Diel patterns of zooplankton grazing in a shallow lake

A diel survey of in situ species-specific zooplankton clearancerates (with radioactively labelled Chlorella cells) was conductedin the shallow lake of Cr?teil characterized by small-sizedplanktonic forms (algae<10µm and zooplankton <1.3mm). Experiments were performed every 4h at two depths (1 and4m). Power functions relating individual filtering rates tobody length were established for the three most abundant cladoceransand for calanoids (nauplii being included in this feeding group),for each depth and time. No filtering penodicity was observedin Ceriodaphnia spp., adults and copepodites of Eudiaptomusgracilis and Eurytemora velox, and nauplii. On the contrary,clear nocturnal filtering peaks were obtained for Daphnia spp.and for Diaphanosoma brachyurum, these being more pronouncedfor the larger individuals at 1 m deep. The observed diel periodicitycannot be explained by variations in physico-chemical parametersor food concentration alone. The ecological significance ofthis phenomenon in the polymictic lake of Cr?teil is discussedin the light of previously published data and the hypothesesaccounting for it.     

The influences of weather and topography on water bird migration in the southwestern United States

Summary Radar and visual observations were made on water bird migration throuh the Southwest at six stations from February 1973 through November 1974. The influence of weather on nocturnal non-passerine migration in the Southwest is less significant than reported for passerine migration elsewhere. Both seasonality and weather factors influence water bird migration, but the relative contribution of each is strongly dependent on the specific migration season. Spring migration, which has more extreme weather conditions, shows a stronger correlation to meteorological factors. Autumn migration in the Southwest rarely experiences severe weather, and consequently shows a stronger correlation to seasonality than to weather.The intensity of spring non-passerine migration was highly correlated with height of freezing level, temperature at sunset and midnight, humidity at sunset, cloud height at sunset and midnight, following winds aloft, and inversely related to change in temperature and day of the year. The most important variables listed by the stepwise linear multiple regression analysis were freezing level, following winds aloft, day of the year, and surface wind speed. When the height of the lowest cloud layer was allowed to enter the regression analysis, freezing level and cloud height were the most significant variables, with the intensity of migration higher with higher freezing level and higher cloud base. The most important variables predicting the occurrence or absence of migration were freezing level, barometric pressure and dew point.Autumn water bird migration was most highly correlated with cloud height and day of the year, and inversely correlated with humidity. The most important variables from the stepwise regression analysis and discriminant function analysis were day of the year, 670 m following-wind speed, and temperature. When cloud height was allowed to enter the model, it was the only significant factor influencing migration. As in spring, higher rates of autumn migration occurred with higher freezing levels.More migration occurred on the Great Plains than in the Rocky Mountains; but within the mountains, geography had little influence on the intensity of migration. Indirect evidence indicates that waterfowl and shorebirds move over the mountains (up to 2000 m above the surrounding terrain and 3500 m above sea level), rather than around them.     

Top-down effects of crustacean zooplankton on pelagic microorganisms in a mesotrophic lake

A series of single-factor in situ experiments was conductedin a mesotrophic lake in Brandenburg, North Germany, to studythe predatory impact of Eudiaptomus graciloides (adults, copepodites,nauplii), cyclopoid copepods (adult Diacyclops bicuspidatus,Thermocyclops oithonoides) and daphnids (adult Daphnia hyalina,Daphnia cucullata) on the microbial community (bacteria, autotrophicpicoplankton, flagellates, ciliates). All zooplankton speciestested reduced the ciliate community significantly and ingestionrates were always higher for ciliates in the 20–55 µmsize category as compared to smaller ciliates (10–20 µm).Adult E.graciloides, which exhibited the highest predatory impacton ciliates, differed from cyclopoids and daphnids by theirability to decimate ciliates to very low abundances. Ingestionrates of ciliates by the crustacean zooplankton followed thesequence E.graciloides > daphnids = cyclopoids = copepodites.While top-down control was evident for ciliates, top-down effectsdown to the autotrophic picoplankton and flagellates were mostlyrestricted to Daphnia-dominated treatments. Top-down effectswere never strong enough to produce negative bacterial growthrates. For all zooplankton tested, clearance rates for ciliatesexceeded those for phytoplankton. Besides the potential of thecrustacean zooplankton to influence the structure of ciliatecommunities, ciliates may contribute to the energy demands ofcopepods and daphnids, especially when phytoplankton resourcesare limited.     

