Integration of genetic data on fisheries management models. The European hake case.

The European hake is one of the major commercially important species in Western Europe fisheries. Currently its management is divided into different functional units in the Mediterranean (GFCM, General Fisheries Commission for the Mediterranean) and two stocks in the Atlantic: the Southern and the Northern Stock. The basis for the definition of this management stock structure is under permanent discussion and in the latest years there were an increased amount of genetic studies addressing this topic. Integrated ecosystem assessment requires an improved understanding of the marine ecosystem to provide an effective advice. To this end we have gathered hake genetic information from different studies with the aim of developing a spatial assessment model that links the current stocks. These studies show a restricted gene flow between Southern hake and Mediterranean hake, although a smaller genetic distance between Southern and Northern stocks than one expected from two independent populations, suggesting the presence of a major gene flow from northern grounds core stock (Porcupine and Great Sole Banks) towards the Bay of Biscay and the northwest coast of the Iberian Peninsula. However the quantitative implementation of genetic metrics (such as Fst, migration rates, etc) into population dynamic models is not straightforward given the different nature and assumptions behind these different approaches. In this work we discuss the problems to link these different disciplines suggesting ways to overcome them. These include ways to improve future genetic sampling and developing plausible scenarios for genetic connectivity in population dynamic models

Description of the wreckfish (Polyprion americanus) reproductive cycle in captivity

Within the DIVERSIFY project for the diversification of species in European aquaculture, wreckfish is a special case because of its late sexual maturation, which does not occur until 7-8 years of age (Peleteiro and Brunzón, 2014), besides existing very few data on its reproductive biology because it is a demersal species whose adult specimens tend to live at the range of 100-1000 meters of deep. This work sets out the progress made in the study of the reproductive cycle of this species in stocks established in Galicia (Spain).European Union’s Seventh Framework Programme for research, technological development and demonstration (KBBE-2013-07 single stage, GA 603121, DIVERSIFY)

Scientific and Technical Report of the DRAGO 0511 Oceanographic Cruise. Extension of the Spanish Continental Shelf west off Canary Island

