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 | Acesso ao texto completo restrito à biblioteca da Biblioteca Rui Tendinha. Para informações adicionais entre em contato com biblioteca@incaper.es.gov.br. |
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Registro Completo |
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Biblioteca(s): |
Biblioteca Rui Tendinha. |
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Data corrente: |
13/01/2015 |
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Data da última atualização: |
13/01/2015 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Autoria: |
BARROSO, M. V.; CARVALHO, C.V.A. de.; ANTONIASSI, R.; CERQUEIRA, V.R. |
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Afiliação: |
Marcia Vanacor Barroso, Incaper. |
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Título: |
Use of the copepod Acartia tonsa as the first live food for larvae of the fat snook Centropomus parallelus. |
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Ano de publicação: |
2013 |
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Fonte/Imprenta: |
Aquaculture, v. 388-391, p. 153-158, 2013. |
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Idioma: |
Português |
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Conteúdo: |
High-quality live food is essential for reducing the frequent high mortality of newly hatched fat snook (Centropomus parallelus) larvae in hatcheries. Copepods, a rich nutrition source, cultivated with the microalgae Chaetoceros muelleri and Isochrysis galbana, were evaluated as food for 0?14-day-old larvae. Two experiments were performed using nine 50-L tanks stocked with 2500 embryonated fat snook eggs. Three different dietary (treatments) were tested in triplicate: Experiment 1, Treatment 1 (Control), using rotifers Brachionus rotundiformis (20 mL− 1); Treatment 2 (Copepod), larvae were fed with Acartia tonsa (nauplii and copepodits, 0.1 mL− 1); and Treatment 3 (Mixed), larvae were fed with A. tonsa (0.05 mL− 1) and rotifers (10 mL− 1). In Experiment 2 to increase the density of live food, food organisms and the phytoplankton were introduced into the experimental tanks with the embryonated eggs and were stocked: Treatment 1, 20 rotifers mL− 1; Treatment 2, 0.5 copepods mL− 1; and Treatment 3, 10 rotifers mL− 1 and 0.25 copepods mL− 1. In Experiment 1, the Mixed Treatment increased significantly the survival rate (16.0% ± 7.5%) and mean larval weight (0.84 ± 0.05 mg) in relation to the other treatments. In Experiment 2, we observed significant improvements in larval notochord flexion in the Copepod and Mixed Treatment. The essential fatty acid profile of fat snook eggs had a DHA:EPA:ARA ratio of 11.4:2.4:1.0 while larvae in the Mixed and Copepods Treatments had ratios of 2.5:1.9:1.0 and 5.5:1.9:1.0, respectively. We conclude that the survival, development and the relationship between the major fatty acids were improved in treatments with copepods. MenosHigh-quality live food is essential for reducing the frequent high mortality of newly hatched fat snook (Centropomus parallelus) larvae in hatcheries. Copepods, a rich nutrition source, cultivated with the microalgae Chaetoceros muelleri and Isochrysis galbana, were evaluated as food for 0?14-day-old larvae. Two experiments were performed using nine 50-L tanks stocked with 2500 embryonated fat snook eggs. Three different dietary (treatments) were tested in triplicate: Experiment 1, Treatment 1 (Control), using rotifers Brachionus rotundiformis (20 mL− 1); Treatment 2 (Copepod), larvae were fed with Acartia tonsa (nauplii and copepodits, 0.1 mL− 1); and Treatment 3 (Mixed), larvae were fed with A. tonsa (0.05 mL− 1) and rotifers (10 mL− 1). In Experiment 2 to increase the density of live food, food organisms and the phytoplankton were introduced into the experimental tanks with the embryonated eggs and were stocked: Treatment 1, 20 rotifers mL− 1; Treatment 2, 0.5 copepods mL− 1; and Treatment 3, 10 rotifers mL− 1 and 0.25 copepods mL− 1. In Experiment 1, the Mixed Treatment increased significantly the survival rate (16.0% ± 7.5%) and mean larval weight (0.84 ± 0.05 mg) in relation to the other treatments. In Experiment 2, we observed significant improvements in larval notochord flexion in the Copepod and Mixed Treatment. The essential fatty acid profile of fat snook eggs had a DHA:EPA:ARA ratio of 11.4:2.4:1.0 while larvae in t... Mostrar Tudo |
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Thesaurus NAL: |
Fatty acids; Hatchery; Lipids; Marine fish. |
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Categoria do assunto: |
-- |
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Marc: |
LEADER 02328naa a2200205 a 4500
001 1004901
005 2015-01-13
008 2013 bl uuuu u00u1 u #d
100 1 $aBARROSO, M. V.