Microscale patchiness of plankton within a sharp pycnocline

Microscale distributions of plankton around the pycnocline werestudied over a 24 h period in the southern Kattegat, using agradient sampler which collects 20 samples over a 3 m depthinterval. Moderately elevated concentrations of phyto- and zooplanktonwere observed at the pycnocline. Microscale variance was highestfor adult copepods. Nauplii and copepodites were equally wellrepresented by sampling with ordinary vertical 5 1 water bottlesas with the horizontal 1.5 1 bottles of the gradient sampler.Adult copepods were underestimated by the vertical bottles.No vertical migration of dinoflagellates was observed over the3 m interval covered by the gradient sampler. Microscale correlationsbetween copepods and phytoplankton within the gradient samplerwere weak. Copepodites (mainly Oithona sp.) and the dinoflagellateProrocentrum micans showed the best correlation.     

Small-scale distribution of macroplankton and micronekton in the Ligurian Sea (Mediterranean Sea) as observed from the manned submersible Cyana

A series of eight submersible dives (the MIGRAGEL I cruise)was made during late April 1986 using the French submersibleCyana to investigate macrozooptankton in the upper 400–700m of the water column. Paired day and night dives were madeat stations 3, 6, 13 and 23 nautical miles off Cape Ferrat,near Villefranche-sur-Mer, France; the distances represent differentareas in the frontal system of the Ligurian Sea. Detailed day/nightvertical distribution data are shown for the most abundant species;these include the narcomedusa Solmissus albescens, teleost fishCyclothone spp., small appendiculanans (primarily Oikopleuraalbicans), large appendicularians (an undescribed oikopleurid),diphyid siphonophores (mostly Chelophyes appendiculata) andan abundant lobate ctenophore. Salps, pyrosomes, amphipods (Phroniumasedentaria), pteropods (Cavolinia inflexa), macroscopic ‘star-like’protozoa and marine snow are also briefly discussed. The coastalzone was dominated by small appendicularians in the upper layers,with other filter feeders including large appendicularians indeeper water—these just above a non-migratory populationof carnivorous Cyclothone. The carnivorous medusa Solmissusalbescens moved throughout the upper 600 m in the course ofits diel vertical migration. Offshore, carnivores were dominantthroughout the water column, with numerous diphyid siphonophoresin the upper layers, and Cyclothone, lobate ctenophores andmacroprotozoa abundant in deeper water. Solmissus was also present,and was more numerous offshore than in the coastal zone.     

Are bacteria an important food source for rotifers in eutrophic lakes?

In situ grazing measurements using fluorescent particles of0.5, 2.4 and 6.3 µm diameter in eutrophic Lake Loosdrecht(The Netherlands) showed that Anuraeopsis fissa, a small rotifer,filtered the smallest, bacteria-sized particles as efficientlyor more efficiently than the larger particles. In contrast,three other rotifer species (Brachionus angularis, Filinia longisetaand Pompholyx sulcata) filtered the bacteria-sized particlesless efficiently than the larger particles. Both Keratella cochlearisand Conochilus unicornis only ingested the bacteria-sized particles.Anuraeopsis fissa had a higher uptake of fluorescent bacteria-sizedparticles than K.cochlearis, both in 1 µm filtrate oflake water and in lake water. Within both species, uptake didnot differ between juveniles and adults. When cultured on threedifferent size fractions of lake water (1, 3 and 15 µmfiltrate) in July, all rotifer species declined in numbers onthe 1 and 3 µm filtrates, while A.fissa and B.angularisincreased in numbers on the 15 µm filtrate. The high abundanceof small bacteria in the lake water could not support rotiferpopulations. It is concluded that bacteria are not a suitablefood source of high quality for A.fissa because its populationdoes not grow even though the bacterial concentration was higherthan its estimated threshold food concentration. In August,when individually cultured, the mortality was high for all species,but especially for F.longiseta. The lifespan of K.cochleariswas reduced in the 1 and 3 µm filtrates of lake water,compared with in the 15 µm filtrate. The lifespan of A.fissawas similar in all filtrates, but reproduction was reduced inthe 1 and 3 µm filtrates, as in Keratella. On the 15 µmfiltrate, their ages at first reproduction and growth ratesdid not differ. Individuals of A.fissa older than 4 days showeda higher survival in the 15 µm filtrate than in the othertwo filtrates, as did K.cochlearis throughout its life. Hence,bacteria seem to be a more important food source for youngerindividuals of A.fissa than of K.cochlearis.     

