Paleoenvironment and age of Los Monos Formation (Devonian), Tarija Basin, Argentina and Bolivia

Autores/as

  • Juan Gonzalo Veizaga Saavedra Cátedra de Estratigrafía y Geología Histórica. Consejo Nacional de Investigaciones Científicas y Técnicas/Universidad Nacional de Salta
  • Daniel Gustavo Poiré Centro de Investigaciones Geológicas, UNLP-CONICET, La Plata.
  • Gustavo Dardo Vergani Pluspetrol
  • José Antonio Salfity Universidad Nacional de Salta; CONICET
  • Claudia Viviana Rubinstein Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales (IANIGLA), CCT-CONICET. Mendoza
  • Miguel Perez Leyton Palinólogo independiente, Santa Cruz de la Sierra, Casilla Correo 5670, Bolivia.

Palabras clave:

Los Monos shale, lithofacies, palynofacies, clay mineral assemblages, late Eifelian-early to middle Givetian, sub-Andean ranges

Resumen

The objective of this work is to discuss the paleoenvironment and age of the Los Monos Formation, in outcrop and subsurface, along a regional transect (west-east) in the southern sector of the Tarija basin. The lithofacies and ichnofacies of the Alarache, Angosto del Pescado and Balapuca outcrops and core-intervals of the Aguas Blancas xp-13, Ramos x-12, Tartagal x-1 and Tonono x-1 boreholes were analyzed. The definition of lithofacies and ichnofacies allowed us to interpret a shallow to outer shelf paleoenvironment (from the offshore-transition, offshore and shelf). Towards the top of the Tonono Formation, the equivalent of the Los Monos Formation in the Chaco-Salteño was defined as a brackish-waters marginal-marine paleoenvironment. The mineralogy of the mentioned sections plus the Vespucio x-1 borehole was analyzed by X-ray diffraction (XRD) and scanning electron microscopy (SEM), thus the majority elements in clay minerals were also determined from EDAX. Authigenic and detrital clays from SEM-EDAX were recognized. Four clay mineral assemblages were defined (I+Ch; Ch+I; I+K; K+I), where I+K and K+I assemblages characterize the transgressive events within the basin. The palynofacies of the Balapuca, Alarache and Angosto del Pescado outcrops and samples from the Ramos xp-1002, Ramos xp-1011 and Ramos xp-1012 boreholes were defined, the dominance of terrestrial palynomorphs was identified with variable participation of marine palynomorphs, according to a shallow marine paleoenvironment with shoreline shifts. Two transgressive events were recognized during the late Eifelian-early Givetian and the late Givetian-early Frasnian, which are characterized by an increase in marine components and clay assemblages of I+K and K+I. The palynological associations point to a late Eifelian-early to middle Givetian age for the Los Monos Formation in the study area. The analysis of illite crystallinity and expansive layers in the mixed-layer IS indicated advanced diagenesis for the unit, from late mesodiagenesis (Tonono x-1 and Vespucio x-1) to telodiagenesis (Balapuca and Ramos), according to the final stage of oil generation window to gas generation window, respectively. Finally, based on the mineral composition with a predominance of quartz (>70% in average) and low content of clays (<20% in average), thermal maturity in oil and gas window, the important thickness in the subsurface (700-1000 meters) and significant lateral continuity (>100 km2), the unit has some of the attributes to be considered as a potential shale-type unconventional reservoir.

Citas

Aceñolaza, F.G., L.A. Buatois, M.G. Mángano, S.B. Esteban, M.F. Tortello, and G.F. Aceñolaza, 1999. Cámbrico y Ordovícico del noroeste argentino. In Geología Argentina. Instituto de Geología y Recursos Minerales, Anales (Vol. 29, No. 7, pp. 169-187).

Albariño, L., A. Dalenz-Farjat, L. Álvarez, R. Hernández and M. Pérez-Leyton, 2002. Las Secuencias Sedimentarias del Devónico en el Subandino Sur y el Chaco. Bolivia y Argentina. In V Congreso de Exploración y Desarrollo de Hidrocarburos (pp. 687-748).

Álvarez, L. A., A. Dalenz-Farjat, R. M. Hernández and L. Albariño, 2003. Integración de facies y biofacies en un análisis secuencial en plataformas clásticas devónicas del sur de Bolivia y noroeste argentino. Latin American Journal of Sedimentology and Basin Analysis, 10(2), 103-121.

