Grazing rates and behaviors of Neocalanus plumchrus: implications for phytoplankton control in the subarctic Pacific Michael R. LandryJoyce M. Lehner-Fournier Part One: Rate Processes in Field Populations of Planktonic Copepods Pages: 9 - 19
Day/night differences in the grazing impact of marine copepods Michael R. RomanKathyrn A. AshtonAnne L. Gauzens Part One: Rate Processes in Field Populations of Planktonic Copepods Pages: 21 - 30
Copepod feeding behavior and the measurement of grazing rates in vivo and in vitro E. J. H. Head Part One: Rate Processes in Field Populations of Planktonic Copepods Pages: 31 - 41
Ecological significance of individual variability in copepod bioenergetics Ulf Båmstedt Part One: Rate Processes in Field Populations of Planktonic Copepods Pages: 43 - 59
Should we expect a relationship between primary production and fisheries? The role of copepod dynamics as a filter of trophic variability J. A. Runge Part One: Rate Processes in Field Populations of Planktonic Copepods Pages: 61 - 71
Review of the taxonomy of the Calanidae (Copepoda) and the limits to the genus Calanus J. M. Bradford Part Two: The Taxonomy and Biology of Calanus Pages: 73 - 81
Feeding biology of Calanus: a new perspective Mark Huntley Part Two: The Taxonomy and Biology of Calanus Pages: 83 - 99
The lipid biochemistry of calanoid copepods J. R. SargentS. Falk-Petersen Part Two: The Taxonomy and Biology of Calanus Pages: 101 - 114
An evaluation of factors affecting vertical distribution among recruits of Calanus finmarchicus in three adjacent high-latitude localities Kurt S. Tande Part Two: The Taxonomy and Biology of Calanus Pages: 115 - 126
Comparative life histories in the genera Calanus and Neocalanus in high latitudes of the northern hemisphere R. J. Conover Part Two: The Taxonomy and Biology of Calanus Pages: 127 - 142
Response of harpacticoid copepods to habitat structure at a deep-sea site David ThistleJames E. Eckman Part Three: Oceanic and Deep-Se Copepods Pages: 143 - 149
Spatial heterogeneity and niche differentiation in oceanic zooplankton R. Williams Part Three: Oceanic and Deep-Se Copepods Pages: 151 - 159
Independent life cycles: an alternative to the asynchronism hypothesis for antarctic Calanoid copepods Victor Marin Part Three: Oceanic and Deep-Se Copepods Pages: 161 - 168
Midwater biomass profiles over the Madeira Abyssal Plain and the contribution of copepods H. S. J. Roe Part Three: Oceanic and Deep-Se Copepods Pages: 169 - 181
Rapid responses to stress in Eurytemora affinis Brian P. BradleyRoxana HakimzadehJames S. Vincent Part Four: Marine Plankton Pages: 197 - 200
Influence of temperature and food concentration on body size, weight and lipid content of two Calanoid copepod species W. C. M. Klein BretelerS. R. Gonzalez Part Four: Marine Plankton Pages: 201 - 210
Comparative carbon-specific ingestion rates of phytoplankton by Acartia tonsa, Centropages velificatus and Eucalanus pileatus grazing on natural phytoplankton assemblages in the plume of the Mississippi River (northern Gulf of Mexico continental shelf) Patricia A. TesterJefferson T. Turner Part Four: Marine Plankton Pages: 211 - 217
Propagation of planktonic copepods: production and mortality of eggs Thomas KiørboeFlemming MøhlenbergPeter Tiselius Part Four: Marine Plankton Pages: 219 - 225
Seasonal occurrence and dominance of Centropages congeners in the Middle Atlantic Bight, USA George C. Grant Part Four: Marine Plankton Pages: 227 - 237
Seasonal size distribution of developmental stages of sub-antarctic copepod Suzanne RazoulsClaude Razouls Part Four: Marine Plankton Pages: 239 - 246
Observations on egg production rates and seasonal changes in the internal morphology of Mediterranean populations of Acartia clausi and Centropages typicus Adrianna IanoraBruno Scotto di Carlo Part Four: Marine Plankton Pages: 247 - 253
