pdf - Laboratório de Ecologia do Ictioplâncton - Furg
pdf - Laboratório de Ecologia do Ictioplâncton - Furg pdf - Laboratório de Ecologia do Ictioplâncton - Furg
142 Bé, A.W.H. (1962). Quantitative multiple opening-and-closing plankton samplers. Deep-Sea Research, 9, 144–151. Beers, J.R., Stewart, J.L. & Strickland, J.D. (1967). A pumping system for sampling small plankton. Journal of Fisheries Research Board of Canada, 24: 1811-1818. Boltovskoy, D. (1981). Atlas del zooplancton del Atlántico Sudoccidental y métodos de trabajo com el zooplancton marino. Publicação especial de INIDEP. 936pp Bossanyi, J. (1951). An apparatus for the collection of plankton in the immediate vicinity of the sea-bottom. Journal of the Marine Biological Society, 30, 265–270. Brown, D.M., & Cheng, L. (1981). New net for sampling the ocean surface. Marine Ecology Progress Series, 5, 225–227. Bruce, R.H. & Aiken, J. (1975). The undulating oceanographic recorder - A new instrument system for sampling plankton and recording physical variables in the euphotic zone from a ship underway. Marine Biology, 32, 85-97. Checkley, D.M.Jr, Ortner, P.B., Settle, L.R., & Cummings, S.R. (1997). A continuous, underway fish egg sampler. Fisheries Oceanography, 6, 58–73. Clarke, G.L., & Bumpus, D.F. (1950). The plankton sampler — an instrument for quantitative plankton investigations. Special Publication of the American Society of Limnology and Oceanography, 5, 1–8. Clarke, M. (1969). A new midwater trawl for sampling discrete depth horizons. Journal of the Marine Biological Association of the United Kingdom, 49, 945–960. Currie, R.I. (1963). The Indian Ocean standard net. Deep-Sea Research, 10, 27–32. Dunn, J., Hall, C.D., Heath, M.R., Mitchell, R.B., & Ritchie, B.J. (1993a). ARIES-a system for concurrent physical, biological, and chemical sampling at sea. Deep-Sea Research I, 40, 867–878. Dunn, J., Mitchell, R.B., Urquhart, G.G., & Ritchie, B.J. (1993b). LOCHNESS - a new multi-net midwater sampler. ICES Journal of Marine Science, 50, 203–212. Dussart, B.H. (1965). Les différentes catégories de plâncton. Hydrobiologia, 26, 72-74. Fraser, J.H. (1966). Zooplankton sampling. Nature, London, 211, 915–916. Gehringer, J.W. (1952). High-speed plankton samplers: An all-metal plankton sampler (model Gulf III). United States Fish and Wildlife Service Special Scientific Report Fisheries, 88, 7– 12. Glover, R.S. (1953). The Hardy plankton indicator and sampler: a description of the various models in use. Bulletin Marine Ecology, 4, 7–20. Hardy, A.C. (1926). A new method of plankton research. Nature, London, 118, 630-632. Hutchinson (1967). A Treatise on Limnology. Introduction to Lake Biology and the Limnoplankton, vol. II. New York: Isaacs, J.D. & Kidd, L.W. (1953). Isaacs-Kidd midwarter trawl. Final Report. Scripps Institute of Oceanography. Ref. 53-3. (Oceanographic equipament n° 1). 1-18. Jossi, J.W. (1966). The ICIRTA one-meter plankton net: description and evaluation. Limnology and Oceanography, 11, 640–642. Kofoid, C.A. (1911). On a self-closing plankton net for horizontal towing. University of California Publications in Zoology, 8, 312–340.