Aoyagi, K., and T. Kazama, 1980. Transformational changes of clay minerals, zeolites and silica minerals during diagenesis. Sedimentology, 27(2), 179-188.

Aparicio González, P.A., N. Uriz, J. Arnol, C.M. Dopico, E.L. Cayo, C. Cingolani, A. Impiccini and M.A.S. Basei, 2020. Sedimentary provenance analysis of the ordovician to devonian siliciclastic units of the Subandean Ranges and Santa Barbara System, northwestern Argentina. Journal of South American Earth Sciences, p.102629.

Aramayo Flores, F., 1989. El cinturón plegado y sobrecorrido del norte argentino. Boletín de Informaciones Petroleras, Tercera Época, 17, 2-16.

Arispe, O. and E. Díaz-Martínez, 1996. Facies y ambientes sedimentarios del Silúrico y Devónico inferior de Bolivia. Simpósio Sul Americano do Siluro-Devoniano, Ponta Grossa, Brazil. Anais, 247-261.

Astini, R.A. and L.F. Marengo, 2006. Paleoambientes y estratigrafía secuencial de depósitos marinos marginales del Ordovícico de la sierra de Zapla (Sierras Subandinas, noroeste argentino) y su relación con la Cuenca Andina Central. Revista geológica de Chile, 33(2), 247-276.

Benedetto, J. L., K. Halpern, S.G. de la Puente and C.R. Monaldi, 2015. An in situ shelly fauna from the lower Paleozoic Zapla diamictite of northwestern Argentina: Implications for the age of glacial events across Gondwana. Journal of South American Earth Sciences, 64, 166-182.

Binnion, M., 2012. How the technical differences between shale gas and conventional gas projects lead to a new business model being required to be successful. Marine and Petroleum Geology, 31(1), 3-7.

Biscaye, P.E., 1965. Mineralogy and sedimentation of recent deep-sea clay in the Atlantic Ocean and adjacent seas and oceans. Geological Society of America Bulletin, 76(7), 803-832.

Bosetti, E. P., Y. Grahn, R.S. Horodyski, P.M. Mauller, P. Breuer and C. Zabini, 2011. An earliest Givetian “Lilliput Effect” in the Paraná Basin, and the collapse of the Malvinokaffric shelly fauna. Paläontologische zeitschrift, 85(1), 49-65.

Boso, M. and C.R. Monaldi, 1987. Estratigrafía y sedimentología de los depósitos silúricos ferriferos del norte argentino. Tercer informe parcial (inédito). CONICET, Buenos Aires.

Bossi G., 1983. Tempestitas en la Formación Iquiri en la Angostura del rio Piraí (Departamento de Santa Cruz-Bolivia). Unión Internacional de Ciencias Geológicas, Programa Internacional de Correlación Geológica. Proyecto 193 "Silúrico y Devónico de América Latina", II Reunión Internacional, Sucre, Bolivia.

Bowker, K.A., 2007. Barnett shale gas production, Fort Worth Basin: Issues and discussion. AAPG bulletin, 91(4), 523-533.

Breuer, P. and Y. Grahn, 2011. Middle Devonian spore stratigraphy in the eastern outcrop belt of the Parnaíba Basin, northeastern Brazil. Revista Española de Micropaleontología, 43(1), 19.

Breuer, P. and P. Steemans, 2013. Devonian Miospores from Northwestern Gondwana. Special Papers Palaeontology, 89, 1-163.

Brindley, G.W. and G. Brown, 1980. Quantitative X-ray mineral analysis of clays. Crystal structures of clay minerals and their X-ray identification, 5, 411-438.

Britt, L.K. and J. Schoeffler, 2009. The geomechanics of a shale play: what makes a shale prospective? In SPE eastern regional meeting. Society of Petroleum Engineers.

Buatois, L.A., M.K. Gingras, J. MacEachern, M.G. Mángano, J.P Zonneveld, S.G. Pemberton and A. Martin, 2005. Colonization of brackish-water systems through time: evidence from the trace-fossil record. Palaios, 20(4), 321-347.

Buatois, L.A., S. Angulo M.G. Mangano, 2013. Onshore expansion of benthic communities after the Late Devonian mass extinction. Lethaia, 46(2), 251-261.

Burst, J. F., 1965. Subaqueously formed shrinkage cracks in clay. Journal of Sedimentary Research, 35(2).