Observations on diurnal vertical migration and phased cell division for three coexisting marine dinoflagellates

An experiment was performed in the beginning of September 1988in the Gullmar Fjord, eastern Skagerrak, in order to study diurnalvertical migration and phased cell division for a natural phytoplanktoncommunity dominated by the dinoflagellates Prorocentrum minimum,Prorocentrum micans and Cerattum furca. A 1 80 m high and 0.30wide non-transparent PVC cylinder was filled with surface watercontaining the dominant dinoflagellates. An artificial haloclinewas created by adding high salinity, nutrient-rich bottom waterto the bottom of the cylinder Cell densities were measured atseven depths at 11 times during 48 h Physical parameters (temperature,salinity, phosphate, nitrate, ammonia and silicate) were measuredat the start and at the end of the experiment in the water columnabove and below the halocline. Strong diurnal vertical migrationpatterns were found for all three species with an aggregationof cells at the surface in the morning and during the day andat the bottom at night. The descent and ascent seemed to startbefore sunset and sunrise respectively and all species wereable to migrate through the strong artificial halocline. Somedifferences were found in the speed and timing of migrationbetween the species with P.minimum having the most pronouncedand fastest migration of the three Cell division frequency washighest at 05.00 at the bottom and also at the surface At othertimes and depths the division was always close to zero. Thedecrease in especially nitrate concentrations in the bottomwater of the cylinder suggests that these dinoflagellates arecapable of dark nitrogen assimilation.     

Fish-induced sediment resuspension: effects on phytoplankton biomass and community structure in a shallow hypereutrophic lake

An in situ mesocosm experiment was performed at Old Woman CreekEstuary, OH, to assess the importance of fish-induced sedimentresuspension in regulating phytoplankton biomass and communitystructure Six polyethylene tubes (1 m diameter x 2 m long) wereplaced into the lake, enclosing portions of the water columnand sediments Three duplicated treatments were established:(i) control, no fish, (ii) fish, stocked with small fish fromthe lake; and (iii) fish/net, stocked with fish, but into tubeswith coarse nets suspended above the sediments to prevent resuspension.Total P concentrations and algal biomass in the fish tubes becamemarkedly higher than the fish/net and control tubes. Centricdiatoms and small cryptomonads were the initial dominants. Inthe lake and fish tubes, this community was replaced by nanochlorophytes.In the fish/ net and control tubes, a very different successionoccurred, where large cryptomonads became dominant These resultsindicate that sediment nutrient resuspensions by fish activitiescan maintain a phytoplankton community in an immature state,with small r-selected dominants. When sediment nutrient resuspensionwas prevented (in the fish/net and control tubes), larger algalspecies increased in relative biovolume, regardless of whetherfish were present.     

