Edgardo Enríquez scite author profile

IntroducciónLa ensenada de Sechura (comprendida entre Punta Gobernador y Punta Aguja) se ubica en la zona de convergencia de aguas frías de la corriente costera peruana y de aguas cálidas ecuatoriales superfi ciales. Es una importante área costera con altos contenidos de nutrientes y elevada producción de fi toplancton, zooplancton e ictioplancton (Jacinto et al., 1997; Ayon y Aronés, 1997). Estos factores, entre otros, permiten el desarrollo de diversos recursos hidrobiológicos que son aprovechados comercialmente, como la concha de abanico y otros que sustentan la pesquería artesanal del lugar (Flores et al., 1994;1998). Producto de la dinámica de la zona costera, de la relativa poca profundidad y de la alta producción biológica, los sedimentos están distribuidos heterogéneamente y presentan diversos tipos, como arenoso, limo-arenoso y fango (Delgado y Gomero, 1988).La información sobre la macrofauna que habita la Ensenada de Sechura es aún escasa, resultado en su mayoría de muestreos de oportunidad. Salzwedel et al. (1988) presentaron datos de parámetros comunitarios de la macrofauna entre los 5 y 6º S, ResumenEn el presente trabajo se describe la distribución espacial de la macrofauna bentónica en la Ensenada de Sechura, Piura (5°12´-5°50´S y 81°12'-80°51´W). Fueron consideradas 23 estaciones distribuidas entre los 5 y 72 m, muestreadas al fi nalizar el evento El Niño 1997-98 (julio 1998). La temperatura, el oxigeno disuelto y el porcentaje de arena mostraron una tendencia decreciente desde las estaciones someras hasta las más profundas. Contrariamente la materia orgánica, el número de especies y la equidad (J') aumentaron con la profundidad. El grupo taxonómico que alcanzó la mayor densidad fue Polychaeta (81%). En las estaciones someras (5 --11 m) la composición especifi ca fue muy variada, tendiendo a dominar Polydora socialis (54%) en sustratos arenosos y rocosos. En las estaciones entre los 21 y 35 m, dominaron los poliquetos de la familia Capitellidae (17%), mientras que en las más profundas (42-72 m) dominó el poliqueto Paraprionospio pinnata (27%). Asimismo, los gremios trófi cos de poliquetos mejor representados fueron los depositívoros superfi ciales y los consumidores de interfase. Al comparar los resultados con información obtenida en junio de 1997 se encontraron diferencias en las especies dominantes, particularmente en el estrato intermedio de profundidad, en tanto no se detectaron diferencias signifi cativas en los parámetros comunitarios.Palabras Clave: Ensenada de Sechura, Macrofauna, Polychaeta, Batimetría, Sedimento. AbstractIt was analyzed the spatial distribution of the benthic macrofauna of the Bay of Sechura (5°12' -5°50'S and 81°12' -80°51'W) right after the end the 1997-98 El Niño. Temperature, dissolved oxygen, sand content (%), exhibited a decreasing trend from shallow to deep stations, while organic matter content, equitability and diversity increased with depth. The Polychaeta were the most abundant taxonomic group (81 %). The composition was very heterogenous at shallower depths ...

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Education in Chile

Enríquez¹

1977

Index on Censorship

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Validation of a Biological Monitoring Design in Highly Diverse Tropical Forests

Videla¹,

Chung²,

Ahumada³

et al. 2013

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Biological monitoring programs provide data and information for decision making and to ensure the resources protection. However, in tropical ecosystems that are home to most of the planet’s biodiversity these programs need to be improved in design and implementation. As part of the Environmental Management Plan "Environmental Impact Assessment for the 2D-3D Seismic Program and drilling of 22 exploratory wells in Kinteroni, Mapi and Mashira – Block 57" (Peru), we develop a Biological Monitoring Plan to keep track of potential biological changes (temporal and spatial scale) caused by the project activities to identify the need for corrective actions or to define new measures for unforeseen impacts. Temporarily, the activities of the monitoring plan depend on the stages of the project (construction, operation and closure), meanwhile they correspond spatially to factors that may cause effects on the flora and fauna. Block 57 is located in the Amazon rain forest of southern Peru; this is an ecosystem with limited information. Seeking a scheme to support exploration activities, It has been designed a systematic biological monitoring program, based on a gradient of disturbance caused by the clarification of an area. This design is intended to identify the variables that are most sensitive to the effect of exploration activities in forests with similar features and comparable seasons. The design is being implemented in exploratory platforms of Block 57 located in the buffer zones of the Ashaninka and Machiguenga Communal Reserves and Otishi National Park, covering the three stages of the drilling process, and evaluating spatially flora and arthropods to smaller scale (≤ 150 m from the edge of the deforested area) and birds, small mammals and reptiles at the mesoscale (≤ 600 m from the edge of the deforested area), in the area around the cleared area. The information generated, besides determining the parameters used to assess the level of impacts on local wildlife generated during the drilling, helps to evaluate the effectiveness of appropriate sampling methodologies and optimizes logistics; looking forward to replicate this design in other tropical ecosystems.

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