Análisis palinológico de un homicidio en la Provincia de Buenos Aires, Argentina

Leticia Karina Povilauskas

doi:10.15260/rbc.v6i3.189

Análisis palinológico de un homicidio en la Provincia de Buenos Aires, Argentina

v. 6 n. 3 (2017)
30-36
11/07/2017
18/10/2017
10.15260/rbc.v6i3.189

Resumo

Los objetivos de esta contribución son dar a conocer las actividades desarrolladas en base a la Palinología Forense en un caso de homicidio calificado ocurrido en la Provincia de Buenos Aires, Argentina; y poner al alcance de los científicos naturalistas algunas metodologías periciales adecuadas para fomentar su participación con el fin de sumar aportes a la hora de esclarecer un crimen desde la Palinología. En el presente trabajo se exponen los resultados obtenidos a partir del estudio y análisis palinológico sobre un homicidio realizado en los márgenes del río Reconquista, en la Provincia de Buenos Aires. Se realizó un estudio exhaustivo de la flora del lugar y, el análisis de las muestras que han sido colectadas a lo largo de las márgenes del río Reconquista ha arrojado como resultado una asociación palinológica conformada por polen y quistes de algas. Los espectros polínicos están dominados principalmente por granos de polen de cañaverales (Arundo donax), Salicaceae, Cyperaceae y Poaceae, con Asteraceae y Myrtaceae subordinados. Las algas dinofíceas están representadas por quistes de dinoflagelados estuáricos del orden Gonyaulacales (Operculodinium centrocarpum (Deflandre y Cookson) Wall. Las algas clorofíceas consisten en cenobios de Pediastrum boryanum (Turpin) Meneghini y colonias de Botryococcus braunii Kützing, y entre las Cyanophyta se encontraron vainas de Rivulariaceae (Gloeotrichia sp.). Un protocolo de investigación forense implica algunas consideraciones para tener en cuenta, como la escena del crimen, la recolección apropiada de muestras y, el análisis palinológico del laboratorio, quedando a disposición de los jueces y fiscales como pruebas muy útiles para la investigación de un homicidio.

