100 research outputs found
Desove de calamares ommastréfidos en el mar del Norte: oceanografía, cambio climático y ampliación del rango de distribución de especies
The lesser flying squid (Todaropsis eblanae) and the shortfin squid (Illex coindetii) are two abundant ommastrephids of the northeast Atlantic. Spawning ground existence was inferred from the captures of mature, mated females in summer 2016–2019 and their occurrences were compared with respective oceanographic data from international surveys to gain insight into environmental predictors of their presence throughout the North Sea. Spawning T. eblanae were found in relatively cooler and more saline waters (6–8°C, 34.2–35.1 psu) in the northern North Sea linked to the Fair Isle Current and East Shetland Atlantic Inflow, whilst spawning I. coindetii occurred across the entire North Sea (mostly at 9–10.5°C, 34.1–34.8 psu). We hypothesize that a combination of water salinity and water temperature are key factors in the spatiotemporal distribution of spawning ommastrephid squids as they define water density that is crucial for pelagic egg mass to attain neutral buoyancy.La pota costera (Todaropsis eblanae) y la pota voladora (Illex coindetii) son dos ommastréfidos abundantes del Atlántico nororiental. La existencia de una zona de desove se ha inferido a partir de capturas de hembras maduras y copuladas durante los veranos de 2016-2019. Su presencia se ha comparado con datos oceanográficos de estudios internacionales para conocer los predictores ambientales de su presencia en el Mar del Norte. El desove de T. eblanae se halló en aguas relativamente frías y salinas (6–8°C, 34,2–35,1 psu) del norte del Mar del Norte, vinculadas a la corriente de Fair Isle y el aporte de aguas atlánticas provenientes de Este de las Shetland. El desove de I. coindetii aconteció en todo el Mar del Norte (principalmente entre los 9–10.5°C, 34,1–34.8 psu). Se sugiere que una combinación de salinidad y temperatura del agua son factores clave en la distribución espacio-temporal de los calamares ommastréfidos desovantes, ya que la densidad del agua es crucial para que las masas de huevos pelágicos alcancen una flotabilidad neutra
Habitat utilization and feeding ecology of small round goby in a shallow brackish lagoon
We examined small-scale distribution and feeding ecology of a non-native fish species, round goby (Neogobius melanostomus (Pallas, 1814)), in different habitats of a coastal lagoon situated in the south-western Baltic Sea. First observations of round goby in this lagoon were reported in 2011, 3 years before the current study was conducted, and information on this species’ basic ecology in different habitats is limited. We found that mainly juvenile round gobies are non-randomly distributed between habitats and that abundances potentially correlate positively with vegetation density and thus structural complexity of the environment. Abundances were highest in shallower, more densely vegetated habitats indicating that these areas might act as a refuge for small round gobies by possibly offering decreased predation risk and better feeding resources. Round goby diet composition was distinct for several length classes suggesting an ontogenetic diet shift concerning crustacean prey taxa between small (≤ 50 mm total length, feeding mainly on zooplankton) and medium individuals (51–100 mm, feeding mainly on benthic crustaceans) and another diet shift of increasing molluscivory with increasing body size across all length classes. Differences in round goby diet between habitats within the smallest length class might potentially be related to prey availability in the environment, which would point to an opportunistic feeding strategy. Here, we offer new insights into the basic ecology of round goby in littoral habitats, providing a better understanding of the ecological role of this invasive species in its non-native range, which might help to assess potential consequences for native fauna and ecosystems
Predation on Atlantic herring (Clupea harengus ) eggs by the resident predator community in coastal transitional waters
Atlantic herring (Clupea harengus) migrates from offshore to coastal areas to spawn and their eggs and larvae may substantially increase prey resources for resident predators. We combined an in situ predator exclusion experiment using eggs naturally spawned on submerged aquatic vegetation and field observations of predator abundance to estimate the magnitude of predation mortality of herring eggs. During our predator exclusion experiment, performed in an important spawning ground in the southwest Baltic Sea, 20% of the herring eggs were consumed resulting in an extrapolated predation of 42% of all eggs between spawning and hatch. Abundance and stomach content analyses indicated that one predator (threespine stickleback, Gasterosteus aculeatus) was responsible for the majority of the predation impact. Predation mortality estimates from this in situ study were more than 10-fold higher than those of an empirical egg predation model for the same predator in the same region. Our findings highlight the potential of resident predators to regulate the survival of early life stages of ocean-going fishes that rely on the nursery functions of inshore transitional waters
Gonatus fabricii (Lichtenstein, 1818)
info:eu-repo/semantics/publishedVersio
Phylogeography of the veined squid, Loligo forbesii, in European waters
The veined squid, Loligo forbesii Steenstrup, 1856, occurs at the European Shelf areas including the
Azores and represents a valuable resource for the European commercial fishery in the North East
Atlantic. However, very little is known about its population structure and phylogeography. This lack
of knowledge also impedes the development of sustainable fishery management for this species. The
present study combined the use of two types of markers that retrieve patterns of gene flow in different
time spans; the analysis of 16 nuclear microsatellites and sequencing of the mitochondrial cytochrome
oxidase subunit I (COI). Whereas the high mutation rate of microsatellites allows the description of
recent patterns of connectivity in species, the lower mutation rate of COI provides phylogeographic
patterns on a longer timescale. A total of 347 individuals of L. forbesii were investigated from nearly
the entire distribution range of the species, including the North East Atlantic Shelf, the Azores and
the Mediterranean. Individuals from the Western and Eastern Mediterranean Sea have never been
included in a genetic study before. We were able to analyse COI sequences from all 12 sampling areas
and define three clades of L. forbesii. Due to our large sampling area, we are presenting 13 COIhaplotypes
that were previously unknown. The microsatellite analysis does not include the Azores
but three main clades could be identified at the remaining 11 sampling sites. Low FST
values indicate
gene flow over large geographical distances. However, the genetically significant differences and an
additional slight grouping in the microsatellite structure reveal that geographical barriers seem to
influence the population structure and reduce gene flow. Furthermore, both markers provide strong
evidence that the observed phylogeographic pattern reflects the geographical history of the Azores
and the Mediterranean Sea.Postprin
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