GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

Der Einfluß von Umweltbedingungen auf die Verteilungsmuster von Fischlarven in der Nordsee (2002)

Haslob, Holger [VerfasserIn] 1975-

Kiel

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Keywords: Hochschulschrift

Type of Medium: Online Resource

Pages: 1 Online-Ressource (6 Seiten = 5 MB) , Illustrationen, Graphen, Karte

Edition: Online-Ausgabe 2021

URL: https://oceanrep.geomar.de/4470/

Language: German

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2

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Abundance, horizontal and vertical distribution of the invasive ctenophore Mnemiopsis leidyi in the central Baltic Sea, November 2007 (2008)

Huwer, Bastian

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In: Aquatic invasions, Helsinki, Finland : Regional Euro-Asian Biological Invasions Centre, 2006, 3(2008), 2, Seite 113-124, 1818-5487

In: volume:3

In: year:2008

In: number:2

In: pages:113-124

Description / Table of Contents: The distribution and abundance of the invasive ctenophore Mnemiopsis leidyi in the Bornholm Basin, an important spawning ground of several fish stocks, and in adjacent areas in the central Baltic Sea was studied in November 2007. The study showed that M. leidyi were relatively small (body length 18.6 ± 7.6 mm) and they were patchily distributed over a large part of the investigated area. Specimens were found on 68 and 59% of stations sampled with a Bongo net (n=39) and an Isaac-Kidd midwater trawl (n=51), respectively. Vertically, the highest densities of M. leidyi occurred at 40 to 60 m around the halocline. Horizontally, the highest abundances were found north and west of Bornholm, but relatively high densities were also observed in the Slupsk Furrow. The mean abundance was 1.58 ± 2.12 ind. m-2, the peak abundance was 8.92 ind. m-2, and the average and peak population density were 0.03 ± 0.05 and 0.28 ind. m-3, respectively. The abundances are low compared to densities recently observed in other areas of the Baltic region (e. g. Limfjorden, Åland Sea) and the estimated predation impact on zooplankton by M. leidyi was negligible in November 2007. However, because of the ctenophore’s wide distribution in the central Baltic Sea, its ability for rapid population growth, and its potential influence on fish stocks by competing for food and by preying on fish eggs and newly hatched larvae, close monitoring of the future development of M. leidyi in the Baltic Sea is strongly recommended.

Type of Medium: Online Resource

ISSN: 1818-5487

DOI: 10.3391/ai.2008.3.2.1

Language: English

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3

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Small scale distribution patterns and vertical migration of North Sea herring larvae (Clupea harengus, Teleostei: Clupeidea) in relation to abiotic and biotic factors (2009)

Haslob, Holger 1975-

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In: Scientia marina, Barcelona : [Verlag nicht ermittelbar], 1989, 73(2009), 1, Seite 13-22, 1886-8134

In: volume:73

In: year:2009

In: number:1

In: pages:13-22

Description / Table of Contents: The distribution of herring larvae in relation to environmental conditions and the occurrence of possible prey and predator organisms was studied during a 4-day period on a permanent station in the northern North Sea in September 1999. The vertical distribution of herring larvae was sampled in 20-m intervals by means of a multiple-closing net. To resolve the small-scale patchiness of herring larvae and planktonic prey and predator organisms, a towed in-situ video system was used, the Ichthyoplankton Recorder. A diel vertical migration of herring larvae was observed with different intensities depending on their body length. Small larvae (〈10 mm) were concentrated in the upper water layers during daytime and were distributed more homogenously during night time. Large larvae (〉16 mm) showed the highest abundances in the upper water layers during the day and were concentrated in deeper water layers during the night. The presented results appear to be relevant for individual-based modelling of the fate of larval herring populations.

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1886-8134

DOI: 10.3989/scimar.2009.73s1013

Language: English

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4

Article

Temperature effects on vital rates of different life stages and implications for population growth of Baltic sprat (2012)

Haslob, Holger 1975- ; Hauss, Helena 1983- ; Petereit, Christoph 1977- ; [et al.]