143 Longhurst, A.R., Reith, A.D., Bower, R.E., & Seibert, D.L.R. (1966). A new system for the collection of multiple serial plankton samples. Deep-Sea Research, 13, 213–222. McGowan, J.A., & Brown, D.M. (1966). A new opening-closing paired zooplankton net. Scripps Institute of Oceanography Reference, 66/23, 1–56. Methot, R.D. (1986). Frame trawl for sampling pelagic juvenile fish. CalCOFI Report, 27, 267- 278. Miller, C.B. & Judkins, D.C. (1981). Design of pumping systems for sampling zooplankton, with descriptions of two high-capacity samplers for coastal studies. Biological Oceanography, 1, 29-56. Nansen, F. (1915). Closing-nets for vertical hauls and for horizontal towing. Publications de Circonstance - Conseil Permanent International pour l’Exploration de la Mer, 67, 1–8. Nash, R.D.M., Dickey-Collas, M. & Milligan, S.P. (1998). Descriptions of Gulf-VII/PRO-NET and MAFF/Guildline unencased high-speed plankton samplers. Journal of Plankton Research, 20, 1915-1926. Nibakken, J.W. (1993). Marine Biology: an ecological approach (3rd. Edition). Harper Colling College Publishers, New York. 462 p. Omori M. & Ikeda, T. (1984). Methods in Marine Zooplankton Ecology. Wiley-Intercience Publication. 332pp. Powlick, J.J., John, M.M.S., & Blake,R.W. (1991). A retrospective of plankton pumping systems, with notes on the comparative efficiency of towed nets. Journal of Plankton Research, 13, 901–912. Posgay, J.A., & Marak, R.R. (1980). The MARMAP bongo zooplankton samplers. Journal of Northwest Atlantic Fisheries Science, 1, 91–99. Russell, F.S. (1928). A net for catching plankton near the bottom. Journal of the Marine Biological Association of the United Kingdom, 15, 105–108. Rützeler, K., Ferraris, J.D., & Larson, R.J. (1980). A new plankton sampler for coral reefs. Marine Ecology, 1, 65–71. Sameoto, D.D. & Jaroszynski, L.O. (1976). Some zooplankton net modifications and developments. Canadian Fisheries and Marine Service, Technical Report, 679. Sameoto, D.D., Jaroszynski, L.O., & Fraser, W.B. (1980). BIONESS, a new design in multiple net zooplankton samplers. Canadian Journal of Fisheries and Aquatic Sciences, 37, 693– 702. Solemdal, P. & Ellertsen, B. (1984). Sampling fish larvae with large pump, quantitative and qualitative comparisons with traditional gear. In: Dall, E., Danielssen, D. S., Mokness, E. Solemdal, P. (Eds.). The propagation of cod Gadus morhua L. Flodevigen rapportser 1, 335- 363. Thompson, J.V. (1828). On the metamorphoses of the Crustacea, and on zoea, exposing their singular structure and demonstrating that they are not as hasa been supposed, a peculiar Genus, but the larvae of Crustacea. Zool. Res. 1:1-67. Tucker, G.H. (1951). Relation of fishes and other organisms to the scattering of underwater sound. Journal of Marine Research, 10, 215–238. UNESCO 1979. Monographs on Oceanographic Methodology Vol. 2. Zooplankton Samples.174pp.
- Page 100 and 101: 92 10 m de cabo de náilon seda tra
- Page 102 and 103: 94 Figura 10. Formas de redes mais
- Page 104 and 105: 96 5.3.5.1.2. Cilindro cônica WP-2
- Page 106 and 107: 98 para sustentar as outras 3 inter
- Page 108 and 109: 100 provocar o fluxo. Presa no fina
- Page 110 and 111: 102 Clarke-Bumpus Clarke & Bumpus (
- Page 112 and 113: 104 5.3.5.3.2. Fechamento Múltiplo
- Page 114 and 115: 106 LOCHNESS Versão melhorada da B
- Page 116 and 117: 108 Disparar a segunda rede, que fe
- Page 118 and 119: 110 Figura 18. Amostradores de Alta
- Page 120 and 121: 112 cerca de 10 Mn (18,52 km) a uma
- Page 122 and 123: 114 ambiental ou outra, é necessá
- Page 124 and 125: 116 tem sido utilizados tanto para
- Page 126 and 127: 118 ortogonais de organismos em um
- Page 128 and 129: 120 de ser uma ferramenta para sepa
- Page 130 and 131: 122 7. Equipamentos auxiliares 7.1.
- Page 132 and 133: 124 O fluxômetro n°XXX cuja leitu
- Page 134 and 135: 126 7.4. Mecanismo de fechamento Eq
- Page 136 and 137: 128 9. Métodos de trajeto 9.1. Ver
- Page 138 and 139: 130 Observar a inclinação do cabo
- Page 140 and 141: 132 Para arrasto de fundo, a profun
- Page 142 and 143: 134 Protocolo de coleta para trajet
- Page 144 and 145: 136 se os copos coletores estão be
- Page 146 and 147: 138 FICHA DE COLETA VERTICAL Embarc
- Page 148 and 149: 140 FICHA DE ARRASTO OBLÍQUO CRUZE
- Page 152 and 153: 144 Weikert, H., & John, H.C. (1981
- Page 154 and 155: 146 2.2. Classificação quanto ao
- Page 156 and 157: 148 Entre os organismos sedentário
- Page 158 and 159: 150 Organismos perfurantes Perfuran
- Page 160 and 161: 152 decorrente da estiagem que ocor
- Page 162 and 163: 154 relação entre o comprimento d