Cattaneo, A. and R.J. Steel, 2003. Transgressive deposits: a review of their variability. Earth-Science Reviews, 62(3-4), 187-228.

Chamley, H., 1997. Clay mineral sedimentation in the ocean. In Soils and sediments (pp. 269-302). Springer, Berlin, Heidelberg.

Cruz, C.E., L. Albariño, C.A. Sylwan and H.J. Villar, 2001. Source Rocks and Hydrocarbons South of the Santa Cruz Elbow, Bolivia and Northwestern Argentina. In AAPG Annual Meeting 2001.

Dalenz-Farjat, A., 2000. Taxonomía, Paleoecología y Paleogeografía de Moluscos Bivalvos del Siluro-Devónico del Altiplano, Cordillera Oriental, Interandino y Subandino de Bolivia (Doctoral dissertation, Tesis Doctoral, Universidad Nacional de Córdoba. Tomos I y II. 351 pp. (Inédito).

Dalenz-Farjat, A., L.A. Álvarez, R.M. Hernández and L.M. Albariño, 2002. Cuenca Siluro-Devónica del sur de Bolivia y del noroeste argentino: algunas interpretaciones. In V Congreso de Exploración y Desarrollo de Hidrocarburos (pp. 222-248).

Dalenz-Farjat, A., M.S. Riglos and J.L. Ortiz, 2019. Silurian and Devonian Autobranchia Grammysiidae Bivalves from Bolivia. Ameghiniana, 56(5), 402-421.

Dalmayrac, B., G. Laubacher, R. Marocco, C. Martinez and P. Tomasi, 1980. La chaine hercynienne d'amerique du sud structure et evolution d'un orogene intracratonique. Geologische Rundschau, 69(1), 1-21.

De la Puente, G.S. and C.V. Rubinstein, 2013. Ordovician chitinozoans and marine phytoplankton of the Central Andean Basin, northwestern Argentina: a biostratigraphic and paleobiogeographic approach. Rev. Palaeobot. Palynol. 198, 14-26.

Di Pasquo, M.M., 2005. Resultados palinológicos preliminares de estratos del Devónico y Carbonífero en el perfil de Balapuca, sur de Bolivia. In Congreso Geológico Argentino (No. 16, pp. 293-298).

Di Pasquo, M.M., 2007a. Asociaciones palinológicas en las formaciones Los Monos (Devónico) e Itacua (Carbonífero Inferior) en Balapuca (cuenca Tarija), sur de Bolivia. Parte 1. Formación Los Monos. Andean Geology, 34(1), 97-137.

Di Pasquo, M.M., 2007b. Asociaciones palinológicas en las formaciones Los Monos (Devónico) e Itacua (Carbonífero Inferior) en Balapuca (Cuenca Tarija), sur de Bolivia: Parte 2. Asociaciones de la Formación Itacuae interpretación estratigráfica y cronología de las formaciones Los Monos e Itacua. Revista geológica de Chile, 34(2), 163-198.

Di Pasquo, M.M., C.R. Amenábar and S. Noetinger, 2009. Middle Devonian microfloras and megafloras from western Argentina and southern Bolivia: their importance in the palaeobiogeographical and palaeoclimatic evolution of western Gondwana. Geological Society, London, Special Publications, 314(1), 193-213.

Di Pasquo, M.M., S. Noetinger, P. Isaacson, G. Grader, D. Starck, E. Morel y H.A. Folnagy, 2015. Mid-Late Devonian assemblages of herbaceous lycophytes from northern Argentina and Bolivia: Age assessment with palynomorphs and invertebrates and paleobiogeographic importance. Journal of South American Earth Sciences, 63, 70-83.

Díaz-Martínez E., R. Limachi, V.H. Goitia, D. Sarmiento, O. Arispe and R. Montesinos, 1996. Relación entre Tectónica y Sedimentación en la Cuenca de Antepaís del Paleozoico medio de los Andes centrales de Bolivia (14 a 22°S). XII Congreso Geológico Bolivia: 97-102.

Díaz-Martínez, E. and Y. Grahn, 2007. Early Silurian glaciation along the western margin of Gondwana (Peru, Bolivia and northern Argentina): Palaeogeographic and geodynamic setting. Palaeogeography, Palaeoclimatology, Palaeoecology, 245(1-2), 62-81.

