Embryonic and larval development and fatty‐acid profile of <i>Epinephelus marginatus</i> spawned in captivity: tools applied to captive rearing

Mello, Paulo H.; Araújo, Bruno C.; Campos, Mariana F. de; Rodrigues-Filho, J. A.; Garcia, Cristiana Bernadelli; Moreira, Renata Guimarães

doi:10.1111/jfb.13577

Cited by 10 publications

(8 citation statements)

References 72 publications

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“…The seabream's pharyngeal teeth appeared later compared with meagre ( Argyrosomus regius ), for example, when it was observed at 6 dah (Papadakis et al, 2013), in common dentex ( Dentex dentex ) at 7 dah (Santamaría et al, 2004) and yellowtail kingfish ( Seriola lalandi ) at 8 dah (Chen et al, 2006). In dusky grouper ( Epinephelus marginatus ), which is considered a very slow‐growing species, this structure appeared only at 17 dah (Mello et al, 2018), such as happened in the 16°C group for seabream.…”

Section: Discussionmentioning

confidence: 99%

“…Regarding the taste buds, which provide the fish with the sense of taste, temperature affects prey selection. Compared with other produced marine fish, such as meagre ( Argyrosomus regius ), this structure appeared at 3 dah (Papadakis et al, 2013), at 8 dah in shi drum ( Umbrina cirrosa ) (Zaiss et al, 2006), at 11 dah in sharpsnout seabream ( Diplodus puntazzo ) (Micale et al, 2008; Micale & Muglia, 2011), at 11 dah in common pandora ( Pagellus erythrinus ), at 14 dah in common dentex ( Dentex dentex ), and at 14 dah dusky grouper ( Epinephelus marginatus ) (Mello et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

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Temperature influences growth, digestive system ontogeny and lipids deposition in the liver in gilthead seabream ( Sparus aurata ) larvae and juveniles

Mello

Divanach

Papadakis

2022

Aquaculture Research

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The effects of three temperatures (16°C, 19°C and 22°C) during the seabream larval rearing period (60 days) were studied in terms of growth (total length, T.L.), the ontogeny of the digestive system and lipid deposition in the liver (area covered with lipid vacuoles, ACLV%). The trials were performed in duplicate for each treatment.Seabream eggs were stocked (100 eggs L −1 ) in each 500-L tank. The larvae were reared using an intensive rearing protocol, which offers a combination of enriched rotifers (5 to 7 ind ml −1 ) followed by Artemia nauplii (0.5 ind ml −1 ) and finally with dry artificial food, the provision of which started when the total length of larvae was close to

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Temperature influences growth, digestive system ontogeny and lipids deposition in the liver in gilthead seabream ( Sparus aurata ) larvae and juveniles

Mello

Divanach

Papadakis

2022

Aquaculture Research

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“…Gastrula phase is initially characterized by the first cellular movements in an event called epiboly, and is finished by closure of the blastopore, resulting in blastoderm rearrangement in relation to yolk mass (Honji et al, 2012;Buzollo et al, 2011;Nakagui et al, 2006;Mello et al, 2018). Gastrula stage in S. hilarii was initiated at 3 h 56 min to 9 h 1 min, this time was considered late and no longer compared with other species such as P. maculatus (2 h 15 min to 5 h 0 min at 29ºC; Buzollo et al, Table 3.…”

Section: Discussionmentioning

confidence: 99%

Spawning induction and embryonic development of Salminus hilarii (Characiformes: Characidae)

Araújo

Mello

Moreira

et al. 2020

Zygote

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Summary The present study aimed to evaluate two different methods of artificial reproduction induction, and characterize the embryonic development of Salminus hilarii. Different than observed for other tropical fish species, artificial reproduction induction followed by hand-stripping of gametes was considered unfeasible for S. hilarii, as no gamete fertilization was observed. However, females that were induced and spawned naturally presented a fertilization rate of 65.64 ± 0.54%. With a mean temperature of 26.20 ± 0.90ºC it was possible to clearly distinguish a large perivitelline space at 14 min after fertilization (AF) and at 49 min AF more than 50% of the embryos presented two blastomeres, and these cleavages occurred until 1 h 54 min AF. The gastrula phase was characterized at 3 h 56 min AF, and blastopore closure was observed at 8 h 31 min AF. At 9 h 1 min, organogenesis started, with a clear distinction of the yolk mass, embryonic axis, cephalic and caudal regions; at 11 h 51 min AF the embryos already had advanced segmentation and a free tail. Total hatching occurred at 21 h 17 min and after opening the mouth, which occurred at 33 h 9 min, the larvae of S. hilarii presented a strong and characteristic cannibalism. This information can be considered fundamental to improving S. hilarii production in captivity and for collaboration with a conservation programme in the upper Tietê river basin.