Informe científico de la campaña y de los resultados preliminaresLa campaña DRAGO 0511 forma parte de los trabajos para la extensión de la plataforma continental española al oeste de las islas Canarias conforme a la Convención de Naciones Unidas sobre Derecho del Mar (CONVEMAR). Han participado un total de 19 científicos y técnicos, 4 investigadores del Instituto Español de Oceanografía (IEO) y 4 investigadores del Instituto Geológico y Minero de España (IGME) del Ministerio de Ciencia e Innovación, 2 investigadores de TRAGSA (para la Secretaría General del Mar) del Ministerio de Medio Ambiente, Medio Rural y Marino, y 6 hidrógrafos del Instituto Hidrográfico de la Marina (IHM) del Ministerio de Defensa, así como 5 estudiantes (2 de grado y 3 de postgrado) de la Facultad de Ciencias del Mar y Ambientales de la Universidad de Cádiz, y de la Facultad de Ciencias Geológicas (Titulación de Ingeniería Geológica) de la Universidad Complutense. El objetivo de esta campaña es la adquisición de los datos científicos necesarios para preparar la propuesta de ampliación de la plataforma continental española más allá de las 200 millas marinas del área situada al oeste de las Islas Canarias, conforme al artículo 76 de CONVEMAR. La información que se ha obtenido es fundamentalmente de batimetría multihaz y monohaz, perfiles de la velocidad del sonido, perfiles sísmicos de alta resolución, y muestreo de fondos principalmente mediante dragas de roca. Estos datos permitirán definir desde un punto de vista morfográfico, morfosedimentario y geológico, la región de la base del talud, así como llevar a cabo la localización de los posibles pies de talud (FOS) en esta región,y demostrar la estrecha relación existente entre la zona estudiada y el archipiélago de las Islas Canarias. En este sentido se han estudiado de forma preferente un conjunto de montes submarinos presentes al suroeste de las islas Canarias cuya génesis, de origen magmático, se debe encontrar en los mismos procesos de “punto caliente” que probablemente han debido generar los edificios volcánicos que constituyen las propias islas Canarias. Por otro lado, se ha localizado la presencia de grandes cuerpos sedimentarios constituidos por materiales procedentes de estos montes submarinos y generados por movimientos en masa de tipo gravitacional a favor de la pendiente del talud continental. La presencia tanto de estos montes submarinos, como de las grandes masas de sedimentos gravitacionales y, además la localización de escarpes en el talud, serán puntos clave de gran interés en esta región, siendo argumentos científicos válidos para demostrar la prolongación natural del territorio emergido del archipiélago canario así como para localizar los puntos del pie del talud continental. Durante la campaña DRAGO 0511 se han adquirido un total de 10895.4 km de registros con sonda multihaz EM302, sonda monohaz EA 600 y sonda paramétrica TOPAS PS 18. De dichas líneas, 9647.3 km se han realizado en las dos zonas de trabajo planificadas, 5603.2 km en la zona A y 4044.3 km en la zona B. En la zona A se ha cubierto un área total de 19996 km2 mientras que en la zona B la extensión ha sido de 13545 km2. En total se ha cubierto una extensión de 17795 km2 en el área de posible ampliación de la plataforma continental española. Por otra parte, cabe señalar que además 16471 km2 de líneas se han realizado dentro de la ZEE española del archipiélago canario, que se utilizarán, en algún caso, para demostrar la continuidad de estos cuerpos sedimentarios con las islas Canarias, y más adelante para la cartografía de este sector de la ZEE española. El resto de registros, 1151.5 km. corresponden a los tránsitos. En el total del tiempo de la campaña DRAGO 0511, un 70.5 % se ha trabajado sobre las zonas planificadas A y B localizadas sobre las áreas de ampliación de la plataforma continental española o sobre puntos concretos de la ZEE española que pueden ser utilizados para establecer los FOS, un 16.7 % en tránsitos sobre la ZEE española de las islas Canarias y un 7.1% de recalada en los puertos de Santa Cruz de Tenerife y de La Estaca de la Iila de El Hierro. Los datos obtenidos en la campaña DRAGO 0511 serán usados para elaborar la presentación del trazado del límite exterior de la plataforma continental de España más allá de las 200 millas marinas en el polígono del archipiélago de las islas Canarias conforme a la parte VI y el anexo II de CONVEMAR. Dicha presentación de datos e información científica se deberá realizar ante la Comisión de límites de la plataforma continental de la Organización de las Naciones Unidas en Nueva York, de conformidad con la CONVEMAR y con las directrices científico-técnicas de dicha Comisión, con anterioridad al 9 de mayo del año 2014.Ministerio de Asuntos Exteriores y Cooperación (MAEC), Instituto Español de Oceanografía (IEO) e Instituto Geológico y Minero de España (IGME) ambos del Ministerio de Investigación, Ciencia e Industria (MICINN), Instituo Hidrográfico de la Marina (IHM) del Ministerio de Defensa (MDEF) y Secretaria General del Mar del Ministerio de Medio Ambiente, Medio Rural y Marino (MARM). Acción Complementaria del Plan Nacional de I+D+i CTM2010-09496-

