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Plankton : A Guide to Their Ecology and Monitoring for Water Quality. (2019)

Suthers, Iain M.

Collingwood :CSIRO Publishing,

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Keywords: Electronic books.

Description / Table of Contents: A fully updated introduction to the biology, ecology and identification of plankton.

Type of Medium: Online Resource

Pages: 1 online resource (249 pages)

Edition: 2nd ed.

ISBN: 9781486308804

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=5743731

DDC: 578.776

Language: English

Note: Cover -- Title -- Copyright -- Contents -- Preface -- List of contributors -- Acknowledgements -- 1 The importance of plankton -- 1.1 What are plankton? -- 1.2 Fun facts about plankton -- 1.3 Plankton, water quality and natural resource management -- 1.4 Plankton in management -- 1.5 Outline of this book -- 1.6 References -- 1.7 Further reading -- 2 Plankton processes and the environment -- 2.1 Introduction to plankton ecology -- 2.2 Plankton food webs -- 2.3 Plankton behaviour, buoyancy and vertical migration -- 2.4 Life cycles of zooplankton -- 2.5 Freshwater habitats of plankton -- 2.6 Estuarine and coastal habitats of plankton -- 2.7 References -- 2.8 Further reading -- 3 Use of plankton for management -- 3.1 Plankton models and management -- 3.2 Coastal and natural resource management -- 3.3 Management of geographically persistent algal blooms in an estuary -- 3.4 Coastal water discolouration and harmful algal blooms and theirmanagement -- 3.5 Monitoring phytoplankton over the long-term -- 3.6 Managing blooms of fresh water cyanobacteria -- 3.7 Phytoplankton monitoring in New Zealand for toxic shellfish poisoning -- 3.8 Managing water quality using freshwater zooplankton -- 3.9 Remediation of phytoplankton blooms and biomanipulation -- 3.10 Managing phytoplankton blooms through grazing by zooplankton -- 3.11 Management of jellyfish blooms and fisheries -- 3.12 Conclusions -- 3.13 References -- 3.14 Further reading -- 4 Sampling methods for plankton -- 4.1 Introduction to sampling methods -- 4.2 Sampling design and environmental variability -- 4.3 Typical sampling designs: where and when to sample -- 4.4 Measurement of water quality -- 4.5 Sampling methods for phytoplankton -- 4.6 Analysis of phytoplankton samples -- 4.7 Sampling methods for zooplankton -- 4.8 Preparing and quantifying zooplankton. , 4.9 Automated methods for zooplankton sampling: size structure -- 4.10 Methods: analysis, quality control and presentation -- 4.11 References -- 4.12 Further reading -- 5 Freshwater phytoplankton: diversity and biology -- 5.1 Identifying freshwater phytoplankton -- 5.2 Cyanobacteria (blue-green algae) -- 5.3 Chlorophyceae (green algae) -- 5.4 Bacillariophyceae (diatoms) -- 5.5 Pyrrhophyceae (or Dinophyceae) (dinoflagellates) -- 5.6 Other algae -- 5.7 Conclusions -- 5.8 References -- 5.9 Further reading -- 6 Coastal and marine phytoplankton: diversity and ecology -- 6.1 Marine phytoplankton: diversity and ecology -- 6.2 Bacillariophyta (diatoms) -- 6.3 Dinoflagellata (dinoflagellates) -- 6.4 Cyanobacteria (blue-green algae) -- 6.5 Other marine phytoplankton -- 6.6 References -- 6.7 Further reading -- 7 Freshwater zooplankton: diversity and biology -- 7.1 Identifying freshwater zooplankton -- 7.2 Rotifers -- 7.3 Cladocerans -- 7.4 Copepods -- 7.5 Protozoans -- 7.6 Larval fish -- 7.7 Specific issues in sampling and monitoring freshwater zooplankton -- 7.8 Conclusions -- 7.9 References -- 7.10 Further reading -- 8 Coastal and marine zooplankton: identification, biology and ecology -- 8.1 Identifying coastal and marine zooplankton -- 8.2 Identifying zooplankton using body types -- 8.3 From body types to taxonomic groups -- 8.4 Top tips for identifying zooplankton -- 8.5 References -- 9 Educating with plankton -- 9.1 Plankton: for education, science inquiry and learning -- 9.2 Studying plankton: where and how -- 9.3 How to observe plankton -- 9.4 Opportunities for primary students -- 9.5 Opportunities for lower secondary study -- 9.6 Opportunities for upper high school study -- 9.7 Opportunities for undergraduate study -- 9.8 Plankton studies and the student -- 9.9 References -- Epilogue -- Glossary of general terms -- Index.

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Plankton : a guide to their ecology and monitoring for water quality (2019)

Suthers, Iain M. ; Rissik, David ; Richardson, Anthony J.

