Movements of scalloped hammerhead sharks (Sphyrna lewini) at Cocos Island, Costa Rica and between oceanic islands in the Eastern Tropical Pacific

Elena Nalesso (2019, [Artículo])

Many species of sharks form aggregations around oceanic islands, yet their levels of residency and their site specificity around these islands may vary. In some cases, the waters around oceanic islands have been designated as marine protected areas, yet the conservation value for threatened shark species will depend greatly on how much time they spend within these protected waters. Eighty-four scalloped hammerhead sharks (Sphyrna lewini Griffith & Smith), were tagged with acoustic transmitters at Cocos Island between 2005–2013. The average residence index, expressed as a proportion of days present in our receiver array at the island over the entire monitoring period, was 0.52±0.31, implying that overall the sharks are strongly associated with the island. Residency was significantly greater at Alcyone, a shallow seamount located 3.6 km offshore from the main island, than at the other sites. Timing of presence at the receiver locations was mostly during daytime hours. Although only a single individual from Cocos was detected on a region-wide array, nine hammerheads tagged at Galapagos and Malpelo travelled to Cocos. The hammerheads tagged at Cocos were more resident than those visiting from elsewhere, suggesting that the Galapagos and Malpelo populations may use Cocos as a navigational waypoint or stopover during seasonal migrations to the coastal Central and South America. Our study demonstrates the importance of oceanic islands for this species, and shows that they may form a network of hotspots in the Eastern Tropical Pacific. © 2019 Nalesso et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

article, Cocos Island, human, monitoring, nonhuman, resident, shark, South America, animal, Costa Rica, environmental protection, island (geological), movement (physiology), physiology, season, shark, Animals, Conservation of Natural Resources, Costa CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA CIENCIAS DE LA TIERRA Y DEL ESPACIO OCEANOGRAFÍA OCEANOGRAFÍA

Evaluación del aporte hidrológico superficial en el sistema de bloque de montaña de la subcuenca Ojos Negros

Surface hydrological contribution evaluation in the mountain block system of the Ojos Negros subbasin

Ricardo Adolfo Hidalgo Rodríguez (2023, [Tesis de maestría])

Este trabajo se realizó en la sección de la subcuenca Ojos Negros, sobre el bloque de montaña de la Sierra de Juárez (denominado Sistema de Bloque de Montaña de la Subcuenca Ojos Negros, SBMON), en el estado de Baja California, México. Se llevó a cabo un modelado hidrológico del escurrimiento en el periodo 1981-2020 para cuantificar el aporte hidrológico de salida hacia el Valle de Ojos Negros. En cumplimiento del objetivo, se diseñó una base de datos meteorológicos compuesta por los registros diarios de las estaciones meteorológicas en la región y del modelo de forzamiento de superficie NLDAS2. Se recopiló un conjunto de información edafológica, forestal, geológica, satelital y topográfica dentro del área de estudio. Con la información recolectada, se elaboraron dos modelos de escurrimiento empleando el método de las curvas numeradas (CN) del Departamento de Agricultura de los Estados Unidos (USDA). Los modelos fueron ajustados con los valores de sustracción inicial, Ia, de 0.2 (modelo A) y 0.05 (modelo B). Las series generadas se compararon con los resultados del modelo GCN250, basado en los datos edafológicos y forestales de la Agencia Espacial Europea (ESA). A nivel regional, se observó un aporte de escurrimiento anual de 9.2 Mm3 (GCN250), 10.9 Mm3 (modelo A) y 4.7 Mm3 (modelo B). La sección oriental del SBMON mostró el mayor potencial de infiltración, pero también fue la zona con mayor producción de escurrimiento en todos los modelos. Desde la perspectiva estacional, se identificaron periodos donde los escurrimientos formados a partir de las lluvias en verano superaron a los generados en la temporada invernal. Con base a los resultados obtenidos, el aporte de escurrimiento dentro del SBMON es significativa, no obstante, los procesos de escurrimiento subsuperficial y subterráneo pueden tener un papel todavía más importante en la recarga hacia el Valle de Ojos Negros. Se recomienda dar seguimiento a la variación del contenido de humedad en los suelos del SBMON, a los patrones anuales y estacionales de precipitación, así como la contribución hídrica del derretimiento de la nieve en la Sierra de Juárez.

This work was realized in the section of the Ojos Negros sub-basin, on the Sierra de Juárez mountain block (denominated Mountain Block System of the Ojos Negros Sub-Basin, SBMON), in the state of Baja California, Mexico. A hydrological runoff modeling was carried out for the period 1981-2020 to quantify the output hydrological contribution toward the Ojos Negros Valley. In compliance with the objective, a meteorological database consisting of the daily records of the meteorological stations and the NLDAS-2 surface forcing model was designed. A set of edaphological, forestry, geological, satellite, and topographical information was collected within the study area. Based on the collected information, two runoff models were developed using the Curve Number (CN) method from the United States Department of Agriculture (USDA). The models were adjusted with the initial subtraction values, Ia, of 0.2 (model A) and 0.05 (model B). The generated series were compared with the results of the GCN250 model, based on soil and forestry data from the European Space Agency (ESA). Regionally, an annual runoff contribution of 9.2 Mm3 (GCN250), 10.9 Mm3 (model A), and 4.7 Mm3 (model B) was observed. The eastern section of the SBMON showed the highest infiltration potential, but it was also the area with the highest runoff production in all models. From the seasonal perspective, periods were identified where the runoff formed from summer rains exceeded that generated in the winter season. Based on the results obtained, the runoff contribution within the SBMON is significant, however, the subsurface and underground runoff processes may have an even more key role in the recharge toward the Ojos Negros Valley. It is recommended to monitor the variation of the moisture content in the SBMON soils, the annual and seasonal patterns of precipitation, as well as the water contribution from the snow melting in the Sierra de Juárez.

Sistema de bloque de montaña de la subcuenca Ojos Negros, escurrimiento, infiltración, método de las Curvas Numeradas, GCN250 Mountain Block System of the Ojos Negros Sub-Basin, runoff, infiltration, Curve Number method, GCN250 CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA CIENCIAS DE LA TIERRA Y DEL ESPACIO OTRAS ESPECIALIDADES DE LA TIERRA, ESPACIO O ENTORNO OTRAS OTRAS