alsumard, T., Golubic,
, Priess, S., 1995. Fungi in corals: symbiosis or disease? Interaction between
polyps and fungi causes pearl-like skeleton biomineralization. Mar. Ecol. Prog. Ser., 117: 137-147. (13)
Kiene, W., Radtke, G., Gektidis, M., Golubic, S. & Vogel, K. 1995. Factors controlling the distribution of microborers in Bahamian reef environments. In: Dullo, W-C., Gektidis, M., Golubic, S., Heiss, G.A., Kampmann, H., Kiene, W., Kroll, D.K., Kuhrau, M.L., Radtke, G., Reijmer, J.G., Reinicke, G.B., Schlichter, D., Schuhmacher, H. & Vogel, K. (Eds.): Factors Controlling Holocene Reef Growth: An Interdisciplinary Approach. Facies 32: 176-188.(12)
Tavernier, A. & Golubic, S.,
1993. Pliocene microboring assemblages in shells of the Purissima Formation (
Hook, J.E. & Golubic, S., 1993. Microbial shell destruction in deep-sea mussels, Florida Escarpment. P.S.Z.N.I.: Marine Ecology, 14: 81-89. (10)
Tavernier, A., Campbell, S.E. & Golubic, S., 1992. A complex marine shallow-water boring trace: Dendrorete balani n. ichnogen. et ichnospec. Lethaia, 25: 303-310. (9)
Golubic, S.,
Hook, J.E., Golubic, S. & Milliman, J.D., 1984. Micritic cement in microborings is not necessarily a shallow-water indicator. Jour. Sedim. Petrology, 54: 425-431. (7)
Campbell, S.E., Drobne, K., Golubic, S. & Cimerman F., 1983. Microborings in foraminiferal tests: an ecological and paleontological cross-reference. Rapp. Comm. int. Mer. Medit., 28: 245-246. (6)
Golubic, S., Campbell, S.E. &
Spaeth, C., 1983. Kunsharzausguesse fossiler Mikroben-Bohrgaenge (Resin-casting
of fossil microbial borings). Der Praeparator,
Campbell, S.E., Kazmierczak, J. & Golubic, S., 1979. Palaeoconchocelis starmachii gen. n., sp. n., an endolithic rhodophyte (Bangiaceae) from the Silurian of Poland. Acta Palaeontologica Polonica, 24: 405-408. (4)
Kazmierczak, J. & Golubic, S
1976. Oldest organic remains of boring algae from Polish Upper Silurian.
Nature,
Golubic, S., Brent, G. & Le Campion, T. 1970. Scanning electron microscopy of endolithic algae and fungi using a multipurpose casting-embedding technique, Lethaia, 3: 203-209. (2)
Gatrall, M. & Golubic. S., 1970. Comparative study on some Jurassic and Recent endolithic fungi using scanning electron microscope. In: Crimes, T.P. & Harper, J.C. (Eds.) Trace Fossils, Geological Journal, Special Issues, 3: 167-178. (1)
---updated Feb. 2006---
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Cyanobacteria
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