Clayton South : CSIRO Publishing | Boca Raton : CRC Press

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Keywords: Plankton / Ecology ; Plankton / Measurement ; Indicators (Biology) ; Aufsatzsammlung ; Plankton ; Ökologie ; Wassergüte

Type of Medium: Book

Pages: xi, 236 Seiten , Illustrationen, Diagramme

Edition: Second edition

ISBN: 9780367030162 , 9781486308798

URL: https://www.gbv.de/dms/tib-ub-hannover/1662625103.pdf

RVK:

WI 4455

Language: English

Note: Literaturangaben

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Onshore-offshore distribution and abundance of tuna larvae (Pisces: Scombridae: Thunnini) in near-reef waters of the Coral Sea (2021)

Fowler, Ashely M. ; Leis, Jeffrey M. ; Suthers, Iain M.

In: http://aquaticcommons.org/id/eprint/8822 | 403 | 2014-01-02 19:16:45 | 8822 | United States National Marine Fisheries Service

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Publication Date: 2021-06-24

Description: The on-offshore distributions of tuna larvae in near-reefwaters of the Coral Sea, near Lizard Island (14°30ʹS, 145°27ʹE), Australia, were investigated during four cruisesfrom November 1984 to February 1985 to test the hypothesis that larvae of these oceanic fishes are found in highest abundance near coral reefs. Oblique bongo net tows were made in five on-offshore blocks in the Coral Sea, ranging from 0–18.5 km offshore of the outer reefs of the Great Barrier Reef, as well as inside the Great Barrier Reef Lagoon. The smallest individuals (〈3.2 mm SL) of the genusThunnus could not be identified to species, and are referred to as Thunnus spp. We found species-specific distributional patterns. Thunnus spp. and T. alalunga (albacore) larvae were most abundant (up to 68 larvae/100 m2) in near-reef (0–5.5 km offshore) waters, whereas Katsuwonus pelamis (skipjack tuna) larvae increased in abundance in the offshore direction (up to 228 larvae/100 m2, 11.1–18.5 km offshore). Larvae of T. albacares (yellowfin tuna) and Euthynnus affinis (kawakawa) were relatively rare throughout the study region, and the patterns of their distributions were inconclusive. Fewlarvae of any tuna species were found in the lagoon. Size-frequency distributions revealed a greater proportion ofsmall larvae inshore compared to offshore for K. pelamis and T. albacares. The absence of significant differencesin size-frequency distributions for other species and during the other cruises was most likely due to the low numbers of larvae. Larval distributions probably resulted from a combination of patterns of spawning and vertical distribution, combined with wind-driven onshore advectionand downwelling on the seaward side of the outer reefs.

Keywords: Biology ; Ecology ; Fisheries

Repository Name: AquaDocs

Type: article , TRUE

Format: application/pdf

Format: 405-416

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A functional size-spectrum model of the global marine ecosystem that resolves zooplankton composition (2020)

Heneghan, Ryan F. ; Everett, Jason D. ; Sykes, Patrick ; [et al.]

Elsevier

In: Ecological Modelling, 435 . p. 109265.

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Publication Date: 2021-01-08

Description: Despite their critical role as the main energy pathway between phytoplankton and fish, the functional complexity of zooplankton is typically poorly resolved in marine ecosystem models. Trait-based approaches—where zooplankton are represented with functional traits such as body size—could help improve the resolution of zooplankton in marine ecosystem models and their role in trophic transfer and carbon sequestration. Here, we present the Zooplankton Model of Size Spectra version 2 (ZooMSSv2), a functional size-spectrum model that resolves nine major zooplankton functional groups (heterotrophic flagellates, heterotrophic ciliates, larvaceans, omnivorous copepods, carnivorous copepods, chaetognaths, euphausiids, salps and jellyfish). Each group is represented by the functional traits of body size, size-based feeding characteristics and carbon content. The model is run globally at 5° resolution to steady-state using long-term average temperature and chlorophyll a for each grid-cell. Zooplankton community composition emerges based on the relative fitness of the different groups. Emergent steady-state patterns of global zooplankton abundance, biomass and growth rates agree well with empirical data, and the model is robust to changes in the boundary conditions of the zooplankton. We use the model to consider the role of the zooplankton groups in supporting higher trophic levels, by exploring the sensitivity of steady-state fish biomass to the removal of individual zooplankton groups across the global ocean. Our model shows zooplankton play a key role in supporting fish biomass in the global ocean. For example, the removal of euphausiids or omnivorous copepods caused fish biomass to decrease by up to 80%. By contrast, the removal of carnivorous copepods caused fish biomass to increase by up to 75%. Our results suggest that including zooplankton complexity in ecosystem models could be key to better understanding the distribution of fish biomass and trophic efficiency across the global ocean.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.ecolmodel.2020.109265

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OceanRep: Article in a Scientific Journal - peer-reviewed

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