Population biology and life strategies of Chlorophthalmus agassizii Bonaparte, 1840 (Pisces: Osteichthyes) in the Mediterranean Sea

D’Onghia, Gianfranco; Sión, Letizia; Maiorano, P.; Mytilineou, Chryssi; D’Alessandro, Silvia; Carlucci, Roberto; Desantis, Salvatore

doi:10.1007/s00227-005-0231-y

Cited by 17 publications

(7 citation statements)

References 26 publications

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“…In general, size‐related diet composition is governed mainly by the change of habitat between the smaller and larger individuals (Macpherson and Duarte, 1991). Considerating that the distribution of C. agassizi in the above area showed a clear size‐related depth distribution pattern (‘bigger–deeper’ phenomenon, Anastasopoulou et al., 2006; D’Onghia et al., 2006), suggests that the different preferences observed between small : large individuals reflect the depth changes in the food supply. Thus, the food items of medium and larger individuals were more associated with the sea bottom (epibenthic food types found in their stomach samples, such as polychaetes, hydrozoa, mud), which were not found in the stomach contents of the smaller group.…”

Section: Discussionmentioning

confidence: 96%

“…Despite its abundance, highly important ecological information such as growth, biology and the distribution of the species in the Greek Ionian Sea is scarce. Only two studies have been carried out in the Greek Ionian Sea concerning the distribution and some aspects of the biology of this species (Anastasopoulou et al., 2006; D’Onghia et al., 2006). Very few data concerning the feeding habits of C. agassizi in the Mediterranean basin exist in the literature.…”

Section: Introductionmentioning

confidence: 99%

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Feeding ecology of the shortnose greeneye Chlorophthalmus agassizi Bonaparte, 1840 (Pisces: Chlorophthalmidae) in the eastern Ionian Sea (eastern Mediterranean)

Anastasopoulou

Kapiris

2008

J Appl Ichthyol

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The feeding ecology of Chlorophthalmus agassizi from the North Ionian Sea was examined in specimens caught during daylight hours on a seasonal basis from December 1996 to November 1997, at depths between 250 and 800 m (92 stations, total). Chlorophthalmus agassizi showed a mixed feeding strategy, exploiting a wide range of prey including mesopelagic, benthic and endobenthic organisms. Crustaceans and fishes were dominant food items in the diet year round. Diet composition showed slight seasonal fluctuations; these variations were correlated with food availability and reproductive activity. However, ontogenetic changes in the diet were relatively clear, despite the high overlap observed between small, medium and large individuals. Larger individuals are more efficient hunters that exhibit selection of prey with good swimming capabilities; smaller individuals consume prey with low mobility. Chlorophthalmus agassizi seem to be adapted to a food-scarce environment, as typified in the deep-water habitats of the Ionian Sea, and exploit all available niches.

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Section: Discussionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Feeding ecology of the shortnose greeneye Chlorophthalmus agassizi Bonaparte, 1840 (Pisces: Chlorophthalmidae) in the eastern Ionian Sea (eastern Mediterranean)

Anastasopoulou

Kapiris

2008

J Appl Ichthyol

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“…Historically, deep sea fishes have been viewed as continuously reproductive given the stability of their environment. More recently, distinct seasonal reproductive cycles have emerged (D'Onghia et al, ). Deep sea fishes may also sync reproductive cycles via vertical migrations of mesopelagic fauna (Merrett, ; Gage and Tyler, ).…”

Section: Discussionmentioning

confidence: 99%

“…Deep sea fishes may also sync reproductive cycles via vertical migrations of mesopelagic fauna (Merrett, ; Gage and Tyler, ). Typically, adult fishes spawn with buoyant eggs rising upwards to shallower water where fertilized ova develop and larva then undergo ontogenic migrations to deeper water (Fernandez‐Arcaya et al, ; D'Onghia et al, ; Lin et al, ). However, we observed that mature ovarian follicles did not contain oil globules, similar to other accounts of oarfish (Honma et al, ) and the related opah ( Lampris guttatus ; Lampridiformes; Olney, ), which complicates the complete understanding of oarfish reproduction.…”

Section: Discussionmentioning

confidence: 99%

Reproductive Morphology of Oarfish (Regalecus russellii)

Forsgren

Jamal

Barrios

et al. 2017

The Anatomical Record

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Reproduction is a critical aspect of understanding the biology of fishes. Relatively little is known about oarfish (Regalecus russellii) reproduction; however, strandings of dead animals have provided a rare opportunity to investigate the gonadal morphology of four fish: two females and two males. A female collected in June 2015 (4.32 m TL) had bifurcated ovaries 2.14 m in length and 2.14 kg. The gonadosomatic index (GSI) was 11.8% and the fish was determined to be spawning capable/spawning reproductive phase. A female that stranded in Sept. 2015 (5.20 m TL) had bifurcated ovaries 1.43 m in length and 1.28 kg with a GSI of 1.55%. The Sept. female was in a regressing phase of reproduction. A male collected in Aug. 2015 (4.30 m TL) had 64.7-cm-long testes that weighed 40.1 g. The GSI was 0.05% representing a regressing phase of reproduction. A male collected in Nov. 2015 (4.10 m TL) had testes 104.0 cm in length and 467.0 g with a GSI of 0.59%. The Nov. male was in a spawning/spawning capable phase of reproduction. We described ovarian follicles and sperm cells based on size classes and cytological characteristics. We concluded that oarfish are likely batch spawners that undergo periods of regression after a spawning event or season. While this study is not complete with respect to the annual reproductive cycle of oarfish, it markedly contributes to our overall understanding of this rare, mesopelagic fish. Anat Rec, 300:1695-1704, 2017. © 2017 Wiley Periodicals, Inc.

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“…A longer spawning period also indicates that favourable environmental conditions for hatching and larval development are available for a longer period (Gonçalves andErzini 2000, Pajuelo et al 2006). However this species, shows a longevity of more than 10 years (D'Onghia et al 2006) and a relatively late maturation, which are considered important with respect to management (Booth and Buxton 1997). These characteristics make the species more vulnerable to fishing exploitation and can result in possible overfishing.…”

Section: Discussionmentioning

confidence: 99%

Gonad Development and Reproduction in the Monoecious Species<I> Chlorophthalmus Agassizi</I> (Actinopterygii: Aulopiformes: Chlorophthalmidae) from the Sardinian Waters (Central-Western Mediterranean)

Cabiddu¹,

Follesa²,

Porcu³

et al. 2010

Acta Icth et Piscat

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Population biology and life strategies of Chlorophthalmus agassizii Bonaparte, 1840 (Pisces: Osteichthyes) in the Mediterranean Sea

Cited by 17 publications

References 26 publications

Feeding ecology of the shortnose greeneye Chlorophthalmus agassizi Bonaparte, 1840 (Pisces: Chlorophthalmidae) in the eastern Ionian Sea (eastern Mediterranean)

Feeding ecology of the shortnose greeneye Chlorophthalmus agassizi Bonaparte, 1840 (Pisces: Chlorophthalmidae) in the eastern Ionian Sea (eastern Mediterranean)

Reproductive Morphology of Oarfish (Regalecus russellii)

Gonad Development and Reproduction in the Monoecious Species<I> Chlorophthalmus Agassizi</I> (Actinopterygii: Aulopiformes: Chlorophthalmidae) from the Sardinian Waters (Central-Western Mediterranean)

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