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Phytoplankton Species Composition and Abundance Along the Pacific Coast of Canada, 1979 PDF

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Scientific Excellence • Resource Protection & Conservation • Benefits for Canadians Ex~ellence scientifique • Protection et conservation des ressources • Benefices aux Canadien Phytoplankton Species Composition and Abundance Along the Pacific Coast of Canada, 1979 - 1989 Volume 1: 1979 - 1984 J.R. Forbes and R.E. Waters Institute of Ocean Sciences Department of Fisheries and Oceans Sidney, B.C. 1993 Canadian Data Report of Hydrography and Ocean Sciences No. 117 1+1 Fisheries Peches Canada and Oceans et Oceans ----------------- CanadianData Report Of Hydrography and Ocean Sciences These reports provide a medium for the documentation and dissemination of -datainaform directlyuseable by the scientific-andengineeringcommunities. Generally, thereports willcontain raw and/oranalyzed databutwill not con tain interpretations ofthe data. Such-compilations will commonly have been pre pared insupportofworkrelatedtotheprogramsandinterestsoftheOceanScience and Surveys (OSS) sectorofthe DepartmentofFisheriesand Oceans. Data Reports are produced regionally but are numbered and indexed nation ally. Requests forindividual reports will be fulfilled by the issuingestablishment listed onthefrontcoverand title page. Outofstp.(!k[;~portsWiIJige;~~pplle9-~0r.a:fee by commercial agents. _ _-- Regional and headquarters establishments of Ocean Sciencecand Surveys ceased publication oftheirvarious report series as ofDecember]98].A complete listing of these publications and the last number issued under each title are pub lished in the Canadian Journal ofFisheries and Aquatic Sciences, Volume 38: Index to Publications 198I. The current series began with Report Number ] in January]982. . Rapport statistique canadien sur I'hydrographie etles sciences oceaniques - Cesrapports servent de vehicule pourla compilation et la diffusion des don- nees sous une forme directementutilisableparles scientifiques et les techniciens. En general, les rapports contiennentdes donnees brutes ouanalysees maisne fournisserit pas d'interpretations des donnees. Ces compilation's sont preparees Ie plus souventaJ'appui de travaux reli..e.~,rtl;lxprogffinv:pes,et,-ip..teretsdu servicedes' Sciences et Leves oceaniques (SLO) du rninisteredes Pechesetdes Oceans. Les rapports statistiques sont produits aI'echelon regional mais sont numer otes et places dans J'index al'echelon national. Les demandes de rapports seront satisfaitesparl'etablissementauteurdont Ienomfigure sur lacouvertureet lapage de titre. Les rapports epuises seront fournis contre retribution par des agents commerciaux. a Les etablissementsdes Scienceset Levesoceaniquesdans lesregionset I'ad ministration centrale ont cesse de publierleurs diverses series de rapports depuis decembre 1981. Vous trouverez dans I'index des publications du volume 38 du Journal canadien des sciences halieutlques et aquatiques, la listede ces publica tions ainsi que Iedernier numero paru dans chaquecategoric. La nouvelle serie a commenceaveclapublication du Rapportn'"l enjanvier 1982. .. Canadian Data Report of Hydrography and Ocean Sciences No. 117 1993 PHYTOPLANKTON SPECIES COMPOSITION AND ABUNDANCE ALONG THE PACIFIC COAST OF CANADA, 1979- 1989 VOLUME 1: 1979 -1984 J.R. Forbes and R.E.Waters .. Institute ofOcean Sciences Department ofFisheries and Oceans Sidney, B.C. ii Authors' addresses: J.R.Forbes DepartmentofFisheries and Oceans Institute of OceanSciences P.O.Box6000 Sidney, B.C., Canada, V8L 4B2 R~E. Waters BOManorWay OnslowVillage, Guildford ux Surrey, GU25RR, C MinistryofSupplyand Services Canada-1993 Cat.No. Fs 97-16/117 ISSN 0711-6721 ... Correct citationfor this publication: Forbes, J.R. andR.E.Waters. 1993.Phytoplanktonspecies compositionandabundancealongthePacific coast ofCanada, 1979-1989.Volume1:1979- 1984.Can. DataRep. Hydrogr. OceanSci.117 (Vol.1): 212p. iii CONTENTS Abstract / Resume IV Acknowledgements V Introduction 1 1 Methods 1.Samplingstrategies andnavigation 2.CTD/rosettecasts and discretewatersamples 3.Seawaterloop samples 4.Phytoplanktontaxonomicand abundancesamples 5.Salinity 6. Chlorophylla 7.Inorganicnutrients 8. Particulateorganiccarbon andnitrogen 13 Units 14 Noteson thetaxonomy 17 References 19 Taxonomicreferences consulted Data (bycruise) 25 79-04 31 79-05 80-05 37 80-08 53 81-05 81 99 81-AA 103 81-07 82-01 115 125 82-PB 82-02 133 83-02 1~3 167 83-04 193 84-02 205 84-SI - -- ----------------- iv Abstract Forbes,J.R., andR.E. Waters. 