245 $aUse of the copepod Acartia tonsa as the first live food for larvae of the fat snook Centropomus parallelus.$h[electronic resource]
260 $c2013
520 $aHigh-quality live food is essential for reducing the frequent high mortality of newly hatched fat snook (Centropomus parallelus) larvae in hatcheries. Copepods, a rich nutrition source, cultivated with the microalgae Chaetoceros muelleri and Isochrysis galbana, were evaluated as food for 0?14-day-old larvae. Two experiments were performed using nine 50-L tanks stocked with 2500 embryonated fat snook eggs. Three different dietary (treatments) were tested in triplicate: Experiment 1, Treatment 1 (Control), using rotifers Brachionus rotundiformis (20 mL− 1); Treatment 2 (Copepod), larvae were fed with Acartia tonsa (nauplii and copepodits, 0.1 mL− 1); and Treatment 3 (Mixed), larvae were fed with A. tonsa (0.05 mL− 1) and rotifers (10 mL− 1). In Experiment 2 to increase the density of live food, food organisms and the phytoplankton were introduced into the experimental tanks with the embryonated eggs and were stocked: Treatment 1, 20 rotifers mL− 1; Treatment 2, 0.5 copepods mL− 1; and Treatment 3, 10 rotifers mL− 1 and 0.25 copepods mL− 1. In Experiment 1, the Mixed Treatment increased significantly the survival rate (16.0% ± 7.5%) and mean larval weight (0.84 ± 0.05 mg) in relation to the other treatments. In Experiment 2, we observed significant improvements in larval notochord flexion in the Copepod and Mixed Treatment. The essential fatty acid profile of fat snook eggs had a DHA:EPA:ARA ratio of 11.4:2.4:1.0 while larvae in the Mixed and Copepods Treatments had ratios of 2.5:1.9:1.0 and 5.5:1.9:1.0, respectively. We conclude that the survival, development and the relationship between the major fatty acids were improved in treatments with copepods.
650 $aFatty acids
650 $aHatchery
650 $aLipids
650 $aMarine fish
700 1 $aCARVALHO, C.V.A. de.
700 1 $aANTONIASSI, R.
700 1 $aCERQUEIRA, V.R.
773 $tAquaculture$gv. 388-391, p. 153-158, 2013.
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Biblioteca Rui Tendinha (BRT) |
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| Acesso ao texto completo restrito à biblioteca da Biblioteca Rui Tendinha. Para informações adicionais entre em contato com biblioteca@incaper.es.gov.br. |
|
Registro Completo |
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Biblioteca(s): |
Biblioteca Rui Tendinha. |
|
Data corrente: |
25/08/2016 |
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Data da última atualização: |
25/08/2016 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Circulação/Nível: |
- - - |
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Autoria: |
CULIK, M. P.; ZEPPELINI FILHO, D. |
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Afiliação: |
Mark Paul Culik, CNPq/Incaper; Douglas Zeppelini Filho, Universidade Federal da Para´?ba. |
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Título: |
Diversity and distribution of Collembola (Arthropoda: Hexapoda) of Brazil. |
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Ano de publicação: |
2003 |
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Fonte/Imprenta: |
BIODIVERSITY & CONSERVATION, v. 12, n. 6, p. 1119?1143, june 2003. |
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Idioma: |
Inglês |
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Conteúdo: |
Objectives of this study are to summarize the current state of knowledge of the diversity and distribution of Collembola in Brazil; to identify areas of most importance, interest, and need of additional research; and to enable development of experimental hypotheses for future research on Collembola in this region. The total number of collembolan species currently known from Brazil is 199, distributed among 19 families and 80 genera. The greatest numbers of species have been recorded from the states of Rio de Janeiro and Amazonas (with 69 and 56 species, respectively). Few or no species are known from most Brazilian states. Most of the species for which specific Brazilian environmental habitat information is available (93, 66%) are known only from forest environments. Most of the species (127, 64%) are known only from Brazil (most likely being endemic); 33 species (17%) are known only from Brazil and other neotropical areas; and 39 species (20%) have a distribution beyond the neotropical region. Results of this study indicate that much remains to be learned about the Brazilian collembolan fauna. This is especially true