Pyrosoma atlanticum (Tunicata, Thaliacea): diel migration and vertical distribution as a function of colony size

A large population of the colonial pelagic tunicate Pyrosomaatlanticum occurred in April 1991 in offshore waters of theLigurian Sea (Northwestern Mediterranean). The high numbersof colonies caught allowed their vertical distribution and dielmigration in the 0–965 m water column to be describedas a function of their size. Daytime depths and amplitudes ofthe migration were correlated with colony size. The amplitudeof the migration ranged from 90 m for 3-mm-length colonies to760 m for 51-mm-length colonies, with a mean amplitude of 410m for the whole population, all sizes pooled. The results ofhorizontal hauls at a given depth around sunrise and sunsetshowed a marked diurnal symmetry of the migratory cycle relativeto noon, and that migration of the population was not cohesive.For example, the larger the colonies, the later after sunsetthey reached the upper layers during their upward migration.     

Predaceous feeding habits of Limnocalanus macrurus

Limnocalanus macrurus, a large, glacial-relict copepod, hasbeen assumed an omnivore or a herbivore; predaceous habits ofthe species are unknown. The predaceous feeding habits of Limnocalanusfrom Lake Michigan were studied in the laboratory using naturalprey. Predation rates were highest on copepod nauplii. Copepoditesof Diaptomus spp. and Cyclops spp. were preyed upon at lowerrates. Limnocalanus preyed selectively upon nauplii <300µm. Small cyclopoid copepodites (<–750 µm)were also selected over large copepodites. Experiments usingtwo prey types showed that nauplii were selected over all copepodites,and that no selectivity existed for either diaptomid or cyclopoidcopepodites. Predaceous feeding habits began in the fourth copepoditestage of Limnocalanus. Predaceous feeding rates of Limnocalanuschanged seasonally being highest in late spring and autumn andlowest in summer and early winter. Since Limnocalanus also feedson net-phytoplankton, predation rate changes may be relatedto changes in the relative abundance of large phytoplanktonand naupliar prey in nature. Limnocalanus predation may be animportant factor in structuring the zooplankton community. Present address: Great Lakes Research Division, University Michigan,Ann Arbor, MI 48109, USA     

How important is bacterial carbon to planktonic grazers in a turbid, subtropical lake?

This study examined the relative contributions of bacterialand phytoplankton production to the pelagic carbon flow of LakeOkeechobee, a large and shallow subtropical lake. Due to thepredominance of cyanobacteria in this lake, we hypothesizedthat bacterial carbon flow would be larger than phytoplanktoncarbon flow to grazers. Using epifluorescent and light microscopyand radiotracer techniques, we measured the carbon biomass ofplanktonic functional groups and carbon flow between these groups.The functional groups that we used in this study included: picophytoplankton,autotrophic nanoflagellates (ANAN), microphytoplankton, bacteria,heterotrophic nanoflagellates (HNAN), ciliates, microzooplankton(rotifers and copepod nauplii) and macrozooplankton (cladocerans,copepodites and adult copepods). Microphytoplankton dominatedthe carbon biomass of all plankton, whereas the calanoid copepod,Diaptomus, dominated the carbon biomass of the grazers. Phytoplanktoncarbon flow often was higher than bacterial carbon flow to grazers;however, bacterial carbon constituted a large percentage ofthe total carbon flow to grazers (33.7 ± 22.4%). Bacterialcarbon provided roughly one quarter of the carbon flow to macrozooplankton(27.1 ± 25.4%), whereas it provided half of the carbonflow to microzooplankton (57.4 ± 20.3%) and to protozoans(47.2 ± 25.8%). These results suggest that microbialpathways play an important role in the energetics of subtropicallake plankton communities. Although microbial loop pathwaysare important in many systems, direct bacterial carbon flowto macrozooplankton also may be important in copepod- and cyanobacteria-dominatedlakes.     