1993. Phytoplankton species composition and abundance along the Pacific coast ofCanada, 1979:-1989.Volume1:1979-1984.Can.DataRep. Hydrogr. OceanSci.117(Vol. 1):212p. Phytoplankton species composition and abundance data from samples collected in coastal waters of British Columbia from 1979 to 1989are presented. Data from two cruises in the subarctic Pacific Ocean are also provided. We include data on associated water properties (salinity, temperature, chlorophyll, inorganic nutrients, particulate organic nitrogen and particulate organic carbon) as available. R.esults for 1979 to 1984 and details of sampling and analytical procedures are given in volume 1. Results from 1985 to 1989 are presentedinvolume 2. Keywords: phytoplankton,taxonomy,distribution, water properties Resume Forbes,J.R., andR.E. Waters. 1993.Phytoplanktonspecies composition and abundancealong the Pacific coast ofCanada, 1979- 1989.Volume 1:1979-1984.Can.DataRep. Hydrogr. Ocean Sci.117(Vol.1): 212p. On presente des donnees sur la composition en especes et sur l'abondance du phytoplancton resultant de a ny l'analyse d'echantillons preleves dans les eaux co'tieres de la Colombie-Britannique de 1979 1989.. a egalement des donnees recueillis au cours de deux expeditions dans la region subarctique de I'ocean Pacifique. S'ajoutent Ies donnees existantes sur les proprietes connexes de l'eau (salinite, temperature, teneur en chlorophylle,matieres nutritivesinorganique, azote organique enparticules et carbone organique en particules). Dans Ie volume1, ondonne lesresultats desanalyses de1979111984ainsi que des details sur Ies a methodes d'echantillonnage et d'analyse. Les resultats des analyses de 1985 1989sont presentes dans Ie volume2. Mot-des: phytoplancton, taxonomic,distribution, proprietes de l'eau v 'Acknowledgements We thank fellowtaxonomists who contributed to the data set: Merelene Austin, Judy Akerman and Rowan Haigh. Leslie Brown, Patricia Smith and Dr. FJ.R. (Max) Taylor provided assistance with some taxonomic problems. Access to the Northeast Pacific Culture Collection facilitated work with live material. We also appreciate the assistance of staff of the Ocean Environment and Fisheries section, along with numerous students and contractors, who were involvedwithsampling or analysis of associated water samples. Samples werecollectedfrom the C.S.S.Parizeau, C.S.S.Vector,C.S.S.John P. Tully,CoS.S. Revisor, F.P.V. Walker Rock, M.V.OceanKingand M.V.Bastion City. We thankpersonnel ofthese vesselsfortheirassistance. ----,------ 1 Introduction The Ocean Environment and Fisheries section of the Institute of Ocean Sciences has been involved in continuing studies of the control by oceanographic processes of the planktonic ecosystem over the continental shelf of British Columbia. As part of this work, we have collected phytoplankton samples to determine the species composition and abundance of the phytoplankton community. In addition, a number of short term projects have included collection of phytoplankton samples in both nearshore waters and oceanicwaters of the subarctic Pacific. This report provides detailed data on the abundance and species composition of photoautotrophicplankton samples collected from 1979to 1989 (VoU: 1979-1984; Vol. 2: 1985-1989),together withassociatedphysicaland chemical data. Obligately heterotrophictaxa havebeen excluded. Some of these data have been published previously in conjunction with reports on specific cruises or projects (Hillet al. 1982a,b, Hill et al. 1983,Denman et al.1985,Forbes et al.1988,Forbes et al. 1990a,b). However, this report will enable the complete set of data to be archived in one place and available for comparison. In addition, therehavebeenanumber ofchangesinnomenclatureand correctionstothe data. Data collected with the phytoplankton samples varied according to changing research objectives. Generally included were temperature, salinity and chlorophylla. Concentrations of dissolved inorganic nitrogen (nitrate plus nitrate), phosphorus (orthophosphate) and silicon (reactive silicate), as well as dissolved oxygen and