Disalvo A. and H. J. Villar, 1999. Los sistemas petrolíferos del área oriental de la cuenca Paleozoica Noroeste, Argentina, IV Congreso de Exploración y Desarrollo de Hidrocarburos, IAPG, Actas Trabajos Técnicos, Mar del Plata.

Do Campo, M., B. Bauluz, C. Del Papa, T. White, A. Yuste and M.J. Mayayo, 2018. Evidence of cyclic climatic changes recorded in clay mineral assemblages from a continental Paleocene-Eocene sequence, northwestern Argentina. Sedimentary Geology, 368, 44-57.

Dott Jr, R. H. y J. Bourgeois, 1982. Hummocky stratification: significance of its variable bedding sequences. Geological Society of America Bulletin, 93(8), 663-680.

Duke, W.L., R.W.C. Arnott and R.J. Cheel, 1991. Shelf sandstone and hummocky cross-stratification: new insights on a stormy debate. Geology, 19(6), 625-628.

De Segonzac, G.D., 1970. The transformation of clay minerals during diagenesis and low?grade metamorphism: a review. Sedimentology, 15(3?4), 281-346.

Ekdale, A. A., 1985. Paleoecology of the marine endobenthos. Palaeogeography, Palaeoclimatology, Palaeoecology, 50(1), 63-81.

Escayola, M. P., C.R. van Staal and W.J. Davis, 2011. The age and tectonic setting of the Puncoviscana Formation in northwestern Argentina: An accretionary complex related to Early Cambrian closure of the Puncoviscana Ocean and accretion of the Arequipa-Antofalla block. Journal of South American Earth Sciences, 32(4), 438-459.

Esquevin, J., 1969. Influence de la composition chimique des illites sur leur cristallinité. Bull. Centre Rech. Pau-SNPA, 3(1), 147-153.

Fernández-Seveso, F., M.C. Vistalli and R.F. Viñes, 1998. The Silurian–Devonian Chaco Basin: a review for reservoir correlation in Argentina and Bolivia. In Extended Abstracts Volume: AAPG International Conference and Exhibition (pp. 452-453).

Fernández-Seveso, F., M.C. Vistalli and R.F. Viñes, 2000. Correlación de reservorios en la cuenca silúrica-devónica del Chaco: Una revisión integrada previa a la adquisición de bloques exploratorios en Bolivia. Boletín de Informaciones Petroleras: Tercera Época 17.61 (2000): 152-166.

Frey, R. W. y R.G. Ring, 1992. Marine event beds and recolonization surfaces as revealed by trace fossil analysis. Geological Magazine, 129(3), 325-335.

Galloway, W.E., 1989. Genetic stratigraphic sequences in basin analysis I: architecture and genesis of flooding-surface bounded depositional units. AAPG bulletin 73.2: 125-142.

García Muro, V. J., Rubinstein, C. V., Camina, S. C, Vergani, G. and Pereira, M., 2020. Palynology and organic geochemistry of an Early to Middle Devonian succession from TCB X-1001– Tacobo borehole, sub-Andean basin, southern Bolivia. Journal of South American Earth Sciences. In press.

Grahn, Y., 2002. Upper Silurian and Devonian Chitinozoa from central and southern Bolivia, central Andes. Journal of South American Earth Sciences, 15(3), 315-326.

Grahn, Y., 2005. Devonian chitinozoan biozones of Western Gondwana. Acta Geologica Polonica 55: 211-227.

Grahn, Y., 2006. Ordovician and Silurian chitinozoan biozones of Western Gondwana. Geol. Mag. 143 (4): 509-529.

Grahn, Y., P.M. Mauller, S. Bergamaschi and E.P. Bosetti, 2013. Palynology and sequence stratigraphy of three Devonian rock units in the Apucarana Sub-basin (Paraná Basin, south Brazil): additional data and correlation. Review of Palaeobotany and Palynology, 198: 27-44.

Holanda, W., A.C. dos Santos, L.C. Bertolino, S. Bergamaschi, R. Rodrigues, D.F. da Costa and C.M. Jones, 2019. Paleoenvironmental, paleoclimatic and stratigraphic implications of the mineralogical content of the Irati Formation, Paraná Basin, Brazil. Journal of South American Earth Sciences, 94, 102243.

