238,234U contents on Lepomis Cyanellus from San Marcos dam located in a uraniferous area

Morphometric Analysis of the Hepatocytes from Fish Exposed to Arsenic

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100091391 ◽

1976 ◽

Vol 34 ◽

pp. 282-283

Author(s):

Elsie M. B. Sorensen

Keyword(s):

Morphometric Analysis ◽

Arsenic Concentration ◽

Ultrastructural Changes ◽

Sodium Arsenate ◽

Lepomis Cyanellus ◽

Mammalian Counterpart ◽

Intracellular Changes ◽

Green Sunfish ◽

Organic Pesticides

The detoxification capacity of the liver is well documented for a variety of substances including ethanol, organic pesticides, drugs, and metals. The piscean liver, although less enzymatically active than the mammalian counterpart (1), contains endoplasmic reticulum with an impressive repertoire of oxidizing, reducing, and conjugating abilities (2). Histopathologic changes are kncwn to occur in fish hepatocytes following in vivo exposure to arsenic (3); however, ultrastructural changes have not been reported. This study involved the morphometric analysis of intracellular changes in fish parynchymal hepatocytes and correlation with arsenic concentration in the liver.Green sunfish (Lepomis cyanellus, R.) were exposed to 0, 30, or 60 ppm arsenic (as sodium arsenate) at 20°C for 1, 2, or 3 week intervals before removal of livers for quantification of the arsenic burden (using neutron activation analysis) and morphometric analysis of ultrastructural alterations. Livers were cut into 1 mm cubes for fixation, dehydration, and embedding.

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Stereological Analyses of Hepatocyte Ultrastructure Monitor Arsenic Liver Burdens

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s1431927600001896 ◽

1980 ◽

Vol 38 ◽

pp. 442-443

Author(s):

E. M. B. Sorensen ◽

R. R. Mitchell ◽

L. L. Graham

Keyword(s):

Drainage System ◽

Water Levels ◽

Ultrastructural Changes ◽

Hepatocyte Ultrastructure ◽

Lepomis Cyanellus ◽

Large Numbers ◽

Activation Data ◽

Water Analyses ◽

Municipal Lake ◽

Green Sunfish

Endemic freshwater teleosts were collected from a portion of the Navosota River drainage system which had been inadvertently contaminated with arsenic wastes from a firm manufacturing arsenical pesticides and herbicides. At the time of collection these fish were exposed to a concentration of 13.6 ppm arsenic in the water; levels ranged from 1.0 to 20.0 ppm during the four-month period prior. Scale annuli counts and prior water analyses indicated that these fish had been exposed for a lifetime. Neutron activation data showed that Lepomis cyanellus (green sunfish) had accumulated from 6.1 to 64.2 ppm arsenic in the liver, which is the major detoxification organ in arsenic poisoning. Examination of livers for ultrastructural changes revealed the presence of electron dense bodies and large numbers of autophagic vacuoles (AV) and necrotic bodies (NB) (1), as previously observed in this same species following laboratory exposures to sodium arsenate (2). In addition, abnormal lysosomes (AL), necrotic areas (NA), proliferated rough endoplasmic reticulum (RER), and fibrous bodies (FB) were observed. In order to assess whether the extent of these cellular changes was related to the concentration of arsenic in the liver, stereological measurements of the volume and surface densities of changes were compared with levels of arsenic in the livers of fish from both Municipal Lake and an area known to contain no detectable level of arsenic.

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Elaboración de la cartografía geológica de un conjunto de planchas a escala 1:100.000, ubicadas en cuatro bloques del territorio nacional, identificados por el Servicio Geológico Colombiano - Plancha 63 - San Marcos. Contrato N° 511 de 2013. Producto. Versión 2015

10.32685/10.143.2015.254 ◽

2015 ◽

Author(s):

Servicio Geológico Colombiano SGC

Keyword(s):

San Marcos

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Confronting The Cycle Of Violence: An Ecclesial Response To The Survivors Of Family Violence At San Marcos

10.2986/tren.077-0120 ◽

2007 ◽

Author(s):

Carlos J. CORREA BERNIER

Keyword(s):

Family Violence ◽

Cycle Of Violence ◽

San Marcos

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Establishing A Biblically-Based Living Ethos To Guide The Continuing Development Of Christian Worship At First Baptist Church San Marcos, Texas

10.2986/tren.085-0029 ◽

2007 ◽

Author(s):

Timothy D. LYLES

Keyword(s):

First Baptist Church ◽

Baptist Church ◽

San Marcos ◽

Christian Worship

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Funerary objects from San Marcos, Jalisco, Mexico

Journal de la Société des Américanistes ◽

10.3406/jsa.1967.2307 ◽

1967 ◽

Vol 56 (2) ◽

pp. 520-531

Author(s):

Stanley V. Long

Keyword(s):

San Marcos

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Recursos zoogenéticos, producción lechera y cambio climático caracterización cadena lechera Quetzaltenango

Revista Ciencia Multidisciplinaria CUNORI ◽

10.36314/cunori.v1i1.29 ◽

2017 ◽

Vol 1 (1) ◽

Author(s):

Pineda Loarca

Keyword(s):

Rye Grass ◽

San Marcos ◽

Las Mujeres ◽

Buenas Prácticas

El área de Producción del Altiplano de Quetzaltenango identificada como “cadena lechera” está ubicada al Norte del Departamento, incluyendo áreas colindantes de Totonicapán y San Marcos, en altitudes de 2200 hasta 2800m. Con condiciones variadas para tal producción, trabajan en la actividad más de 300 familias de pequeños productores(5 vacas promedio). La intervención institucional se ha dado por: Ministerio de Agricultura, Cooperativa XELAC, ICTA, AID e iniciativa privada en: organización, producción, transformación, mercadeo por las “Buenas Prácticas”.La integración de conocimientos y recursos de Productores y especialistas han producido “Tecnologías Apropiadas”encontradas al caracterizar la Cadena Lechera durante los años 2008-2017: a). Uso de ganado apropiado al medio:animales encastados hasta 3/4 Holstein x Jersey x criollo, en doble o triple cruce (chumeca), logrando adaptaciónal ambiente y alta productividad; b). Las mujeres se encargan en un 80% de casos de la actividad lechera: cuido,ordeña, elaboración de productos artesanales y comercialización; principalmente del “queso de sija” propio de la región;c). Una décima parte de leche cruda se destina a la Industria Lechera, principalmente a la Cooperativa XELAC que elabora productos naturales de alta calidad con tecnología Suiza desde hace 40 años. d). Con la introducción de pastos “europeos” por FAO/MAGA desde 1974 e ICTA/DIGESEPE con el asocio avena/vicia se han trabajado las pasturas en la zona; con la limitante que los pastos “europeos” no producían semilla sexual a 2500 m.s.n.m.; por efecto positivo del cambio climático con aumento de 4˚C en los últimos 40 años más otros factores (luz-lluvia) han posibilitado la producción de “semilla sexual” de Rye Grass (Lollium multiflorum), considerando un beneficio para productores del área desde el año 2010. e) La inocuidad de la leche y derivados es apoyada con equipo adecuado de ordeña, aplicación de BPMS, uso integrado de abono orgánico lombricompost y fertirriego del pasto con “aguas servidas” del establo. Orientando las construcciones al medio y cambio climático. El caracterizar los sistemas de producción conjuntamente: Productor-Beneficiario-Profesional ha sido la constante para lograr la sostenibilidad, utilizando herramientas de Etno-veterinaria y Etno-zootecnia.

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