Puget Sound Zooplankton Monitoring Program (Salish Sea, USA), starting in 2014

Отбор проб Образец
Последняя версия опубликовано United States Geological Survey дек. 13, 2024 United States Geological Survey
Домой:
https://kingcounty.gov/en/dept/dnrp/nature-recreation/environment-ecology-conservation/science-services/puget-sound-marine-monitoring/plankton/zooplankton
Дата публикации:
13 декабря 2024 г.
Опубликовано:
United States Geological Survey
Лицензия:
CC-BY 4.0

Скачайте последнюю версию данных этого ресурса в формате Darwin Core Archive (DwC-A) или метаданных ресурса в форматах EML или RTF:

Данные в формате DwC-A Скачать 8 470 Записи в English (11 MB) - Частота обновления: ежегодно
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Описание

The Puget Sound Zooplankton Monitoring Program (PSZMP) is an ongoing collaborative effort involving tribal, county, state, federal, academic, and non-profit organizations working in and around the Salish Sea. The program began in 2014 and is designed to assist efforts in 1) understanding how changes in the local vs oceanic physical environment translate up the food web in Puget Sound, and 2) measuring how the prey field of salmon and other fishes varies spatio-temporally and correlates with fish survival.


Samples are collected at 16 sites across Puget Sound on either a bi-weekly or monthly , depending on the sampling group and season. Vertical tows of a ring net are conducted to capture zooplankton throughout the depth of the water column. Oblique tows of a bongo net are used to sample larger, more motile zooplankton inhabiting the upper 30 m of the water column. After collection, zooplankton are quantitatively subsampled and microscopically counted, with zooplankton densities and biomass computed. All individuals are identified to species or larger taxonomic grouping, and by life stages for some species, within each sample.

Записи данных

Данные этого sampling event ресурса были опубликованы в виде Darwin Core Archive (DwC-A), который является стандартным форматом для обмена данными о биоразнообразии в виде набора из одной или нескольких таблиц. Основная таблица данных содержит 8 470 записей.

Также в наличии 2 таблиц с данными расширений. Записи расширений содержат дополнительную информацию об основной записи. Число записей в каждой таблице данных расширения показано ниже.

Event (core)
8470
ExtendedMeasurementOrFact 
380462
Occurrence 
185729

Данный экземпляр IPT архивирует данные и таким образом служит хранилищем данных. Данные и метаданные ресурсов доступны для скачивания в разделе Загрузки. В таблице версий перечислены другие версии ресурса, которые были доступны публично, что позволяет отслеживать изменения, внесенные в ресурс с течением времени.

Версии

В таблице ниже указаны только опубликованные версии ресурса, которые доступны для свободного скачивания.

Как оформить ссылку

Исследователи должны дать ссылку на эту работу следующим образом:

Keister J E, Winans A, Herrmann B, Kalata O, Mayorga E (2024). Puget Sound Zooplankton Monitoring Program (Salish Sea, USA), starting in 2014. Version 1.1. United States Geological Survey. Samplingevent dataset. https://doi.org/10.15468/e92gvx

Права

Исследователи должны соблюдать следующие права:

Публикующей организацией и владельцем прав на данную работу является United States Geological Survey. Эта работа находится под лицензией Creative Commons Attribution (CC-BY 4.0).

Регистрация в GBIF

Этот ресурс был зарегистрирован в GBIF, ему был присвоен следующий UUID: 980a91f0-0752-4b60-a68a-42ed670eaae3.  United States Geological Survey отвечает за публикацию этого ресурса, и зарегистрирован в GBIF как издатель данных при оподдержке GBIF-US.

Ключевые слова

Samplingevent; Specimen; WASHINGTON; COASTAL; ZOOPLANKTON

Контакты

Julie E. Keister
  • Metadata Provider
  • Affiliate Professor, University of Washington
National Oceanic and Atmospheric Administration
US
Amanda Winans
  • Metadata Provider
  • Originator
  • Research Engineer
University of Washington
BethElLee Herrmann
  • Originator
University of Washington
Olga Kalata
  • Originator
University of Washington
Julie E. Keister
  • Metadata Provider
  • Affiliate Professor, University of Washington
National Oceanic and Atmospheric Administration
US
Emilio Mayorga
  • Processor
  • Senior Oceanographer
University of Washington
US
Kit Yu Karen CHAN
  • Point Of Contact
  • Assistant Professor
University of Washington
Emilio Mayorga
  • Processor
University of Washington
US

Географический охват

Puget Sound, Washington State, USA. Puget Sound is part of the Salish Sea.