for areas of the northeastern, central-western, and southern regions. Studies to determine the species composition of collembolan communities in specific environments in Brazil are needed. The great diversity of Collembola species in Brazil is largely unknown and there are many opportunities for additional research on these environmentally important organisms in this area. Such additional research on the Collembola in Brazil is also essential for a better understanding of the neotropical (and world) collembolan fauna. MenosObjectives of this study are to summarize the current state of knowledge of the diversity and distribution of Collembola in Brazil; to identify areas of most importance, interest, and need of additional research; and to enable development of experimental hypotheses for future research on Collembola in this region. The total number of collembolan species currently known from Brazil is 199, distributed among 19 families and 80 genera. The greatest numbers of species have been recorded from the states of Rio de Janeiro and Amazonas (with 69 and 56 species, respectively). Few or no species are known from most Brazilian states. Most of the species for which specific Brazilian environmental habitat information is available (93, 66%) are known only from forest environments. Most of the species (127, 64%) are known only from Brazil (most likely being endemic); 33 species (17%) are known only from Brazil and other neotropical areas; and 39 species (20%) have a distribution beyond the neotropical region. Results of this study indicate that much remains to be learned about the Brazilian collembolan fauna. This is especially true for areas of the northeastern, central-western, and southern regions. Studies to determine the species composition of collembolan communities in specific environments in Brazil are needed. The great diversity of Collembola species in Brazil is largely unknown and there are many opportunities for additional research on these environmentally important organisms i... Mostrar Tudo |
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Thesaurus NAL: |
Biogeography; Biological diversity; Brazil; Collembola; Neotropical; Soil microarthropods. |
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Categoria do assunto: |
O Insetos e Entomologia |
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Marc: |
LEADER 02262naa a2200205 a 4500
001 1011777
005 2016-08-25
008 2003 bl uuuu u00u1 u #d
100 1 $aCULIK, M. P.
245 $aDiversity and distribution of Collembola (Arthropoda$bHexapoda) of Brazil.$h[electronic resource]
260 $c2003
520 $aObjectives of this study are to summarize the current state of knowledge of the diversity and distribution of Collembola in Brazil; to identify areas of most importance, interest, and need of additional research; and to enable development of experimental hypotheses for future research on Collembola in this region. The total number of collembolan species currently known from Brazil is 199, distributed among 19 families and 80 genera. The greatest numbers of species have been recorded from the states of Rio de Janeiro and Amazonas (with 69 and 56 species, respectively). Few or no species are known from most Brazilian states. Most of the species for which specific Brazilian environmental habitat information is available (93, 66%) are known only from forest environments. Most of the species (127, 64%) are known only from Brazil (most likely being endemic); 33 species (17%) are known only from Brazil and other neotropical areas; and 39 species (20%) have a distribution beyond the neotropical region. Results of this study indicate that much remains to be learned about the Brazilian collembolan fauna. This is especially true for areas of the northeastern, central-western, and southern regions. Studies to determine the species composition of collembolan communities in specific environments in Brazil are needed. The great diversity of Collembola species in Brazil is largely unknown and there are many opportunities for additional research on these environmentally important organisms in this area. Such additional research on the Collembola in Brazil is also essential for a better understanding of the neotropical (and world) collembolan fauna.
650 $aBiogeography
650 $aBiological diversity
650 $aBrazil
650 $aCollembola
650 $aNeotropical
650 $aSoil microarthropods
700 1 $aZEPPELINI FILHO, D.
773 $tBIODIVERSITY & CONSERVATION$gv. 12, n. 6, p. 1119?1143, june 2003.
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