&lt;b&gt;Transport of &lt;i&gt;Astyanax altiparanae&lt;/i&gt; Garutti and Britski, 2000 in saline water

Salaro, Ana Lúcia; Campelo, Daniel Abreu Vasconcelos; Tavares, Mateus Moraes; Braga, Luís Gustavo Tavares; Pontes, Marcelo Duarte; Zuanon, Jener Alexandre Sampaio

doi:10.4025/actascibiolsci.v37i2.26884

Cited by 9 publications

(9 citation statements)

References 29 publications

(11 reference statements)

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“…Ram no food All fish survived for up to 6 h in 0, 3, 6 and 9 g L À1 NaCl. After 96 h, morality was 75% on the 9 g L À1 NaCl and 100% in the 12, and 15 g L À1 NaCl Salaro et al (2015) 0, 3, 6, and 9 g L À1 NaCl 22, 30 and 37 g L À1 8 h simulated transport Blood glucose levels were significantly lower in the 30 and 37 g L À1 fish transported in the 3, 6, 9 g L À1 NaCl compared to the 0 g L À1…”

Section: Naclmentioning

confidence: 95%

The use of feed and water additives for live fish transport

Vanderzwalmen

Eaton²,

Mullen

et al. 2018

Reviews in Aquaculture

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The transport of live fish for aquaculture, either for food or as companion animals, presents a major issue for animal welfare. The stressors associated with live transportation are well documented with a focus on maintaining water quality during transport to reduce stress. Far less considered is our ability to enhance health and welfare during transport through the use of dietary and water additives prior to and during transport. With increasing interest in the use of plant essential oils as feed additives in food fish aquaculture and the increased availability of products claiming to alleviate stress in ornamental species, there is a need for scientific investigation into these potential welfare‐promoting methods. Here, we summarise current knowledge on the use of food additives, water conditioners, antibiotics, antimicrobials and probiotics to promote fish health during transport. This review aims to highlight the gaps in our knowledge surrounding promising ways of promoting fish health during transport and to stimulate new research in this area.

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Section: Naclmentioning

confidence: 95%

The use of feed and water additives for live fish transport

Vanderzwalmen

Eaton²,

Mullen

et al. 2018

Reviews in Aquaculture

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“…Therefore, salt concentration used and its efficiency in reducing stress responses are species‐specific. Moreover, the effects of salt on stress responses depend on the osmoregulatory capacity (Altinokand & Grizzle, 2001), development phase of fish (Garcia et al, 1999; Kültz, 2015; Shikano & Fujio, 1998), water temperature (Likongwe et al, 1996), water ionic composition (Karimov & Keyser, 1998), salt concentration (Carneiro & Urbinati, 2001; Salaro et al, 2015) and exposure duration (Mattioli et al, 2017). To better understand the effects of salt on fish stress, it is necessary to determine the salinity tolerance of the evaluated fish species.…”

Section: Introductionmentioning

confidence: 99%

Acute salinity tolerance of juvenile platy, Xiphophorus maculatus

Valente

Cardoso

Martins

et al. 2021

Aquaculture Research

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Common salt (99.3% of sodium chloride) is used as a water additive to reduce management stress in ornamental fish. Therefore, specific information on fish tolerance to water salinity is needed for establishing safe limits for salt use. In this study, we aimed to evaluate juvenile platy, Xiphophorus maculatus, for stress response and tolerance to acute salinity exposure. The fish were exposed to 0, 5, 10, 15, 20 and 25 g common salt/L water, for 96 h. Each aquarium containing 15 fish was considered an experimental unit. Mortality was quantified throughout the all‐experimental period, and blood glucose was measured at 24 and 96 h. Survival probability was high (>90%) in platy exposed to 0, 5 and 10 g common salt/L water. The median lethal concentration (LC50) was estimated at 16.54 g common salt/L water, by logistic regression analysis. Platy showed an increase in blood glucose at 24 h with increased salinity, but glucose levels decreased at 96 h of in fish exposed to 10 and 15 g/L. These findings suggest that short periods of exposure to common salt in water trigger stress responses in juvenile platy. Therefore, common salt should not be used in the handling and transport of platy, at the exposure times evaluated.