Hower, J., E.V. Eslinger, M.E. Hower and E.A. Perry, 1976. Mechanism of burial metamorphism of argillaceous sediment: 1. Mineralogical and chemical evidence. Geological Society of America Bulletin, 87(5), 725-737.

Isaacson, P.E., 2007. Mid-Paleozoic biogeography of the central Andes: endemic faunas, immigrants, and paleogeography. In: Díaz-Martínez, E., Rábano, I. (Eds.), 4th European Meeting on the Palaeontology and Stratigraphy of Latin America: Cuadernos Del Museo Geominero, pp. 213–218.

Jarvie, D.M., R.J. Hill, T.E. Ruble and R.M. Pollastro, 2007. Unconventional shale-gas systems: The Mississippian Barnett Shale of north-central Texas as one model for thermogenic shale-gas assessment. AAPG bulletin, 91(4), 475-499.

Johnson, J.G., G. Klapper and C.A. Sandberg, 1985. Devonian eustatic fluctuations in Euramerica. Geological Society of America Bulletin, 96(5), 567-587.

Ko?tonik, K., P. Isaacson, A. Pisarzowska, M. Paszkowski, C. Augustsson, M. Szczerba, J. Slama, B. Budzy?, M. Stachacz and W. Krawczy?ski, 2019. Provenance of upper Paleozoic siliciclastics rocks from two high-latitude glacially influenced intervals in Bolivia. Journal of South American Earth Sciences, 92, pp.12-31.

Kubler, B., 1966. La cristallinité de l'illite et les zones tout à fait supérieures du métamorphisme. Colloq. étages tectoniques, Nêuchatel 105-122.

Limachi, R., V.H. Goitia, D. Sarmiento, O. Arispe, R. Montecinos, E. Díaz-Martínez, A. Dalenz-Farjat, N. Liachenco, M. Pérez-Leyton and E. Aguilera, 1996. Estratigrafía, geoquímica, correlaciones, ambientes sedimentarios y bioestratigrafía del Silúrico-Devónico de Bolivia. XII Congreso Geológico de Bolivia. Tarija, Bolivia. Memorias, 183-197.

MacEachern, J. A. and Pemberton, S. G., 1992. Ichnological aspects of Cretaceous shoreface successions and shoreface variability in the Western Interior Seaway of North America.

MacEachern, J. A. and S.G. Pemberton, 1994. Ichnological aspects of incised-valley fill systems from the Viking Formation of the Western Canada Sedimentary Basin, Alberta, Canada.

MacEachern, J. A., S.G. Pemberton, M.K. Gingras and K.L. Bann, 2007. The ichnofacies paradigm: a fifty-year retrospective. In Trace fossils (pp. 52-77). Elsevier.

Martineau, D.F., 2001. Newark east. Barnett Shale field, Wise and Denton counties, Texas.

Melo, J.H.G., 2005. Palynostratigraphy of some Paleozoic rock units of Bolivia: additional results. IV Congreso de Exploración y Desarrollo de Hidrocarburos. CD Trabajos Técnicos. Mar del Plata

Melo, J.H.G and S. Loboziak, 2003. Devonian–Early Carboniferous miospore biostratigraphy of the Amazon Basin, Northern Brazil. Review of Palaeobotany and Palynology, 124(3-4), 131-202.

Miranda, A. P., C.S. Cruz, J.H. Melo and J. Oller, 2003. Sequence Stratigraphy of the Late Silurian-Devonian Subandean Basin in Southern Bolivia and Northern Argentina. In VIII Simposio Bolivariano-Exploracion Petrolera en las Cuencas Subandinas (pp. cp-33). European Association of Geoscientists & Engineers.

Molyneux, S.G., A. Le Hérissé and R. Wicander, 1996. Chapter 16, Paleozoic Phytoplancton, in: Jansonius, J. y D.C. Mc Gregor (ed.) Palynology: principles and applications. American Association of Stratigraphic Palynologists Foundation, 2: 493-529.

Montemurro, G., 1994. Estratigrafía y ambiente sedimentario del Silúrico y Devónico en la cuenca del Chaco Boliviano. In XI Congreso Boliviano de Geología, p. 151–160.

Moore, D. M. and R.C. Reynolds Jr, 1997. X-ray Diffraction and the Identification and Analysis of Clay Minerals.

Noetinger, S., 2010. Middle-upper devonian palynoflora from the Tonono x-1 borehole, salta province, northwestern Argentina. Ameghiniana, 47(2), 165-184.