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In: Marine biology, Berlin : Springer, 1967, 159(2012), 11 vom: Nov., Seite 2621-2632, 0025-3162

In: volume:159

In: year:2012

In: number:11

In: month:11

In: pages:2621-2632

In: extent:12

Type of Medium: Article

Pages: 12

ISSN: 0025-3162

Language: English

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5

Online Resource

Reproductive ecology of Baltic sprat and its application in stock assessment (2011)

Haslob, Holger 1975-

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Keywords: Hochschulschrift

Type of Medium: Online Resource

Pages: Online-Ressource

URL: http://nbn-resolving.de/urn:nbn:de:gbv:8-diss-64320

URL: http://d-nb.info/1012555666/34

URL: http://eldiss.uni-kiel.de/macau/receive/dissertation_diss_00006432

URN: urn:nbn:de:gbv:8-diss-64320

DDC: 570

Language: English

Note: Kiel, Univ., Diss., 2011

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6

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Spatial and seasonal variability in reproductive investment of Baltic sprat (2018)

Döring, Julian ; Hauss, Helena ; Haslob, Holger

Elsevier

In: Fisheries Research, 204 . pp. 49-60.

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Publication Date: 2021-02-08

Description: Fecundity of marine fish species is highly variable, but trade-offs between fecundity and egg quality have rarely been observed at the individual level. We investigated spatial differences in reproductive investment of individual European sprat Sprattus sprattus (Linnaeus 1758) females by determining batch fecundity, condition indices (somatic condition index and gonadosomatic index) as well as oocyte dry weight, protein content, lipid content, spawning batch energy content, and fatty acid composition. Sampling was conducted in five different spawning areas within the Baltic Sea between March and May 2012. Spawning sprat from the Kiel Bight were in a better nutritional condition compared to sprat from the Arkona Basin, Bornholm Basin, and the Gdansk Deep. These females were also producing up to twice as many oocytes, and invested significantly more energy in reproduction, than their counterparts sampled in the eastern part of the Baltic Sea. Still, oocytes produced by Kiel Bight sprat contained significantly lower fractions of the essential fatty acids 20:4 (n-6) and 22:6 (n-3). A seasonal trade-off between oocyte weight/lipid content and fecundity was found for Baltic sprat, albeit the gross energy invested into spawning remained constant. Observed spatial and seasonal differences in sprat reproductive investment may be linked to hydrographic conditions and food availability and will impact the survival probability of yolk-sac and first feeding larvae. These findings indicate that Baltic sprat is able to adapt its reproductive tactics to the highly variable pelagic habitat of the Baltic Sea.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.fishres.2018.02.002

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7

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Seasonal variability of fecundity and spawning dynamics of Baltic sprat (2013)

Haslob, Holger ; Rabade-Uberos, Sonia ; Saborido-Rey, Fran

Elsevier

In: Fisheries Research, 138 . pp. 99-109.

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Publication Date: 2017-01-09

Description: Seasonal variability in fecundity has been observed in a number of marine fishes and is important towards understanding the reproductive potential of a fish stock. However, the seasonal dynamics of egg production of Baltic sprat (Sprattus sprattus balticus S) have not been well described to date. We present data on the timing of spawning, and the seasonal variability in batch fecundity, number of developing oocytes, oocyte dry weight, spawning fraction, fish condition and atresia for this species in the Bornholm Basin, Baltic Sea. Histological techniques in combination with image analysis were applied to investigate those variables based upon material sampled in 2005 and 2008. Sprat were reported to be in spawning condition from January to June in each year plus in 2008 signs of ovarian maturation were also observed in November. Relative batch fecundity was found to vary two-fold with 85 eggs g−1 ovary free body weight observed early in the spawning season (January 2005) and 165 eggs g−1 ovary free body weight late in the spawning season (June 2008). Variability in batch fecundity during peak spawning was rather low. A seasonal decrease in oocyte dry weight was related to an increase in batch fecundity. Spawning fraction varied over the course of the spawning period with values ranging from 0.29 in March to 0.18 in June. Stereometric analyses confirmed the indeterminate fecundity of Baltic sprat. Prevalence of atresia was low during peak spawning in April to June (1.0–4.0%) but considerably higher during the early spawning period in March (16.4%) and highest in November (38.5%). Female sprat condition was low during the spawning period and increased sharply after spawning ceased. Our study provides a better understanding of fecundity and spawning dynamics of Baltic sprat which will aid to improve the assessment of reproductive potential of this ecologically and economically important fish species.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.fishres.2012.08.002

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8

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Distribution and reproduction of the Arctic ctenophore Mertensia ovum in the Baltic Sea (2013)

Lehtiniemi, M. ; Gorokhova, E. ; Bolte, Sören ; [et al.]