radioactivecarbonuptakerates, werefrequently determined. Methods 1. Sampling strategies and navigation Our sampling has been concentrated off the west coast of Vancouver Island and in the Strait of Georgia {Fig.1),with less dense coveragein othercoastal waters. Fewsamples have beentaken in coastal inlets or near shore. Exceptionsinclude several samples takeninAliceArm on the extremenorthcoast inAugust1981:afew samples collected in Saanich Inlet on southeast Vancouver Island at various times, and an extensive set of samples from Barkley Sound on the west coast of Vancouver Island acquired in May 1988. Data from two cruises to Ocean Station P (500 N, 1450 W) in the subarctic Pacific are also included here. Records are restrictedto themonthsfrom Aprilto October (Table1),with 95% ofsamples takenbetweenMayandAugust. As noted above, the samples reported here were collected in a variety of projects and for differing goals. In general, however, where a single sample was obtained at a location, it was collected in the upper mixed layer. Additionalsampleswere frequentlycollectedwithinand below thepycnocline. 2 The majority of samples were collected from large vessels, with positioning establishedfbyLoran-Cicln near shoresituations, positioningwas supportedbyradar and, occasionally,visualbearings. 2. CTD/rosette casts and discretewatersamples Vertical profiles of physical, chemical and biological data were collected with an integrated array of instruments, mountedina frame attached to a rosette sampler. A microcomputer on the vessel stored the data and provided real-time display of temperature, salinity and chlorophyll fluorescence. In general, the instruments in the array were a Guildline model 8701 analog CTD, a Variosens III fluorometer, a Sea Tech 25cmpath length transmissometer to measure beam attenuance, and a Licor 1935Bspherical quantum sensor, to measure in situ photosynthetically active irradiance. During a typical cast, the instrument package was . lowered at a rate of0.5to1cm.s'", and the depths to collect water samples were determined from data acquired on the down cast. The rosette sampler held an array of ten Niskin or Go-Flo bottles. One or more of these bottles was tripped on the up cast and data from all sensors were sampled and recorded at the time the bottle closed. Water collected in the bottles was used for discrete samples of one or more of salinity, chlorophylla, dissolved inorganic nutrients, bacteria, particulateorganic carbonand nitrogen, and phytoplankton identityand abundance. The manufacturer of the CTD specifies an accuracy of±O.01° C,with a resolution of 0.003°C for temperature, an accuracyof±1.25dBar and a resolution of0.25dBar for pressure, and an accuracyof±O.Ol psu for salinity, with a resolutionof0.OO5psu. . 3. Seawaterloopsamples Sampleswere collectedfrom vessel seawaterloops in associationwith continuousunderwaymappingoperations of near surface water properties. Continuous underway data of zooplankton abundance and size categories, salinity, temperature and chlorophyll fluorescence were collected with a flow-through electronic particle counting system (EPCS) (Mackas et al. 1981) coupled to temperature, conductivity and fluorescence sensors (Mackas et al.1980). Waterwas pumpedfrom anominaldepth of1to3m via athrough-hull fitting in the bow thruster compartment, or from a hose mounted on a strut attached to side of the ship. This type of mapping was usually performed at night, as the primary objective was to map the horizontal distribution ofvertically migratingzooplankton. Periodicdiscrete watersamples were taken from the system outflowfor calibration of the electronicsensors, as well as supplementary data such as dissolved inorganic nutrients and phytoplankton identity and abundance. On occasion, bucket samples were also taken from over the side of the ship, to enable comparison of surface and near-surfacewaterproperties. 