Ограничивающие координаты Юг Запад [47,138, -123,048], Север Восток [48,684, -122,287]

Таксономический охват

N/A

Kingdom Chromista, Animalia
Phylum Arthropoda, Nemertea, Annelida, Chordata, Myzozoa, Ctenophora, Echinodermata, Mollusca, Nematoda, Platyhelminthes, Chaetognatha, Phoronida, Cnidaria, Bryozoa
Class Holothuroidea, Hydrozoa, Hexapoda, Dinophyceae, Ostracoda, Larvacea, Polychaeta, Hexacorallia, Arachnida, Nuda, Bivalvia, Ascidiacea, Pycnogonida, Gastropoda, Thecostraca, Appendicularia, Gymnolaemata, Copepoda, Thaliacea, Tentaculata, Polyplacophora, Scyphozoa, Cephalopoda, Ophiuroidea, Branchiopoda, Malacostraca, Teleostei
Order Nudibranchia, Mysidacea, Limnomedusae, Amphipoda, Calanoida, Decapoda, Harpacticoida, Chitonida, Copelata, Noctilucales, Onychopoda, Beroida, Salpida, Anthoathecata, Euphausiacea, Canuelloida, Trachymedusae, Diptera, Cumacea, Mysida, Syngnathiformes, Cephalaspidea, Narcomedusae, Phyllodocida, Monstrilloida, Siphonostomatoida, Cydippida, Tanaidacea, Littorinimorpha, Siphonophora, Actiniaria, Cladocera, Siphonophorae, Teuthida, Pteropoda, Cyclopoida, Trombidiformes, Leptothecata, Ctenostomatida, Octopoda, Isopoda
Family Eirenidae, Candaciidae, Arachnidiidae, Pinnotheridae, Axiidae, Panopeidae, Campanulariidae, Diogenidae, Podonidae, Penaeidae, Cancridae, Proboscidactylidae, Hippidae, Tisbidae, Clionidae, Paguridae, Oikopleuridae, Corynidae, Hyperiidae, Oweniidae, Melicertidae, Clausocalanidae, Tharybidae, Gastropteridae, Chitonidae, Cydippidae, Peachiidae, Limacinidae, Mitrocomidae, Hippolytidae, Metridinidae, Cheiragonidae, Euphausiidae, Temoridae, Tubulariidae, Sergestidae, Calanidae, Pasiphaeidae, Galatheidae, Beroidae, Spinocalanidae, Heterorhabdidae, Oithonidae, Paraphronimidae, Tomopteridae, Euchaetidae, Varunidae, Caligidae, Lithodidae, Alpheidae, Hydrobiidae, Pontellidae, Aeginidae, Corophiidae, Metridiidae, Centropagidae, Clausidiidae, Epialtidae, Harpacticidae, Aetideidae, Corymorphidae, Acartiidae, Tortanidae, Phrosinidae, Paracalanidae, Littorinidae, Corycaeidae, Scolecitrichidae, Tiaropsidae, Noctilucaceae, Fritillariidae, Eucalanidae, Pandalidae, Diphyidae, Mysidae, Oregoniidae, Cyphocarididae, Oncaeidae, Rhopalonematidae, Agalmatidae, Longipediidae, Pandeidae, Calliopiidae, Idoteidae, Crangonidae, Aequoreidae, Laodiceidae, Tegastidae, Phyllodocidae, Cuninidae, Caprellidae, Porcellanidae, Munididae, Salpidae, Syngnathidae, Upogebiidae, Callianassidae, Rathkeidae, Bougainvilliidae

