DEVELOPMENT AND PERSPECTIVE OF RESEARCH FOR MICROBOLITES
Received date: 1995-03-15
Revised date: 1995-05-29
Online published: 1996-03-01
This paper briefs the difinition of microbolite, its research content and practical significance, divides the research history into four developmental stages,i. e.the early enlightment, controversy between palaeontologic school and actualism(sedimentary) schoo, comparative actualism(sedimentology) and microbial sedimentology, refering to the rocks, microbes, ecosystems, environments, classification and evolution of microbolites. The hot research topics of nowadays,which are microbial reefs and mounds, travertine deposits and P, Fe, Mn microbolites are also introduced.And points out developing trends about structure type,sedimentary environment,component rock and genetic index. Finally,suggests that the facing tasks are to analyse and identify fossil bacteria, microbial textures,structures and minerals, indicator elements, isotopes and biomarkers, as well as microbial ecosystems and lithogenetic and oreforming mechanisms.
Dai Yongding;Chen Meng’e;Wang Yao . DEVELOPMENT AND PERSPECTIVE OF RESEARCH FOR MICROBOLITES[J]. Advances in Earth Science, 1996 , 11(2) : 209 -215 . DOI: 10.11867/j.issn.1001-8166.1996.02.0209
[1]Burne R V, Moore I S. Microbialites; organosedimentary deposits of benthic microbial communities. Palaios, 1987,2(3):241-254.
[2]Riding R ed. Calcareous Algae and Stromatolites. Berlin:Springer-Verlag,1991. 21-51.
[3]Logan B W. Classification and environmental significance of algal stromatolites. Jour Geology. 1964,72 (1):68-83.
[4]Aitken J D. Classification and environmental significance of cryptoalgal limestone and dolomites, with illustrations from the Cambrian and Ordovician of southwestern Alberta. Jour Sedimentary Petrology, I976. 37 (4):1163-1178.
[5]Pierson B K,Bauld J. Castenholz R W. Modern mat-building microbial communities, a key to the interpretation of Proterozoic stromatolitic communities. Schopf J W, Klein C ed. The Protemzoic Biosphere,A Multidisciplinary Study.Cambrige Univ Press, 1992. 245-341.
[6]Walter M R ed. Stromatolites. Amsterdam:Elsevier, 1976.790.
[7]Monty C L V. Evolving concepts on the nature and ecological significance of stromatolites. Flugel E ed. Fossil Algae.Berlin:Springer-Verlag, 1977. 15=35.
[8]Monty C L V. Phanerozoic 5tromatolites. Berlin:Springer-Verlag, 1981.249.
[9]Peryt T ed. Coated Grains. Berlin:Springer-Verlag, 1983.655.
[10]Cohen Y,Castenholz R W,Halvorson H O. Microbial Mat,Stromatolites. New York:Alan R Liss, 1992. 498.
[11]张昀.前寒武纪生命演化与化石记录.北京:北京大学出版社,1989. 221.
[12]Kahle C F. Facies and evolution of a Silurian coral-microbialite reef complex, Maumee, Ohio, USA. Jour Sedimentary Research,1994,A64 (4):711-725.
[13]Guo L, Riding R. Origin and diagenesis of Quaterary travertine shrub fabrics, Rapolano Terme, Central Italy. Sedimentolgy,1994,41(3):499-5 20.
[14]Chen Xianpei, Gao Jiyuan, Chen Duofu, et al. Geologic setting of bioreef-ehert and its mineralization. 14th ISC Abstract. Recife-Agosto, 1994. C-4.
[15]Soudry D. Primary bedded phosphorites in the Campanian Mishash Formation, Negev,Southern Israel. Sedimentory Geology, 1992,80(1):77-88.
[16]Dahanayake K,Krumbein W E. Microbial structures in ooGtic iron formations. Mineralium Deposita, 1986, 21 (2):85-94.
[17]朱士兴等.中国叠层石.天津:天津大学出版社,1993. 263.
[18]Yin Leiming. Microbiota from middle and late Proterozoic iron and manganese ore deposits in China. Spec Pub Intern Assoc Sediment,1990,11:109-118.
[19]Sun Shu, Dai Yongding, Tian Xingyou. Microbial ironstones, phosphorites and manganese carbonates in China. 14th ISC Abstract. Reeife-Agosto,1994. C-13,14.
[20]戴永定等.生物矿物学.北京:石油工业出版社,1994. 572.
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