Noetinger, M.S. and M. Di Pasquo Lartigue, 2010. Palynomorphs from abra límite, zenta range, Eastern Cordillera, Northwestern Argentina.

Noetinger, S. y M. M. di Pasquo, 2011. Devonian palynological assemblages from the San Antonio x-1 borehole, Tarija Basin, northwestern Argentina. Geologica Acta: an international earth science journal, 9(2), 199-216.

Noetinger, S., 2015. Spore diversity trends in the Middle Devonian of the Chaco-Salteño Plain, northwestern Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology, 417, 151-163.

Noetinger, S., M. di Pasquo and D. Starck, 2018. Middle-Upper Devonian palynofloras from Argentina, systematic and correlation. Review of Palaeobotany and Palynology, 257, 95-116.

Ottone, E. G., 1996. Devonian palynomorphs from the Los Monos formation, Tarija basin, Argentina. Palynology, 20(1), 105-155.

Paris, F., 1981. Les chitinozoaires dans le Paléozöique du sud-ouest de l’Europe (cadre géologique – étude systématique – biostratigraphie). Mém. Soc. Géol. Minéral. Bretagne. 26: 1-496.

Paris, F., T. Winchester-Seeto, K. Boumendjel and Y. Grahn., 2000. Toward a global biozonation of Devonian chitinozoans. Cour. Forsch.-Inst. Senckemberg, 220: 39-55.

Perez-Leyton, M.A., 2007. Analyse des assemblages de palynomorphes du Silurien supérieur et du Dévonien de Bolivie: proposition de mise en place d'une échelle biostratigraphique de reference. Tesis de Doctorado Universidades de Brest y Lieja (Inédita), 1-319.

Perez-Leytón, M.A., 2010. Informe Palinológico Final de los pozos Ramos: PLUE. ST.R-XP 1012, R-XP 1012 ST1, R-XP 1012 ST2, PLUE.ST.R-XP 1002, PLUE.ST.RXP 1010, PLUE.ST.XP 1011, R-X11; Perfiles de Alarache, Arasayal, Balapuca, Lipeo, Iruya, Angosto del Pescado, Alisal, y un perfil sin datos de nombre ni ubicación, Yacimiento Ramos, Argentina. Reporte Interno Pluspetrol.

Perez-Leytón, M.A., 2014. Informe Palinológico Final de muestras de superficie de los perfiles de Alarache y Balapuca. Reporte Interno Pluspetrol.

Pérez Altamar, R. and K. Marfurt, 2014. Mineralogy-based brittleness prediction from surface seismic data: Application to the Barnett Shale. Interpretation, 2(4), T1-T17.

Pierce, J. W. and F.R. Siegel, 1969. Quantification in clay mineral studies of sediments and sedimentary rocks. Journal of Sedimentary Research, 39(1), 187-193.

Plummer, P.S. and V.A. Gostin, 1981. Shrinkage cracks; desiccation or synaeresis? Journal of Sedimentary Research, 51(4), 1147-1156.

Ramos, V. A. and B. Coira, 2008. Evolución tectónica preandina de la provincia de Jujuy y áreas aledañas. In XVIII Congreso Geológico Argentino (pp. 401-415).

Richardson, J.B. y D.C. McGregor, 1986. Silurian and Devonian spore zones of the Old Red Sandstone continent and adjacent regions. Bulletin of the Geological Survey of Canada, 384, 1–79.

Rubinstein, C.V., 2005. Ordovician to Lower Silurian palynomorphs from the Sierras Subandinas (Subandean ranges), northwestern Argentina: a preliminary report. Carnets de Géologie — Notebooks on Geology, Memoir 2005/02, Abstract 09, 51–56

Sánchez, M. C. and J.A. Salfity, 1999. La cuenca cámbrica del Grupo Mesón en el Noroeste Argentino: desarrollo estratigráfico y paleogeográfico. Acta geológica hispánica, 123-139.

Schultz, L. G., 1964. Quantitative interpretation of mineralogical composition from X-ray and chemical data for the Pierre Shale. US Geol. Surv. Prof. Pap., 391-C.

Scotese, C.R., A.J. Boucot and W.S. McKerrow, 1999. Gondwanan palaeogeography and paleooclimatology. Journal of African Earth Sciences, 28(1), 99-114.