4. Phytoplanktontaxonomicandabundancesamples Phytoplankton samples were collected in vials or bottles of 20 -250mL. Samples were preserved with acidic Lugol'sfixative (Throndsen1978). Selectedduplicatesamples from oceanic waters were preservedwith neutral Lugol's fixative, to improveidentificationand quantificationoftaxawith calcareousparts. Identification and enumeration of taxa was by settling and inverted microscopy (Hasle 1978). Specifically, a subsample of between 2 and SOmL(usually 10mL) was settled in a settling chamber. Thevolume settled was chosen to yield between 100and 300 cells or chains of the more abundant medium sizedspecies (chain or cell 3 3 volume 1000 jJ.m - cell volume 10000 jJ.m ) present. In cases of extremely low concentration, successive sedimentations through a SOmL cylinder into the same 2mL chamber were performed. When cell concentrations were unacceptably dense, samples were diluted in filtered (O.4~m membrane filter) seawater containingLugol'ssolution. Whereverpossible a minimum of400cells,chains and colonies was counted. 3 Medium sized, large, rare and exotic species were enumerated from the entire bottom of the settling chamber at 300X magnification. For species exceeding 200.individuals or colonies,every second, fifth or tenth transect (for 11f' 11 or 1/ of the chamber respectively) were counted. Smaller species were counted at 312.5X or 5 10 500X( 1 to 1/ or 1/ to 1/ ofthe chamberrespectively) from one or moretransects. 20 2, 57 14 Analytical methods varied slightlyfor samples collected in 1988. In this year, nanoflagellates were counted at ·480Xusing randomfields until a totalof200specimens had been enumerated. Larger specimenswere counted at 192X using a grid of 45 or 93 coordinates (depending on.cellconcentrations), which effectivelyrepresented 11 or the entirechamberbottom. Forht~gerand rarer species, the entire chamberbottomwas scanned at low 2 power (75.6X). The species encountered, together with the abbreviations used in the taxonomic tables, are listed in Table 2. The taxonomicreferences consultedfollowthe listofreferences cited. . All samples collected in 1979were analysed byM.Austin. Selected samples collected in 1980were analysedby J. Ackerman, All samples collected in 1988were analysed by R. Haigh. All other samples were analysed by R.E. Waters. 5.Salinity Salinity samples were collected in 250mL bottles, which were rinsed three times, capped and stored for later analysis at the Institute of Ocean Sciences. Salinity samples were analyzed on a Guildline Autosal (model 8400A) salinometer, standardized against IAPSO Normal Standard Seawater (presently prepared by Ocean Scientific International Ltd., Wormley, Godalming, U.K.). Data are reported in practical salinity units (psu) (Lewisand Perkin 1978). Precision (pooled variance of replicate samples) of this method is estimated to be 0.005(Macdonald etal.1988).' 6.Chlorophyll a Extracted chlorophyll a was determined by fluorometry (Parsons et al. 1984). Water samples (25 -250mL) IF were filtered onto 25mm diameterWhatman934AH (1979-1984)or GF (1984-1989)glassfiber filters, with avacuum of <l00mm Hg. Justbefore filtration was completedapproximately ImLof MgC0 suspensionwas 3 added to the sample and the sides of the filter funnel were rinsed with filtered seawater. Chlorophyll was extracted in 90% aqueous acetone by grinding the filters in a tissue grinder. The extract was clarified by filtration through a glass fiber filter and the fluorescence measured in a Turner Designs 10 fluorometer. The sample was acidified with 2 drops of 1.5N HCI and the fluorescence was redetermined after the reading had stabilized, to obtainaphaeopigmentcorrectionfactor. Chlorophyll a content was calculated from the equations in Parsons et al. (1984). The fluorometer was previouslycalibratedagainst a Perkin-ElmerHitachi200spectrophotometerusing standardpreparedfrom pure crystalline chlorophyll a (Sigma Chemical Co.), Chlorophyll concentrations in the calibration samples were calculated using the equations of Jeffrey and Humphrey (1975). The mean coefficient of variation of this methodisestimatedto be 4.9% (Forbeset al.1988). 7.Inorganicnutrients Samples for the analysis of dissolved nitrate plus nitrite, orthophosphate and reactive silicate were analyzed using Technicon II Auto-Analyzer instruments. Processing of samples usually involved freezing, for later analysison shore, but on occasion weanalyzedfresh samplesonboardship.

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continuing studies of the control by oceanographic processes of the planktonic Morphology and taxonomy of toxic species in the tamarensis group A study ofspecies composition and ecology ofthe protoplankton of a British Columbia.
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