- Page 164 and 165: 156 Nas dragas-âncora (Fig. 5B) pl
- Page 166 and 167: 158 A limitação dos pegadores de
- Page 168 and 169: 160 VII. Organismos Nectônicos San
- Page 170 and 171: 162 2.1.2. Pescarias de pequena esc
- Page 172 and 173: 164 Figura 2. Produção pesqueira
- Page 174 and 175: 166 enredados ou presos (Hubert, 19
- Page 176 and 177: 168 Sistema de abertura horizontal:
- Page 178 and 179: 170 camarão possuem fios e malhas
- Page 180 and 181: 172 Figura 7. Rede de arrasto de vi
- Page 182 and 183: 174 3.2.3 Rede de arrasto de portas
- Page 184 and 185: 176 Existem vários tipos de anzol
- Page 186 and 187: 178 3.3.3. Espinheis O equipamento
- Page 188 and 189: 180 samburá pescavam de forma impr
- Page 190 and 191: 182 conseguem ultrapassar o pano, o
- Page 192 and 193: 184 não deve ter mais do que 1,5 a
- Page 194 and 195: 186 Entretanto, algumas destas medi
- Page 196 and 197: 188 grupos da mesma espécie, que p
- Page 198 and 199: 190 Figura 19. Resultado final da c
142<br />
Bé, A.W.H. (1962). Quantitative multiple opening-and-closing plankton samplers. Deep-Sea<br />
Research, 9, 144–151.<br />
Beers, J.R., Stewart, J.L. & Strickland, J.D. (1967). A pumping system for sampling small<br />
plankton. Journal of Fisheries Research Board of Canada, 24: 1811-1818.<br />
Boltovskoy, D. (1981). Atlas <strong>de</strong>l zooplancton <strong>de</strong>l Atlántico Su<strong>do</strong>cci<strong>de</strong>ntal y méto<strong>do</strong>s <strong>de</strong> trabajo<br />
com el zooplancton marino. Publicação especial <strong>de</strong> INIDEP. 936pp<br />
Bossanyi, J. (1951). An apparatus for the collection of plankton in the immediate vicinity of the<br />
sea-bottom. Journal of the Marine Biological Society, 30, 265–270.<br />
Brown, D.M., & Cheng, L. (1981). New net for sampling the ocean surface. Marine Ecology<br />
Progress Series, 5, 225–227.<br />
Bruce, R.H. & Aiken, J. (1975). The undulating oceanographic recor<strong>de</strong>r - A new instrument<br />
system for sampling plankton and recording physical variables in the euphotic zone from a<br />
ship un<strong>de</strong>rway. Marine Biology, 32, 85-97.<br />
Checkley, D.M.Jr, Ortner, P.B., Settle, L.R., & Cummings, S.R. (1997). A continuous, un<strong>de</strong>rway<br />
fish egg sampler. Fisheries Oceanography, 6, 58–73.<br />
Clarke, G.L., & Bumpus, D.F. (1950). The plankton sampler — an instrument for quantitative<br />
plankton investigations. Special Publication of the American Society of Limnology and<br />
Oceanography, 5, 1–8.<br />
Clarke, M. (1969). A new midwater trawl for sampling discrete <strong>de</strong>pth horizons. Journal of the<br />
Marine Biological Association of the United King<strong>do</strong>m, 49, 945–960.<br />
Currie, R.I. (1963). The Indian Ocean standard net. Deep-Sea Research, 10, 27–32.<br />
Dunn, J., Hall, C.D., Heath, M.R., Mitchell, R.B., & Ritchie, B.J. (1993a). ARIES-a system for<br />
concurrent physical, biological, and chemical sampling at sea. Deep-Sea Research I, 40,<br />
867–878.<br />
Dunn, J., Mitchell, R.B., Urquhart, G.G., & Ritchie, B.J. (1993b). LOCHNESS - a new multi-net<br />
midwater sampler. ICES Journal of Marine Science, 50, 203–212.<br />
Dussart, B.H. (1965). Les différentes catégories <strong>de</strong> plâncton. Hydrobiologia, 26, 72-74.<br />
Fraser, J.H. (1966). Zooplankton sampling. Nature, Lon<strong>do</strong>n, 211, 915–916.<br />
Gehringer, J.W. (1952). High-speed plankton samplers: An all-metal plankton sampler (mo<strong>de</strong>l<br />
Gulf III). United States Fish and Wildlife Service Special Scientific Report Fisheries, 88, 7–<br />
12.<br />
Glover, R.S. (1953). The Hardy plankton indicator and sampler: a <strong>de</strong>scription of the various<br />
mo<strong>de</strong>ls in use. Bulletin Marine Ecology, 4, 7–20.<br />
Hardy, A.C. (1926). A new method of plankton research. Nature, Lon<strong>do</strong>n, 118, 630-632.<br />
Hutchinson (1967). A Treatise on Limnology. Introduction to Lake Biology and the<br />
Limnoplankton, vol. II. New York:<br />
Isaacs, J.D. & Kidd, L.W. (1953). Isaacs-Kidd midwarter trawl. Final Report. Scripps Institute of<br />
Oceanography. Ref. 53-3. (Oceanographic equipament n° 1). 1-18.<br />
Jossi, J.W. (1966). The ICIRTA one-meter plankton net: <strong>de</strong>scription and evaluation. Limnology<br />
and Oceanography, 11, 640–642.<br />
Kofoid, C.A. (1911). On a self-closing plankton net for horizontal towing. University of California<br />
Publications in Zoology, 8, 312–340.
Change language