Spalletti, L.A. and A.M.I. Rodriguez, 1981. Significado geológico de los argilominerales y ceolitas de sedimentitas volcanísticas terciarias [Formación Ñirihuau]. Provincia de Río Negro. Revista de la Asociación Geológica Argentina, 36(4).

Starck, D., 1995. Silurian - Jurassic Stratigraphy and Basin Evolution of Northwestern Argentina. En A. J. Tankard, R. Suárez-Soruco y H. J. Welsink (Eds.), Petroleum Basins of South America. American Association of Petroleum Geologists, Memoir 62:251-267.

Starck, D., 1996. Facies Continentales en el Siluro-Devónico de la Cuenca del Noroeste. Provincia de Salta, Argentina. Memorias del XII Congreso Geológico Bolivia. Tarija. P 231-238.

Streel, M., K. Higgs, S. Loboziak, W. Riegel and P. Steemans, 1987. Spore stratigraphy and correlation with faunas and floras in the type marine Devonian of the Ardenno-Rhenish regions. Review of Palaeobotany and Palynology, 50, 211-229.

Suárez Soruco, R., 1988. Estudio Bioestratigráfico del Ciclo Cordillerano de Bolivia. Tesis Academia de Ciencias.

Suárez Soruco, R., 2000. Compendio de geología de Bolivia. Revista Técnica Yacimientos Petrolíferos Fiscales Bolivianos, 18(1-2), 1-213.

Suárez-Soruco, R. and E. Díaz-Martinez, 1996: Léxico Estratigráfico de Bolivia. Revista Técnica de Yacimientos Petrolíferos Fiscales Bolivianos, 17 (1-2): 3-227.

Tyson, R. V., 1995. Abundance of organic matter in sediments: TOC, hydrodynamic equivalence, dilution and flux effects. In Sedimentary organic matter (pp. 81-118). Springer, Dordrecht.

Taylor, A. M. and R. Goldring, 1993. Description and analysis of bioturbation and ichnofabric. Journal of the Geological Society, 150(1), 141-148.

Troth, I., J.E. Marshall, A. Racey and R.T. Becker, 2011. Devonian sea-level change in Bolivia: A high palaeolatitude biostratigraphical calibration of the global sea-level curve. Palaeogeography, Palaeoclimatology, Palaeoecology, 304(1-2), 3-20.

Ulrich, A., 1892. Palaeozoische versteinerungen aus Bolivien (Vol. 1). E. Schweizerbart.

Uriz, N.J., C.A. Cingolani, M.A.S. Basei, G. Blanco, P. Abre, N.S. Portillo and A. Siccardi, A., 2016. Provenance and paleogeography of the Devonian Durazno Group, southern Paraná Basin in Uruguay. Journal of South American Earth Sciences, 66, 248-267.

Vistalli, M. C., 1999. Cuenca siluro-devónica. In XIV Congreso Geológico Argentino (pp. 168-184).

Vistalli, M. C., R. Hernández, A. Disalvo, D. Starck and C. Sylwan, 2005. Cuencas paleozoicas del noroeste argentino. In Frontera Exploratoria de la Argentina. VI Congreso de Exploración y Desarrollo de Hidrocarburos (pp. 41-61).

Walker, R.G. and N.P. James, 1992. Facies models: response to sea level change. Ontario: Geological Association of Canada.

Warr, L. N. and A.H.N. Rice, 1994. Interlaboratory standardization and calibration of day mineral crystallinity and crystallite size data. Journal of metamorphic Geology, 12(2), 141-152.

Zeballos, A., P. Weihed, M. Blanco and V. Machaca, 2016. Geological, mineralogical and chemical characterization of Devonian kaolinite-bearing sediments for further applications in the ceramic (tiles) industry in La Paz, Bolivia. Environmental Earth Sciences, 75(7), 546.

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Publicado

2020-11-20 — Actualizado el 2021-05-23

Cómo citar

Veizaga Saavedra, J. G., Poiré, D. G., Vergani, G. D., Salfity, J. A. ., Rubinstein , C. V. ., & Perez Leyton, M. . (2021). Paleoenvironment and age of Los Monos Formation (Devonian), Tarija Basin, Argentina and Bolivia. Latin American Journal of Sedimentology and Basin Analysis, 28(1), 1-35. Recuperado a partir de https://lajsba.sedimentologia.org.ar/index.php/lajsba/article/view/48

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