Referências

L. Povilauskas. Palinología Forense, Aportes a la investigación criminal en Argentina. Mendoza Forense 1, 13-19, 2016.
Forensic Palynology in the United States – from Crimes and Clues, The Art and Science of Crimincal Investigation. http://www.crimeandclues.com/palynologyus.htm
P. J. Mudie. Palynology of later Quaternary marine sediments. Tesis doctoral, Department of Geology, Dalhousie University, Halifax, 628 pp. Inédito, 1980.
J. M. Nassar. La botánica como herramienta de la investigación criminal. Instituto Venezolano de Investigaciones Científicas, Caracas, Venezuela. Disponible en la Wild Word Web, 2005.
R. C. Forzza. Lista de espécies Flora do Brasil. http://floradobrasil.jbrjr.gov.br/2010/, 2010.
J. C. Mantero. Puesta en valor turístico recreacional de la cuenca del salado, proyecto y territorio. In, Aportes y transferencia Universidad Nacional de Mar del Plata (ed). 11-26 pp, 2002.
J. P. Pals, B. van Geel and A. Delfos “Paleoecological studies in the Klokkeweelbognear Hoogkarspel (Prov. of NoordHolland).” Review of Palaebotany and Palynology 30, 371-418, 1980.
D. Wall, B. Dale, G. P. Lohmann and W. K. Smith. The environmental and climatic distribution of dinoflagellate cysts in modern marine sediments from regions in the North and South Atlantic ocean and adyacent seas. Marine Micropaleontology 2, 121-200, 1977.
A. Espejo Serna, A. R. López-Ferrari and J. Valdés-Reyna. Poaceae. Monocot. Mexic. Sinopsis Floríst. 10, 7-236, 2000.
J. F. Morales. Poaceae. En, Manual de Plantas de Costa Rica. Vol. 3. B. E. Hammel, M. H. Grayum, C. Herrera and N. Zamora (eds.). Monogr. Syst. Bot. Missouri Bot. Gard. 93, 598-821, 2003.
R. W. Pohl. Gynerium Willd. ex P. Beauv. Fl. Mesoamer. 6, 252-253, 1994.
A. De Vernal; L. Londeix; P. J. Mudie;, R. Harland; M. T. Morzadec- Kerfourn; J. l. Turon and J. H. Wrenn. Quaternary organic- walled dinoflagellate cysts of the North Atlantic ocean and adjacent seas, ecostratigraphy and biostratigraphy. En, M. J. Head and J. H. Wrenn (eds.), Neogene and Quaternary dinoflagellate cysts and acritarchs, American Association of Stratigraphic Palynologists Foundation, pp. 289-328, 1992.
J. Revelles; F. Burjachs and B. van Geel. Pollen and non-pollen palynomorphs from the Early Neolithic settlement of La Draga (Girona, Spain). Review of Palaebotany and Palynology 225, 1-20, 2016.
P. J. Mudie and R. Harland. Chapter 21. Aquatic Quaternary. En, J. Jansonius and D. C. McGregor (eds.). Palynology, principles and applications, American Association of Stratigraphic Palynologists Foundation, pp. 843-877, 1996.
M. Martínez-Sánchez; S. Fernández y J. Carrión. Palinología y escenario forense. Un caso de estudio del sureste de España. Anales de Biología 30, 43-54, 2008.
L. Heusser and C. Stock. Preparation techniques for concentrating pollen from marine sediments and other sediments with low pollen density. Palynology 8, 225-227, 1984.
M. D. Soriano Soto, et al. Prácticas de Edafología y Climatología. Valencia, España, Alfaomega, 140 p., 2004.
B. Dale. Cyst formation, sedimentation and preservation, factors affecting dinoflagellate assemblages in recent sediments from Trondheimsfjord, Norway. Review of Palaeobotany and Palynology 22, 39-60, 1976.
A. De Vernal; C. Goyette and C. G. Rodrigues. Contribution palynostratigraphique (dinoquistes, pollen et spores) á la mer de Champlain, coupe de Saint-Césaire Quebec. Canadian Journal of Earth Sciences 26, 2450-2464, 1989.
F. J. R. Taylor. Ecology of dinoflagellates. En, F. J. R. Taylor (ed.), Thebiology of dinoflagellates, Botanical Monographs 21, 399-502, 1987.
G. Davidse. Arundo. In Catalogue of New World Grasses (Poaceae), III. Subfamilies Panicoideae, Aristidoideae, Arundinoideae, and Danthonioideae. Contr. U.S. Natl. Herb. 46, 113-115, 2003.
B. Dale. Dinoflagellate cysts ecology, modeling and geological applications. En, J. Jansonius and D.C. McGregor (eds.). Palynology, principles and applications, American Association of Stratigraphic Palynologists Foundation, pp. 1249-1275, 1996.
R. Harland. Distribution maps of recent dinoflagellate cysts in bottom sediments from the North Atlantic Ocean and adjacent seas. Palaeontology 26, 321-387, 1983.
L. E. Edwards and A. S. Andrle. Distribution of selected dinoflagellate cysts in modern marine sediments. En, M. J. Head and J. H. Wrenn (eds.), Neogene and Quaternary dinoflagellate cysts and acritarchs, American Association of Stratigraphic Palynologists Foundation, 69-87 pp, 1982.
F. Marret and J. Scourse. Control of modern dinoflagellate cyst distribution in the Irish and Celtic seas by seasonal stratification dynamics. Marine Micropaleontology 47, 101-116, 2002.
R. Harland. Quaternary (Flandrian) dinoflagellate cysts from the Grand Banks of Newfoundland, Canada. Review of Palaeobotany and Palynology 16, 229-242, 1973.
J. Matthiessen. Distribution patterns of dinoflagellate cysts and other organic walled microfossils in recent Norwegian- Greenland Sea sediments. Marine Micropaleontology 24, 307-334, 1995.
A. Rochon; A. De Vernal; J. L. Turon; J. Matthiessen and M. J. Head. Distribution of recent dinoflagellate cysts in surface sediments from the North Atlantic ocean and adjacent seas in relation to sea-surface parameters. American Association of Stratigraphic Palynologists Contributions Series 35, 152 pp., 1999.
M. Ellegaard. Variations in dinoflagellate cyst morphology under conditions of changing salinity during the last 2000 years in the Limfjord, Denmark. Review of Palaeobotany and Palynology 109, 65-81, 2000.
G. M. Davidse and A. O. Sousa Sánchez. Alismataceae a Cyperaceae. Fl. Mesoamer. 6, i–xvi, 1–543, 1994.
B. van Geel and S. T. Anderson. Fossil ascospores of the parasitic fungus Ustulinadeustain Eemian deposits in Denmark. Review of Palaebotany and Palynology 56, 89-93, 1988.
B. van Geel and A. Aptroot. Fossil ascomycetes in Quaternary deposits. Nova Hedwigia, 82,313-329, 2006.