Временной охват

Дата начала / Дата окончания 2014-03-25 / 2022-12-19

Данные проекта

Zooplankton are the cornerstone of pelagic food webs. They serve as indicators of ecosystem function and provide an effective means of monitoring ecosystem changes to better understand how physical stressors, both man-made and natural, affect marine waters. As such, monitoring changes in zooplankton communities can provide crucial insight needed to diagnose ecosystem health, changes in production, and fisheries. This program was designed to assist efforts in 1) understanding how changes in the local vs oceanic physical environment translate up the food web in Puget Sound, 2) measuring how the prey of salmon and other fishes varies spatio-temporally and correlates with fish survival, and 3) providing improved forecasting tools and guidance towards management decisions to set harvest expectations and optimize recovery strategies. In brief, this program is a collaborative effort among multiple tribes, agencies, and organizations to sample zooplankton throughout Puget Sound and adjacent northern waters (Bellingham Bay and the San Juan Islands). The University of Washington oversees the collections, analyzes the samples, and openly provides data to stakeholders for use in science and management. Sampling occurs bi-weekly or monthly during the productive March-October period, and monthly through winter at some stations, and consists of two different protocols—a vertical tow of a ring net and an oblique tow of a bongo net. Sampling locations were chosen to represent large-scale, regional variability among the basins of Puget Sound. Field protocols appropriate to the program were developed in consultation with zooplankton experts from Canada, Washington, and Oregon. In the laboratory, zooplankton are resolved to species or lowest taxonomic level possible; life stage, abundance, and biomass data are recorded.

Название Puget Sound Zooplankton Monitoring Program
Идентификатор PSZMP
Финансирование This monitoring program has been generously supported by (in alphabetical order) Environmental Protection Agency, Hood Canal Salmon Enhancement Group, King County, Kwiáht- Center for Historical Ecology of the Salish Sea, Long Live the Kings, Lummi Nation, National Ocean and Atmospheric Administration, Nisqually Indian Tribe, Pacific Salmon Foundation, Port Gamble S'Klallam Tribe, Stillaguamish Tribe, Tulalip Tribes, University of Washington, Washington Department of Ecology, and Washington Department of Fish and Wildlife.
Описание района исследования Puget Sound is a large fjordal system composed of oceanographically-distinct, glacially-carved basins separated by shallow sills. The system is estuarine, fed by seasonal river discharge from 14 major rivers and connected to the Pacific Ocean via the Strait of Juan de Fuca. The climate of the region is affected by large-scale influences such as global warming, ocean acidification, El Niño events, and shifts in the Pacific Decadal Oscillation, and by local variation in rain and snowfall. Important macrofauna in Puget Sound includes salmon, forage fishes, benthic invertebrates (including economically valuable species like Dungeness crabs, Pacific oysters, geoducks), seabirds, and marine mammals (harbor seals, harbor porpoises, southern resident orca whales). Zooplankton are linked directly or indirectly to all of these invertebrate and vertebrate groups through the Puget Sound food web. Puget Sound and the species which inhabit its waters provide commercial, recreational, and cultural value to Pacific Northwesterners. Millions of dollars are invested in restoring and protecting Puget Sound’s ecosystem function and health. Long-term monitoring of zooplankton communities in Puget Sound will improve assessment of ecosystem function, and provide the foundation for understanding the effects of issues like contaminants, climate variability, and human impact on the Puget Sound food web.
Описание плана выполнения исследований Sampling design for this project was created based on discussions among physical oceanographers, zooplankton ecologists, and salmon/forage fish ecologists (Keister and Winans 2013). The sampling locations chosen are 1) representative of broad regions within each Puget Sound basin and 2) representative of foraging areas for planktivorous fish. Locations to sample using vertical nets as “Ecosystem Indicators” were chosen at deep locations within each region to avoid sampling micro-habitats that are common nearshore. River mouths and other localized features were avoided. In the first two years of sampling (2014-15), oblique tows to capture the “Prey Field Indicators” were conducted at multiple sites within each region, then reduced in 2016 to those that best represented the natural variability in zooplankton populations within each region. Both indicators have been used in other systems to understand how climate variability affects ecosystems and fish survival; indicators developed from both types of sampling have shown strong correlations to fish survival and have helped elucidate the mechanisms by which climate variability affects fish populations. The program currently includes sampling throughout Puget Sound and adjacent northern waters (Bellingham Bay, San Juan Islands). At most sites, samples are collected every two weeks to capture the high variability within the zooplankton community, and are collected from March through October to represent the spring-summer foraging and growth season for planktivores (particularly juvenile salmon and herring). Sampling groups that have the capability to sample year-round take additional samples monthly in November through February when zooplankton abundances are typically low. Samples are taken during the daytime for practical reasons and to capture juvenile salmon and forage fish foraging patterns. Vertical tows integrate through the water column to capture organisms that exhibit diel vertical migration whereas oblique tows sample the upper 30 m where juvenile salmon primarily feed.