Inter Research

In: Marine Ecology Progress Series, 491 . pp. 111-124.

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Publication Date: 2018-06-25

Description: Species identification based on morphological characteristics has caused misidentifications and led to twisted views of abundances and roles of ctenophores. Based on extensive field studies from 2007 to 2010, the occurrence of the arctic ctenophore Mertensia ovum was genetically verified in the southern, central and northern Baltic Sea, and its egg production, distribution and abundance were studied in relation to physical factors. Genetic analyses indicate that M. ovum is by far the most abundant small ctenophore in the Baltic Sea. Specimens from a 20 yr old ctenophore collection were also genetically identified as M. ovum, contrary to their previous morphological identification as another ctenophore species, Pleurobrachia pileus. Thus, earlier reports on P. pileus in the Baltic Sea may actually refer to M. ovum. The abundance of M. ovum was regulated by both salinity and temperature, with highest abundances found in sea areas and water layers at temperatures 〈7°C, salinities 〉5.5 and oxygen levels 〉4 ml l-1. During summer, the highest abundances of ctenophores and their eggs were found near the halocline, while the distribution was more uniform throughout the water column during winter. Only ctenophores 〉3.5 mm (oral-aboral length) produced eggs in the experiments, with an average rate of 2.2 eggs ind.-1 d-1. Finally, comparison with published data from the 1980s (assuming that those data refer to M. ovum) indicates that the present-day ctenophore abundance is ~80% lower in the north and ~55% higher in the southern parts of the Baltic Sea, due to reasons yet to be established.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.3354/meps10464

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Reprint of: The ecophysiology of Sprattus sprattus in the Baltic and North Seas (2012)

Peck, Myron A. ; Baumann, Hannes ; Bernreuther, Matthias ; [et al.]

Elsevier

In: Progress in Oceanography, 107 . pp. 31-46.

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Publication Date: 2019-01-23

Description: The European sprat (Sprattus sprattus) was a main target species of the German GLOBEC program that investigated the trophodynamic structure and function of the Baltic and North Seas under the influence of physical forcing. This review summarizes literature on the ecophysiology of sprat with an emphasis on describing how environmental factors influence the life-history strategy of this small pelagic fish. Ontogenetic changes in feeding and growth, and the impacts of abiotic and biotic factors on vital rates are discussed with particular emphasis on the role of temperature as a constraint to life-history scheduling of this species in the Baltic Sea. A combination of field and laboratory data suggests that optimal thermal windows for growth and survival change during early life and are wider for eggs (5–17 °C) than in young (8- to 12-mm) early feeding larvae (5–12 °C). As larvae become able to successfully capture larger prey, thermal windows expand to include warmer waters. For example, 12- to 16-mm larvae can grow well at 16 °C and larger, transitional-larvae and early juveniles display the highest rates of feeding and growth at ~18–22 °C. Gaps in knowledge are identified including the need for additional laboratory studies on the physiology and behavior of larvae (studies that will be particularly critical for biophysical modeling activities) and research addressing the role of overwinter survival as a factor shaping phenology and setting limits on the productivity of this species in areas located at the northern limits of its latitudinal range (such as the Baltic Sea). Based on stage- and temperature-specific mortality and growth potential of early life stages, our analysis suggests that young-of-the year sprat would benefit from inhabiting warmer, near-shore environments rather than the deeper-water spawning grounds such as the Bornholm Basin (central Baltic Sea). Utilization of warmer, nearshore waters (or a general increase in Baltic Sea temperatures) is expected to accelerate growth rates but also enhance the possibility for density-dependent regulation of recruitment (e.g., top-down control of zooplankton resources) acting during the late-larval and juvenile stages, particularly when sprat stocks are at high levels.

Type: Article , PeerReviewed

Format: text

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