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Leticia Karina Povilauskas,

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[1] L. Povilauskas. Palinología Forense, Aportes a la investigación criminal en Argentina. Mendoza Forense 1, 13-19, 2016.

[2] Forensic Palynology in the United States – from Crimes and Clues, The Art and Science of Crimincal Investigation. http://www.crimeandclues.com/palynologyus.htm

[3] P. J. Mudie. Palynology of later Quaternary marine sediments. Tesis doctoral, Department of Geology, Dalhousie University, Halifax, 628 pp. Inédito, 1980.

[4] J. M. Nassar. La botánica como herramienta de la investigación criminal. Instituto Venezolano de Investigaciones Científicas, Caracas, Venezuela. Disponible en la Wild Word Web, 2005.

[5] R. C. Forzza. Lista de espécies Flora do Brasil. http://floradobrasil.jbrjr.gov.br/2010/, 2010.

[6] J. C. Mantero. Puesta en valor turístico recreacional de la cuenca del salado, proyecto y territorio. In, Aportes y transferencia Universidad Nacional de Mar del Plata (ed). 11-26 pp, 2002.

[7] J. P. Pals, B. van Geel and A. Delfos “Paleoecological studies in the Klokkeweelbognear Hoogkarspel (Prov. of NoordHolland).” Review of Palaebotany and Palynology 30, 371-418, 1980.

[8] D. Wall, B. Dale, G. P. Lohmann and W. K. Smith. The environmental and climatic distribution of dinoflagellate cysts in modern marine sediments from regions in the North and South Atlantic ocean and adyacent seas. Marine Micropaleontology 2, 121-200, 1977.

[9] A. Espejo Serna, A. R. López-Ferrari and J. Valdés-Reyna. Poaceae. Monocot. Mexic. Sinopsis Floríst. 10, 7-236, 2000.

[10] J. F. Morales. Poaceae. En, Manual de Plantas de Costa Rica. Vol. 3. B. E. Hammel, M. H. Grayum, C. Herrera and N. Zamora (eds.). Monogr. Syst. Bot. Missouri Bot. Gard. 93, 598-821, 2003.

[11] R. W. Pohl. Gynerium Willd. ex P. Beauv. Fl. Mesoamer. 6, 252-253, 1994.

[12] A. De Vernal; L. Londeix; P. J. Mudie;, R. Harland; M. T. Morzadec- Kerfourn; J. l. Turon and J. H. Wrenn. Quaternary organic- walled dinoflagellate cysts of the North Atlantic ocean and adjacent seas, ecostratigraphy and biostratigraphy. En, M. J. Head and J. H. Wrenn (eds.), Neogene and Quaternary dinoflagellate cysts and acritarchs, American Association of Stratigraphic Palynologists Foundation, pp. 289-328, 1992.

[13] J. Revelles; F. Burjachs and B. van Geel. Pollen and non-pollen palynomorphs from the Early Neolithic settlement of La Draga (Girona, Spain). Review of Palaebotany and Palynology 225, 1-20, 2016.

[14] P. J. Mudie and R. Harland. Chapter 21. Aquatic Quaternary. En, J. Jansonius and D. C. McGregor (eds.). Palynology, principles and applications, American Association of Stratigraphic Palynologists Foundation, pp. 843-877, 1996.

[15] M. Martínez-Sánchez; S. Fernández y J. Carrión. Palinología y escenario forense. Un caso de estudio del sureste de España. Anales de Biología 30, 43-54, 2008.