Исполнители проекта:

Julie E. Keister
  • Principal Investigator
Karen Chan
  • Principal Investigator
Amanda Winans
  • Processor
BethElLee Herrmann
  • Processor
Olga Kalata
  • Processor
Adrian Nevarez
  • Content Provider
Clayton David
  • Content Provider
Sarah Heerhartz
  • Content Provider
Devin Flawd
  • Content Provider
Russel Barsh
  • Content Provider
Madrona Murphy
  • Content Provider
Mark Riedesel
  • Content Provider
Maggie Hayward
  • Content Provider
Evelyn Brown
  • Content Provider
Nicholas Jefferson
  • Content Provider
Donald Kruse
  • Content Provider
Jordan Pritchard
  • Content Provider
Jed Moore
  • Content Provider
Nano Perez
  • Content Provider
Hans Daubenberger
  • Content Provider
Emily Bishop
  • Content Provider
Heather Gordan
  • Content Provider
Nikki Venneman
  • Content Provider
Khadijah Homolka
  • Content Provider
Julianna Sullivan
  • Content Provider
Franchesca Perez
  • Content Provider
Max Lundquist
  • Content Provider
Charles Sportsman
  • Content Provider
Andrew Skoog
  • Content Provider
Adam Vela
  • Content Provider
Lyndsey Swanson
  • Content Provider
Bob Kruger
  • Content Provider
Julia Bos
  • Content Provider
Christopher Barnes
  • Content Provider
Correigh Greene
  • Content Provider
Stuart H Munsch
  • Content Provider
Nate Schwarck
  • Content Provider
Holly Young
  • Content Provider
Mya Keyzers
  • Content Provider
Jay Dimond
  • Content Provider
Natalie Coleman
  • Content Provider
Korie Griffith
  • Content Provider
Mark Millard
  • Content Provider
Roy Clark
  • Content Provider

Методы сбора

Sampling for zooplankton is conducted at regular stations visited by project partners using a common methodology. Two net tows are carried out at each station: a 60-cm diameter ring net (200 µm mesh) towed vertically from 5 m off the bottom (or a maximum of 200 m depth) to the surface; and a 60-cm diameter bongo net (335 µm mesh) towed obliquely through the top 30 m of the water column. The target sampling frequency ranges from biweekly to monthly depending on the station and other considerations. Sampling is conducted during daytime. Project partners that have collected samples include the Environmental Protection Agency, Hood Canal Salmon Enhancement Group, King County, Kwiáht, Lummi Nation, Nisqually Indian Tribe, NOAA Northwest Fisheries Science Center, Port Gamble S’Klallam Tribe, Stillaguamish Tribe, Tulalip Tribes, Washington Department of Ecology, and Washington Department of Fish and Wildlife. In the laboratory at the University of Washington, zooplankton are quantitatively subsampled and microscopically counted. All individuals are identified to species or larger taxonomic grouping, and by sex and life stages whenever possible, within each sample.

Охват исследования Zooplankton monitoring carried out in Salish Sea basins in Washington State, USA, throughout Puget Sound (Hood Canal, Admiralty Inlet, Central Basin, Whidbey Basin, South Sound) and in Northern Washington (Bellingham Bay, San Juan Islands). Sampling has been conducted at 16 sites: Dana Passage, South Ketron/Solo Point, Admiralty Inlet, Point Jefferson, Point Williams, East Passage, North Hope Island, Watmough Bay, Cowlitz, Thorndyke Bay, North Saratoga Passage, Camano Head, Mukilteo, Eliza Island, Eldon and Sisters Point. Sampling started in March 2014 and is ongoing, with a target frequency that ranges from biweekly to monthly depending on the station and other considerations. Water column depths at the stations range from 10 to 275 m. Vertical water-column tows span from the surface to within 5 m off bottom, to a maximum depth of 200 m. Oblique tows span from the surface to approximately 30 m depth.
Контроль качества Samples with "low" collection quality or "poor" sample quality are excluded from the published dataset. These ratings are based on flow meter readings, tow angles, tow depths, tow profiles, phytoplankton clogging, and various other errors that can occur.

Описание этапа методики:

  1. The starting point data file for OBIS Darwin Core alignment was an Excel file provided by staff from the Principal Investigator's lab at the University of Washington. This file was exported from the UW lab’s internal database. It is in the same format and contains the same information as the Excel file that is publicly distributed on the King County PSZMP webpage, https://green2.kingcounty.gov/ScienceLibrary/Document.aspx?ArticleID=556. However, the file used involved updates and corrections applied by lab staff based on questions arising during the initial OBIS alignment work. All processing steps starting from the source Excel file are explicitly encoded in the Jupyter notebooks used to carry out the alignment, written in Python; this code, including additional documentation, is available at https://github.com/nanoos-pnw/obis-pszmp.