Ontogeny of growth, respiration and feeding rate of the freshwater calanoid copepod Eudiaptomus graciloides

The calanoid copepod, Eudiaplomus graciloides, was reared fromegg to adult on uni-algal diets (0.1. 0.5 and 2.5 mg dry wt1^–1) using the green alga, Chlamydomonas reinhardtii,as food, or on a mixed diet consisting of Lake Esrom water filteredthrough a plankton net with pore size 45 µm and supplementedwith C. reinhardtii (2.5 mg dry wt 1^–1). On the mixeddiet at 21.0°C growth in body dry wt (W, µg dry wt)was exponential, and the growth constants were 0.21 day^–1in the early to mid juvenile stage (N1 - C4) and 0.11 day^–1in the late juvenile to early adult stage (C4-A). At 14.5°Cthe corresponding growth rate constants were 0.10 and 0.08 day^–1.Similar growth rates were found at uni-algal concentrationsof 0.5 and 2.5 mg dry wt I^–1, and it was argued that thethreshold concentration for growth in Eudiaptomus was closeto 0.1 mg dry wt I^–1. The clearance (C, ml h^–1)of copepodites was measured on the uni-algal diets. The constantsof the regression (C = aW^b) were: a = 0.125, b = 0.858 (2000C. reinhardtii ml^–1), a = 0.068, b = 0.849 (10 000), a= 0.028, b = 0.875 (50 000). Ingestion rates were calculatedfrom the clearances and the average algal concentrations. Atthe three food levels the average daily rations were 30, 67and 125% of body dry wt. The respiration rate (R, nl O₂ h^–1)was measured in individuals reared on the mixed diet. The constantsof the regression (R = aW^b) were: a = 4.82, b = 1.07 (nauplii,14.5°C), a = 4.17, b = 0.904 (copepodites and adults, 14.5°C),a = 6.87, b = 0.757 (copepodites and adults, 21.0°C). Nosignificant difference in the respiration rate of copepoditesreared on uni-algal diets and the mixed diet could be demonstrated.Energy budgets were calculated. The assimilation efficiencyand the gross growth efficiency of copepodites decreased markedlywith increasing food concentration, the net growth efficiencyvaried from an average of 0.44 at the lowest algal concentrationto 0.60 on the mixed diet. The results are discussed in relationto previous findings with both freshwater and marine copepods.     

农田作物层温度初步研究—以冬小麦、夏玉米为例

观测表明,充分供水的麦田作物层温度在一昼夜的大部分时间内,低于作物层顶以上1.5米处气温。8—10点叶温有时比气温稍高。叶温与气温差最大值出现在日落后至露出现前一段时间内,晴日无风天气大约出现在日落后一小时。白昼,夏玉米作物层温度高于气温,冬小麦作物层温度低于气温。夜间,小麦和玉米叶温都比气温低。土壤水分不足,蒸腾速率减小,叶温升高,叶温与气温差增大。叶温的变化反映了作物自身的水分状况。     

The diel migrations and vertical distributions of zooplankton and micronekton in the Northwestern Mediterranean Sea. 1. Euphausiids, mysids, decapods and fishes

Vertical distributions and diel migrations of the main speciesof micronekton, four euphausiids, one mysid, one decapod andthree fishes, were described in detail in the 0–1000 mwater column on a fixed station in the Northwestern MediterraneanSea. The euphausiids Euphausia krohni and Thysanopoda aequalis,the decapod Gennadas elegans and, to a lesser extent, the fishArgyropelecus hemigymnus were shown to perform clear diel verticalmigrations. Results of horizontal hauls at a given depth aroundsunrise and sunset showed a marked diurnal symmetry of the migratorycycles, particularly for E.krohni, T.aequalis and G.elegans.The behaviour of the euphausiid Nematoscelis megalops was morecomplex: it presented a repetitive bimodal day distributionand only part of its population migrated. As very weak or non-migratorswe found the euphausiid Stylocheiron longicorne and the bathypelagicmysid Eucopia unguiculata, for which migration concerned onlysome of the older individuals. The fishes Cyclothone braueriand Cyclothone pygmaea appeared to be non-migrants. As depthincreased, C.braueri was replaced by C.pygmaea, with maximumconcentrations at 350–550 and 550–700 m depth, respectively.     