Atlas de las praderas marinas de España

Knowledge of the distribution and extent of seagrass habitats is currently the basis of management and conservation policies of the coastal zones in most European countries. This basic information is being requested through European directives for the establishment of monitoring programmes and the implementation of specific actions to preserve the marine environment. In addition, this information is crucial for the quantification of the ecological importance usually attributed to seagrass habitats due to, for instance, their involvement in biogeochemical cycles, marine biodiversity and quality of coastal waters or global carbon budgets. The seagrass atlas of Spain represents a huge collective effort performed by 84 authors across 30 Spanish institutions largely involved in the scientific research, management and conservation of seagrass habitats during the last three decades. They have contributed to the availability of the most precise and realistic seagrass maps for each region of the Spanish coast which have been integrated in a GIS to obtain the distribution and area of each seagrass species. Most of this information has independently originated at a regional level by regional governments, universities and public research organisations, which explain the elevated heterogeneity in criteria, scales, methods and objectives of the available information. On this basis, seagrass habitats in Spain occupy a total surface of 1,541,63 km2, 89% of which is concentrated in the Mediterranean regions; the rest is present in sheltered estuarine areas of the Atlantic peninsular regions and in the open coastal waters of the Canary Islands, which represents 50% of the Atlantic meadows. Of this surface, 71.5% corresponds to Posidonia oceanica, 19.5% to Cymodocea nodosa, 3.1% to Zostera noltii (=Nanozostera noltii), 0.3% to Zostera marina and 1.2% to Halophila decipiens. Species distribution maps are presented (including Ruppia spp.), together with maps of the main impacts and pressures that has affected or threatened their conservation status, as well as the management tools established for their protection and conservation. Despite this considerable effort, and the fact that Spain has mapped wide shelf areas, the information available is still incomplete and with weak precision in many regions, which will require an investment of major effort in the near future to complete the whole picture and respond to demands of EU directives.Versión del edito

Atlas de las praderas marinas de España

Knowledge of the distribution and extent of seagrass habitats is currently the basis of management and conservation policies of the coastal zones in most European countries. This basic information is being requested through European directives for the establishment of monitoring programmes and the implementation of specific actions to preserve the marine environment. In addition, this information is crucial for the quantification of the ecological importance usually attributed to seagrass habitats due to, for instance, their involvement in biogeochemical cycles, marine biodiversity and quality of coastal waters or global carbon budgets. The seagrass atlas of Spain represents a huge collective effort performed by 84 authors across 30 Spanish institutions largely involved in the scientific research, management and conservation of seagrass habitats during the last three decades. They have contributed to the availability of the most precise and realistic seagrass maps for each region of the Spanish coast which have been integrated in a GIS to obtain the distribution and area of each seagrass species. Most of this information has independently originated at a regional level by regional governments, universities and public research organisations, which explain the elevated heterogeneity in criteria, scales, methods and objectives of the available information. On this basis, seagrass habitats in Spain occupy a total surface of 1,541,63 km2, 89% of which is concentrated in the Mediterranean regions; the rest is present in sheltered estuarine areas of the Atlantic peninsular regions and in the open coastal waters of the Canary Islands, which represents 50% of the Atlantic meadows. Of this surface, 71.5% corresponds to Posidonia oceanica, 19.5% to Cymodocea nodosa, 3.1% to Zostera noltii (=Nanozostera noltii), 0.3% to Zostera marina and 1.2% to Halophila decipiens. Species distribution maps are presented (including Ruppia spp.), together with maps of the main impacts and pressures that has affected or threatened their conservation status, as well as the management tools established for their protection and conservation. Despite this considerable effort, and the fact that Spain has mapped wide shelf areas, the information available is still incomplete and with weak precision in many regions, which will require an investment of major effort in the near future to complete the whole picture and respond to demands of EU directives

Influence of broodstock nutrition of wreckfish (Polyprion americanus) on the oocytes fatty acid composition