Библиографические ссылки

  1. Fisher, J., D. Kimmel, T. Ross, S. Batten, E. Bjorkstedt, M. Galbraith, K. Jacobson, J. Keister, A. Sastri, K. Suchy, S. Zeman, and I. Perry. 2020. Copepod responses to, and recovery from, the recent marine heatwave in the Northeast Pacific. PICES Press vol. 28(1): 65-70.
  2. Greene, C., B. Curry, J. Newton, J. Keister, I. Kemp, D. Beauchamp, E. Lessard, K. Stark, and G. Hannach. 2019. Linking environmental and biotic variation to growth and survival of juvenile Chinook salmon in Puget Sound. SSMSP Technical Report. Available at: https://marinesurvivalproject.com/resources.
  3. Hiltunen, M., U. Strandberg, A.K. Winans, D.A. Beauchamp, M. Kotila, M.T. Brett, and J.E. Keister. Taxonomic, temporal, and spatial variation in zooplankton fatty acid composition in Puget Sound, WA, USA. Estuaries and Coasts: doi.org/10.1007/s12237-021-00973-8.
  4. Keister, J.E. and A.K. Winans. 2013. Zooplankton Sampling Protocol. A procedural guide to developing zooplankton monitoring programs in the Salish Sea. 9 pp. Available at: http://faculty.washington.edu/jkeister/jk_outreach.php.
  5. Keister, J.E., Herrmann, B., Bos, J. 2022. Zooplankton composition links to climate and salmon survival in a northern temperate fjord. Limnology and Oceanography 9999, 1–16. https://doi.org/10.1002/lno.12208.
  6. Khangaonkar, T., A. Nugraha, L. Premathilake, J.E. Keister, and A. Borde. 2020. Projections of algae, eelgrass, and zooplankton ecological interactions in the inner Salish Sea – for future climate, and altered oceanic states. Ecol. Modell. 441: 109420. https://doi.org/10.1016/j.ecolmodel.2020.109420.
  7. Khangaonkar, T., A. Nugraha, S. K. Yun, L. Premathilake, J.E. Keister, and J. Bos. 2021. Propagation of the 2014–2016 northeast Pacific marine heatwave through the Salish Sea. Frontiers in Marine Science 8. https://doi.org/10.3389/fmars.2021.787604.
  8. Suchy, K.D., E. Olson, S.E. Allen, M. Galbraith, B. Herrmann, J.E. Keister, R.I. Perry, A.R. Sastri, and K. Young. 2023. Seasonal and regional variability of model-based zooplankton biomass in the Salish Sea and evaluation against observations. Progress in Oceanography, 219, 103171. https://doi.org/10.1016/j.pocean.2023.103171.
  9. Winans, A. K., B. Herrmann, and J. E. Keister. 2023. Spatio-temporal variation in zooplankton community composition in the southern Salish Sea: changes during the 2015-2016 Pacific marine heatwave. Progress in Oceanography, 214, 103022. https://doi.org/10.1016/j.pocean.2023.103022.

Дополнительные метаданные

The publication of this dataset in OBIS was supported by the Northwest Association of Networked Ocean Observing Systems (NANOOS, https://www.nanoos.org), the Regional Association of the national US Integrated Ocean Observing System (IOOS, https://ioos.noaa.gov) for the US Pacific Northwest.

Благодарности We are grateful to the community who contributed to the conception and development of this monitoring program, to the sample and data collections teams that enabled the generation of this dataset, and several agencies for its fundings. This monitoring program has been generously supported by (in alphabetical order) Environmental Protection Agency, Hood Canal Salmon Enhancement Group, King County, Kwiáht- Center for Historical Ecology of the Salish Sea, Long Live the Kings, Lummi Nation, National Ocean and Atmospheric Administration, Nisqually Indian Tribe, Pacific Salmon Foundation, Port Gamble S'Klallam Tribe, Stillaguamish Tribe, Tulalip Tribes, University of Washington, Washington Department of Ecology, and Washington Department of Fish and Wildlife.
Альтернативные идентификаторы 980a91f0-0752-4b60-a68a-42ed670eaae3
https://ipt-obis.gbif.us/resource?r=pszmp-zoop