Annual cycle of zooplankton community in the Abra Harbour (Bay of Biscay): abundance, composition and size spectra

The annual cycle of the zooplankton community in a coastal embaymentof the Bay of Biscay was studied from data on zooplankton fractionslarger than 45 and 250 µm Smaller zooplankton and chlorophyllmaxima coincided in summer, while larger zooplankton reachedthe maximum in spring. Copepods dominated in both fractionsmost of the year, being copepod nauplii and postnaupliar stagesof Oithona nana and Paracalanus parvus the main constituentsof the microzooplankton maxima, and older copepodites and adultsof Acartw clausi of the meso-macrozooplankton maxima. Secondarypeaks of abundance due to protozoan blooms of Steno-semellanivalu, in early spring, and Noctiluca santillans, in summer,were also observed in smaller and larger fractions respectively.The collapse of phytoplankton biomass in early autumn was followedby a strong decrease of zooplankton in mid autumn. From thisperiod to winter, chlorophyll and zooplankton abundance showedsmall variations, but noticeable changes in the compositionand size spectra of zooplankton were observed. In winter, valuesof chlorophyll and zooplankton abundance reached minima, A.clausidominated the copepod assemblage and carnivorous zooplankterswere absent or negligible The annual development of the mainpredator populations (Sagitta frideria, Luiopc tetraphylla andanchovies) were found to be synchronized with the variationsin abundance and size spectra of zooplankton in the study area.     

Comparison of nets and pump sampling gears to assess zooplankton vertical distribution in stratified lakes

The efficiency of a cantilevered bridle net was tested in comparisonwith a Wisconsin net and a pumping system to sample zooplanktonorganisms in three water layers (epi-, meta- and hypolimnion)of three Canadian Shield lakes. Variations among samplers werecompared to variations due to within-lake vertical distributionof zooplankters and among lake variations. For each lake andwater layer, we also assessed the efficiency of the three methodsaccording to the catches of zooplanktonic taxa. The highestpercentages of variation were generally due to lake or water-layereffects; interaction between sampling gears and water layerswas above 50% for most taxa, except cladoceran. Sampling methodsexplained more variation than the lake effect for some zooplanktontaxa, indicating that using different sampling devices couldpotentially alter the among-lake variation interpretation ofzooplankton abundance. The pumping system captured higher densitiesof animals per taxa than the cantilever and the Wisconsin nets.The cantilever net generally captured mobile taxa more efficiently(Polyarthra vulgaris, copepods, Daphnia sp., Diaphanosoma brachyurumand chaoborids) than the Wisconsin net and the pumping system,but its efficiency varied among water layers.     

Contribution of nanoprotists to metazooplankton diet in a mesocosm experiment in the coastal northern Baltic

Grazing by a metazooplankton community on nanoprotists <10µm was studied four times during a 21 day enclosure experimentcarried out off the SW coast of Finland in late summer. Duringthe study, the pelagic community was manipulated through nutrientenrichment (N + P) and through predation by stickleback fry.Grazing experiments were conducted in the laboratory using 5µm prefiltered, ³H-labelled nanoplankton as tracer food. Grazing by mesozooplankton (Meso) and metazaan microplankton(Micro), screened through 140 and 100 µm mesh, was studied.Owing to enrichment effects and weak predation control by fish,the biomass of Meso and Micro increased during the study peridMeso biomass consisted mostly of the copepod Eurytemora affinisand the cladoceran Bosmina longispims maritima, and Micro biomassof copepod nauplii NIII–NVI. The community clearance rateof Meso usually exceeded that of Micro when feeding on nanoprotistsThe opposite was found for the biomass-smc clearance rate, revealingnanoprotists to be a more important f d source for Micro thanfor Meso. Metazmplankton were not able to control nanoprotists,because Meso and Micro were estimated to remove on average 4and 2% of nanoprotowan biomass daily. When integrated throughthe study period, grazing on nanoprotists could meet 5 and 17%of the carbon need for Meso and Micro, 3 and 12% of their productionbeing estimated to consist of bacterial carbon transferred bynanoprotists Micro were estimated to be more closely Linkedto the microbial food web than Meso, suggesting that the trophicpusition of copepods changes slightly during their maturationfrom nauphi to larger copepodites. ¹ Present address: Department of Ecology and Systematics, Divkionof Hydrobiology, University of Helsinki, FIN-00014, Helsinki,Finland     