Nutritional requirements of wreckfish are unknow so far and there are only a few references related to feeding habitats from commercial caught (Brick Peres & Haimovi, 2003) and feeding rates in captivity (Papandroulakis et al., 2004) . Recently some studies were done about composition of wild wreckfish (Roncarati et al.,2014, Linares et al., 2015). The optimum development of broodstock diets for wreckfish will be essential for the future of the aquaculture of this species. Dietary lipids and specially fatty acids play a critical role in the successful production of high quality gametes and eggs of marine fish (Izquierdo et al., 2001; Sargent et al., 2002). The aim of this work is collecting information about the influence of the feeding of wreckfish broodstock on oocytes composition with the aim of knowing the relationship of broodstock feeding on fecundity and spawn quality.This 5-year-long project (2013-2018) has received funding from the European Union’s Seventh Framework Programme for research, technological development and demonstration (KBBE-2013-07 single stage, GA 603121, DIVERSIFY). The consortium includes 38 partners from 12 European countries –including 9 SMEs, 2 Large Enterprises, 5 professional associations and 1 Consumer NGO- and is coordinated by the Hellenic Center for Marine Research, Greece. Further information may be obtained from the project site at “www.diversifyfish.eu”

Control de las endoparasitosis en el ganado ovino

Alcanzar un equilibrio entre la población cervuna por hectárea y la capacidad productiva del territorio es fundamental en cualquier explotación cinegética. En general se estima que 5-10 animales por km2 es una densidad adecuada. Para reducir el exceso de población es muy eficaz intensificar la presión cinegética y realizar descastes selectivos para eliminar ciervos defectuosos genéticamente o individuos muy debilitados. La alimentación debe adaptarse a las necesidades fisiológicas y, en función de las disponibilidades forrajeras, puede ser necesaria una suplementación alimenticia. El manejo de las praderas y la correcta construcción y distribución de comederos y bebederos pueden reducir la presentación de problemas parasitarios. La vigilancia epidemiológica de otros animales silvestres y domésticos, así como la desparasitación de los animales destinados a la repoblación contribuyen a potenciar la eficacia de los programas sanitarios. La ausencia de vacunas eficaces hace que los tratamientos antiparasitarios sean imprescindibles, teniendo en cuenta que se ha observado una menor eficacia de los productos en comparación con los rumiantes domésticos. El objetivo de los planes técnicos de ordenación cinegética es por tanto conseguir un equilibrio parásito-hospedador-agrosilvosistema, cuidándose al máximo el bienestar animal. Para ello, la lucha contra las enfermedades parasitarias debe contemplarse de una forma integrada, combinando medidas de manejo e higiénico-sanitarias con la aplicación estratégica de productos antiparasitarios en función de los periodos de riesgo de infección y de las etapas fisiológicas del animal. En este sentido recomendamos dos tratamientos anuales: a finales de invierno y a finales de verano-principios del otoño, momentos en los que coinciden las épocas de mayor riesgo de infección con etapas fisiológicas críticas

Banco de Galicia. Áreas de estudio del proyecto LIFE+ INDEMARES

Postprin

Rapid decrease in titer and breadth of neutralizing anti-HCV antibodies in HIV/HCV-coinfected patients who achieved SVR

The main targets for neutralizing anti-hepatitis C virus (HCV) antibodies (HCV-nAbs) are the E1 and E2 envelope glycoproteins. We have studied the characteristics of HCV-nAbs through a retrospective study involving 29 HIV/HCV-coinfected patients who achieved sustained virological response (SVR) with peg-IFNα + ribavirin anti-HCV therapy. Plasma samples at baseline and week 24 after SVR were used to perform neutralization assays against five JFH1-based HCV recombinant viruses coding for E1 and E2 from genotypes 1a (H77), 1b (J4), 2a (JFH1), 3a (S52) and 4a (ED43). At baseline, the majority of plasma samples neutralized 1a, 1b, 2a, and 4a, but not 3a, genotypes. Twenty-four weeks following SVR, most neutralizing titers declined substantially. Furthermore, titers against 3a and 2a were not detected in many patients. Plasma samples with high HCV-nAb titers neutralized all genotypes, and the highest titers at the starting point correlated with the highest titers at week 24 after SVR. In conclusion, high titers of broad-spectrum HCV-nAbs were detected in HIV/HCV-coinfected individuals, however, those titers declined soon after SVR