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“…O sal é descrito como uma substância que regula a homeostase e protege o corpo do peixe, auxiliando na produção de muco, entretanto sua administração na água de transporte é feita de forma aleatória pelos produtores (MAZIC; SIMCO;PARKER, 1991;WURTS, 1995;GOMES et al, 2003b). O produto é amplamente utilizado na tentativa de redução do estresse durante o transporte, porém sendo observados efeitos positivos e negativos desta prática URBINATI 2001;SALARO et al, 2015). Para alevinos da espécie A. altiparanae o sal, na concentração de até 6 g.L -1 , não causou mortalidade e reduziu os efeitos do estresse durante o transporte, entretanto concentrações de 12 e 15 g.L -1 provocaram respectivamente 50 e 100% de mortalidade num período de 3 horas de contínua exposição (SALARO et al, 2015).…”

Section: Resultsunclassified

“…O produto é amplamente utilizado na tentativa de redução do estresse durante o transporte, porém sendo observados efeitos positivos e negativos desta prática URBINATI 2001;SALARO et al, 2015). Para alevinos da espécie A. altiparanae o sal, na concentração de até 6 g.L -1 , não causou mortalidade e reduziu os efeitos do estresse durante o transporte, entretanto concentrações de 12 e 15 g.L -1 provocaram respectivamente 50 e 100% de mortalidade num período de 3 horas de contínua exposição (SALARO et al, 2015). Fonte: Própria autoria A lactato desidrogenase (LDH), também denominada desidrogenase láctica, é uma enzima terminal da glicólise anaeróbia, responsável pela conversão do ácido lático muscular em ácido pirúvico, etapa importante na produção de energia pela célula.…”

Section: Resultsunclassified

“…Para peixes de água doce são sugeridas concentrações que variam entre 5 a 10 g.L -1 na redução do estresse de transporte (HARMON, 2009). Para transporte de alevinos da espécie A. altiparanae foi observado que o sal na concentração de até 6 g.L -1 , não causou mortalidade, e reduziu os efeitos do estresse durante o transporte (SALARO et al, 2015) Algumas alternativas além do sal têm sido empregadas como, por exemplo, drogas anestésicas como a benzocaína, óleo de cravo e 2-fenoxietanol, entre outras, que são utilizadas para o manejo e ou transporte de peixes (OLIVEIRA et al, 2009;PEREIRA-DA-SILVA et al, 2009;WEBER et al, 2011). Estes fármacos induzem à perda parcial ou completa da percepção dos estímulos externos e, portanto, os possíveis danos físicos e efeitos do estresse (SUMMERFELT; SMITH, 1990;IWAMA;ACKERMAN, 1994;ROSS;ROSS, 2008).…”

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Potencial mitigador do óleo de cravo sobre as respostas fisiológicas ao estresse de exposição aérea e de transporte no lambari, <i>Astyanax altiparanae</i> (GARUTTI & BRITSKI, 2000)

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<b>Transport of <i>Astyanax altiparanae</i> Garutti and Britski, 2000 in saline water

Cited by 9 publications

References 29 publications

The use of feed and water additives for live fish transport

The use of feed and water additives for live fish transport

Acute salinity tolerance of juvenile platy, Xiphophorus maculatus

Potencial mitigador do óleo de cravo sobre as respostas fisiológicas ao estresse de exposição aérea e de transporte no lambari, <i>Astyanax altiparanae</i> (GARUTTI & BRITSKI, 2000)

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<b>Transport of <i>Astyanax altiparanae</i> Garutti and Britski, 2000 in saline water

Cited by 9 publications

References 29 publications

The use of feed and water additives for live fish transport

The use of feed and water additives for live fish transport

Acute salinity tolerance of juvenile platy, Xiphophorus maculatus

Potencial mitigador do óleo de cravo sobre as respostas fisiológicas ao estresse de exposição aérea e de transporte no lambari, <i>Astyanax altiparanae</i> (GARUTTI &amp; BRITSKI, 2000)

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Potencial mitigador do óleo de cravo sobre as respostas fisiológicas ao estresse de exposição aérea e de transporte no lambari, <i>Astyanax altiparanae</i> (GARUTTI & BRITSKI, 2000)