A metalimnetic oxygen minimum indirectly contributing to the low biomass of cladocerans in Lake Hiidenvesi – a diurnal study on the refuge effect

The diurnal vertical migrations of smelt (Osmerus eperlanus), larvae of phantom midge (Chaoborus flavicans) and cladoceran zooplankton in eutrophic Lake Hiidenvesi were studied in order to clarify the factors behind the low zooplankton biomass. In the study area, an oxygen minimum occurred in the metalimnion in the 10–15 m depth. No diurnal fluctuations in the position of the minimum were observed. Cladocerans inhabited the epilimnion throughout the study period and their vertical movements were restricted to above the thermocline and above the oxygen minimum. C. flavicansconducted a diurnal migration. During the day, the majority of the population inhabited the 12 – 15 m depth just in the oxygen minimum, while during darkness they were found in the uppermost 8 m. Smelts started ascending towards the water surface before sunset and reached the uppermost 3 m around 23:00. During daytime, the majority of smelts inhabited the depth of 7–9 m, where the water temperature was unfavourably high for them (18 °C). Smelts thus probably avoided the steep oxygen gradient in the metalimnion, whereas Chaoborusused the oxygen minimum as a refuge against predation. Those smelts that were found in the same water layers as Chaoborusused the larvae as their main prey. The metalimnetic oxygen minimum thus seemed to favour the coexistence of vertebrate and invertebrate predators, leading to a depression of cladoceran zooplankton.     

Planktonic predators and copepod abundance near the Dutch coast

Hypotheses that planktonic predators are responsible for thespring-summer decrease in copepod abundance and that the dominantpredator, Pleurobrachia pileus, is associated with high concentrationsof copepods were investigated at a station near the Dutch coast.Neither hypothesis was supported. Predators and copepods weresampled together with a 156 L ‘water box’ from lateApril through early July, including the season of P.pileus abundance.Using predators and copepods from the same box samples, hencefrom the same water parcel, feeding rates on copepod naupliiand copepodites + adults were measured onboard ship. Less than6% of the copepods, the sensitivity of the method, were removedper day. In additional shipboard feeding experiments net-caughtP.pileus were added to ambient copepod densities. By combiningwater volume cleared of copepods with ambient P.pileus densityin the sea, the predicted impact was 0–1.6% of copepodseaten per day from late April to early July. The hypothesisthat P.pileus associates with copepod concentrations was testedby comparing abundances of both groups from the same box samples.The correlations were not significant for any sample series.The ways measurement methods have restricted progress in understandingthe predatory impact of Pleurobrachia sp. are also considered.     

SOME OBSERVATIONS ON THE VERTICAL MIGRATION OFDINOFLAGELLATES 12

The technique of measuring chlorophyll concentration in vivo by fluorometric analysis has been adapted to studying the diurnal migration of dino-flagellates in the sea and also in a deep tank (3 m in diameter by 10 m deep). The downward migration of Ceratium furca was followed during a bloom off the California coast. The main band of cells migrated from the upper 2 m to a depth of 5 m about 2 hr after sunset, and was dispersed between 5 and 16 m 4.5 hr after sunset. Cultures of Gonyaulax polyedra and Cachonina niei both migrated to the surface of the deep lank during illumination and migrated downward during darkness at a rate of 1-2 mjhr. The downward migration was observed to begin before the light was turned off, indicating that migration is correlated with a cellular periodicity which is to some extent independent of the light regime. Further evidence for such a periodicity was afforded by observations that C. niei start to migrate up in the water column before start of the light period. Nitrogen-limited cells of G. polyedra showed no diurnal migration, but within 1 day after addition of a nitrogen source they recovered their full migratory ability. Cells of C. niei, however, continued to migrate during 5 days of N-starvation, although they did not concentrate in the upper 1/2 m as did the control cells.