[16] L. Heusser and C. Stock. Preparation techniques for concentrating pollen from marine sediments and other sediments with low pollen density. Palynology 8, 225-227, 1984.

[17] M. D. Soriano Soto, et al. Prácticas de Edafología y Climatología. Valencia, España, Alfaomega, 140 p., 2004.

[18] B. Dale. Cyst formation, sedimentation and preservation, factors affecting dinoflagellate assemblages in recent sediments from Trondheimsfjord, Norway. Review of Palaeobotany and Palynology 22, 39-60, 1976.

[19] A. De Vernal; C. Goyette and C. G. Rodrigues. Contribution palynostratigraphique (dinoquistes, pollen et spores) á la mer de Champlain, coupe de Saint-Césaire Quebec. Canadian Journal of Earth Sciences 26, 2450-2464, 1989.

[20] F. J. R. Taylor. Ecology of dinoflagellates. En, F. J. R. Taylor (ed.), Thebiology of dinoflagellates, Botanical Monographs 21, 399-502, 1987.

[21] G. Davidse. Arundo. In Catalogue of New World Grasses (Poaceae), III. Subfamilies Panicoideae, Aristidoideae, Arundinoideae, and Danthonioideae. Contr. U.S. Natl. Herb. 46, 113-115, 2003.

[22] B. Dale. Dinoflagellate cysts ecology, modeling and geological applications. En, J. Jansonius and D.C. McGregor (eds.). Palynology, principles and applications, American Association of Stratigraphic Palynologists Foundation, pp. 1249-1275, 1996.

[23] R. Harland. Distribution maps of recent dinoflagellate cysts in bottom sediments from the North Atlantic Ocean and adjacent seas. Palaeontology 26, 321-387, 1983.

[24] L. E. Edwards and A. S. Andrle. Distribution of selected dinoflagellate cysts in modern marine sediments. En, M. J. Head and J. H. Wrenn (eds.), Neogene and Quaternary dinoflagellate cysts and acritarchs, American Association of Stratigraphic Palynologists Foundation, 69-87 pp, 1982.

[25] F. Marret and J. Scourse. Control of modern dinoflagellate cyst distribution in the Irish and Celtic seas by seasonal stratification dynamics. Marine Micropaleontology 47, 101-116, 2002.

[26] R. Harland. Quaternary (Flandrian) dinoflagellate cysts from the Grand Banks of Newfoundland, Canada. Review of Palaeobotany and Palynology 16, 229-242, 1973.

[27] J. Matthiessen. Distribution patterns of dinoflagellate cysts and other organic walled microfossils in recent Norwegian- Greenland Sea sediments. Marine Micropaleontology 24, 307-334, 1995.

[28] A. Rochon; A. De Vernal; J. L. Turon; J. Matthiessen and M. J. Head. Distribution of recent dinoflagellate cysts in surface sediments from the North Atlantic ocean and adjacent seas in relation to sea-surface parameters. American Association of Stratigraphic Palynologists Contributions Series 35, 152 pp., 1999.

[29] M. Ellegaard. Variations in dinoflagellate cyst morphology under conditions of changing salinity during the last 2000 years in the Limfjord, Denmark. Review of Palaeobotany and Palynology 109, 65-81, 2000.

[30] G. M. Davidse and A. O. Sousa Sánchez. Alismataceae a Cyperaceae. Fl. Mesoamer. 6, i–xvi, 1–543, 1994.

[31] B. van Geel and S. T. Anderson. Fossil ascospores of the parasitic fungus Ustulinadeustain Eemian deposits in Denmark. Review of Palaebotany and Palynology 56, 89-93, 1988.

[32] B. van Geel and A. Aptroot. Fossil ascomycetes in Quaternary deposits. Nova Hedwigia, 82,313-329, 2006.

Revista Brasileira de Criminalística

Revista Brasileira de Criminalística

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Análisis palinológico de un homicidio en la Provincia de Buenos Aires, Argentina

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Revista Brasileira de Criminalística

Revista Brasileira de Criminalística

Revista Brasileira de Criminalística