The copepod Centropages abdominalis as a carrier of the stalked ciliate Zoothamnium Sachiko Nagasawa Part Four: Marine Plankton Pages: 255 - 258
Vertical distribution and seasonal numerical abundance of the Calanidae in oceanic waters to the south-west of the British Isles R. WilliamsD. V. P. Conway Part Four: Marine Plankton Pages: 259 - 266
Protein polymorphisms in six species of the genus Calanus J. M. SevignyI. A. McLaren Part Four: Marine Plankton Pages: 267 - 274
Body sizes, development rates, and genome sizes among Calanus species I. A. McLarenJ. M. SevignyC. J. Corkett Part Four: Marine Plankton Pages: 275 - 284
Temperature-dependent development and growth of Calanus sinicus (Copepoda: Calanoida) in the laboratory Shin-ichi Uye Part Four: Marine Plankton Pages: 285 - 293
Foraging tactics and prey-selection patterns of omnivorous and carnivorous calanoid copepods Charles H. Greene Part Four: Marine Plankton Pages: 295 - 302
Impedance traces of copepod appendage movements illustrating sensory feeding behaviour C. W. GillS. A. Poulet Part Four: Marine Plankton Pages: 303 - 310
Observations on the taxonomic composition and vertical distribution of cyclopoid copepods in the central Red Sea Ruth Böttger-Schnack Part Four: Marine Plankton Pages: 311 - 318
Planktonic copepods of the Bras d'Or Lakes system, Nova Scotia, Canada Chang-tai ShihLen MarhueRobin Munro Part Four: Marine Plankton Pages: 319 - 324
Summer-winter differences in copepod distribution around South Georgia Angus AtkinsonPeter Ward Part Four: Marine Plankton Pages: 325 - 334
Vertical distribution of Pleuromamma (Copepoda: Metridinidae) across the eastern North Pacific Ocean Loren R. Haury Part Four: Marine Plankton Pages: 335 - 342
Preliminary observations on the copepods of Tudor Creek, Mombasa, Kenya N. Revis Part Four: Marine Plankton Pages: 343 - 350
On Gaussia Wolfenden (Copepoda, Calanoida, Metridinidae) Tagea K. S. BjörnbergAntonio Frederico Campaner Part Four: Marine Plankton Pages: 351 - 356
A new genus of Platycopioida (Copepoda) from a marine cave on Bermuda Audun FosshagenThomas M. Iliffe Part Four: Marine Plankton Pages: 357 - 361
Geographical variation in dormancy in a copepod: evidence from population crosses Grace A. Wyngaard Part Five: Freshwater Copepods Pages: 367 - 374
Changes of Copepoda populations in Lake Kiret during 1969–1985 M. Gophen Part Five: Freshwater Copepods Pages: 375 - 379
Contribution to the taxonomy and distribution of Cyclops abyssorum Sars (Crustacea, Copepoda) in several lakes and ponds of central Italy E. Stella Part Five: Freshwater Copepods Pages: 381 - 385
Taxonomy of the genus Megacyclops (Crustacea, Copepoda): morphometry and the use of enzyme electrophoresis Ulrich K. Einsle Part Five: Freshwater Copepods Pages: 387 - 391
Genetic differentiation of freshwater pond copepods at arctic sites M. G. BoileauP. D. N. Hebert Part Five: Freshwater Copepods Pages: 393 - 400
On some freshwater harpacticois from Japan, closely related to Canthocamptus mirabilis Štěrba Yoshiaki KikuchiTeruo Ishida Part Five: Freshwater Copepods Pages: 401 - 407
Locomotion in copepods: pattern of movements and energetics of Cyclops M. AlcarazJ. R. Strickler Part Five: Freshwater Copepods Pages: 409 - 414
On nine Tropodiaptomus-species (Copepoda, Calanoida) from equatorial East Africa Henri J. DumontSibylle Maas Part Five: Freshwater Copepods Pages: 415 - 427
Yansacyclops ferrarii, new genus, new species (Copepoda: Cyclopoida) from the Amazon Basin, Brazil Janet W. Reid Part Five: Freshwater Copepods Pages: 429 - 434
Harpacticoid copepods from Una do Prelado River (São Paulo, Brazil): genus Schizopera Maria Paloma Jimenez Alvarez Part Five: Freshwater Copepods Pages: 435 - 444