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“…The use of MT in juveniles of Epinephelus marginatus provides a permanent inversion, but without the production of semen, but the fertilization capacity of these spermatozoa was not tested in this protocol [5]. Using AI, the fertilization capacity of Epinephelus marginatus spermatozoa was demonstrated [7] as well as larvae production [9], but the authors did not test if sex change was permanent. Sex inversion in E. coiodes with MT can be divided into an early and an advanced phase, and that the characteristic of this inversion being permanent or not, depends on the moment at which the MT administration is interrupted [10].…”

Section: Examines Mar Biol Oceanogrmentioning

confidence: 97%

Untitled

2019

EIMBO

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Sequential hermaphroditism is widespread among teleosts and contains one of the most striking expressions of plasticity in sexual development: sex change [1]. Protogyny is more frequent among teleosts and individuals are initially females; later, in adulthood, the ovaries are replaced by testes, transforming them into reproductively active males, whereas in protandry, the reverse occurs [1]. This process is known as sex inversion. Hermaphrodite species of simultaneous type, which present ovaries and testes simultaneously, are also known, but less frequently. Sex inversion is a very successful reproductive strategy among fish [2] and species that present this reproductive strategy have evolutionary advantages, translated by a plasticity that can be triggered by different environmental conditions, such as socio-demographic modulations in the case of serranids [3]. Many hermaphrodite teleost species are under critical conservation status and to produce them successfully in captivity, it is necessary to know the reproductive physiology of these species and the environmental modulations that are relevant in this process. Individuals in a population have a system that receives information from the external environment (environmental signals) and internal organs (physiological events), integrates them, regulates them, and results in a neuroendocrine control, which in turn triggers all physiological events that will lead to successful reproduction [4].The majority of teleosts present the reproductive process modulated by environmental factors, such as temperature, photoperiod, rainfall, among other variables. However, the multiple and complex hormonal interactions between the sensory and reproductive organs, associated with the event of reproduction, are endogenously provided by an neuroendocrine system, involving primarily the hypothalamic-pituitary-gonadal (HHG) axis, which synthesizes and releases , gonadotropin releasing hormones (GnRHs), gonadotropins (GtHs), follicle stimulating hormone (FSH) and luteinizing hormone (LH), gonadal steroids (androgens, progestogens and estrogens). Neuromodulators also stimulate and / or inhibit this process (for example, dopamine, gonadotropin inhibiting hormone, gamma-aminobutyric acid, insulin-like growth factor, neuropeptide Y), among other substances [4]. Under suitable conditions for the animals, this whole process occurs naturally, with the development of the gonads, maturation, release and fertilization of the gametes, and in general, in teleosts, spawning and fertilization occur in the external environment. A permanent communication between the complex H-H axis and the peripheral organs (particularly the gonads) allows the synchronization of all the steps of the life cycle. In this case, of importance in the communication between the H-H axis and the gonads, are the sexual steroids, since they are indicators of the sexual status of vertebrates. These steroids can act in various tissues (such as the liver, pituitary, brain and gonad itself), altering the expression of neurohor...

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Embryonic and larval development and fatty‐acid profile of Epinephelus marginatus spawned in captivity: tools applied to captive rearing

Cited by 10 publications

References 72 publications

Temperature influences growth, digestive system ontogeny and lipids deposition in the liver in gilthead seabream ( Sparus aurata ) larvae and juveniles

Temperature influences growth, digestive system ontogeny and lipids deposition in the liver in gilthead seabream ( Sparus aurata ) larvae and juveniles

Spawning induction and embryonic development of Salminus hilarii (Characiformes: Characidae)

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