Establishing an assessment framework for the risk of dinoflagellate HABs based on cyst-mapping of marine sediments

Harmful algal blooms (HABs) of dinoflagellates pose significant threats to aquaculture, marine ecosystems, and human health. While resting cysts have been well known for their vital roles in initiating HABs of dinoflagellates, mapping results of the cyst abundance and distribution in marine sediment...

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Published inJournal of oceanology and limnology Vol. 43; no. 4; pp. 1183 - 1200
Main Authors Pan, Suzhi, Shang, Lixia, Liu, Xiaohan, Liu, Yuyang, Tao, Zhe, Deng, Yunyan, Chai, Zhaoyang, Tang, Yingzhong
Format Journal Article
LanguageEnglish
Published Heidelberg Science Press 01.07.2025
Springer Nature B.V
Subjects
Abundance
Algae
Algal blooms
Annotations
Aquaculture
Blooms (microorganisms)
Cysts
Dinoflagellata
Dinoflagellates
Earth and Environmental Science
Earth Sciences
Eutrophication
Geography
Literature reviews
Mapping
Marine ecosystems
Marine environment
Marine sediments
Microorganisms
Nautical charts
Oceanography
Research Paper
Risk assessment
Sediment
Sediments
Vegetative cells
Yellow Sea
cyst mapping
risk assessment
dinoflagellate
resting cyst
Yellow Sea
harmful algal bloom (HAB)
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Abstract Harmful algal blooms (HABs) of dinoflagellates pose significant threats to aquaculture, marine ecosystems, and human health. While resting cysts have been well known for their vital roles in initiating HABs of dinoflagellates, mapping results of the cyst abundance and distribution in marine sediments have been also well documented to be a highly valuable predictor, and thus can be used as a basis to assess the risk of HABs. We attempted to establish a framework for the risk assessment of dinoflagellate HABs based mainly on cyst-mapping of marine sediments and a case application of it to the risk assessment of HABs in the Yellow Sea. In the framework, firstly, the targeted marine area subjected to the assessment was determined and gridded into different assessment units according to their geography, administration, and ecological or economic function. Secondly, the dinoflagellate cyst abundance from the surface sediment, HABs records, and the monitoring results of vegetative cells for all or particular species of concern were collected experimentally or by literature search, as three main indicators scored and weighted respectively with different values. The scoring and weighting process was based on scientific reasoning and empirical consideration as detailed in the text. Thirdly, the risk of HABs occurrences for all or any particular species of concern at each site was ranked with five levels according to the calculated risk values. Finally, the final evaluation results were presented with tables, matrix diagrams, and color-coded textual annotations on nautical charts. As a case application, we performed a risk assessment for HABs of target species in the Yellow Sea, which warned high risks of HABs for Karlodinium veneficum, Gymnodinium catenatum , and others. This assessment framework provides a practical and testable tool for all involved stakeholders, and subject to improvement along with the advancement of ecology of HABs.
AbstractList Harmful algal blooms (HABs) of dinoflagellates pose significant threats to aquaculture, marine ecosystems, and human health. While resting cysts have been well known for their vital roles in initiating HABs of dinoflagellates, mapping results of the cyst abundance and distribution in marine sediments have been also well documented to be a highly valuable predictor, and thus can be used as a basis to assess the risk of HABs. We attempted to establish a framework for the risk assessment of dinoflagellate HABs based mainly on cyst-mapping of marine sediments and a case application of it to the risk assessment of HABs in the Yellow Sea. In the framework, firstly, the targeted marine area subjected to the assessment was determined and gridded into different assessment units according to their geography, administration, and ecological or economic function. Secondly, the dinoflagellate cyst abundance from the surface sediment, HABs records, and the monitoring results of vegetative cells for all or particular species of concern were collected experimentally or by literature search, as three main indicators scored and weighted respectively with different values. The scoring and weighting process was based on scientific reasoning and empirical consideration as detailed in the text. Thirdly, the risk of HABs occurrences for all or any particular species of concern at each site was ranked with five levels according to the calculated risk values. Finally, the final evaluation results were presented with tables, matrix diagrams, and color-coded textual annotations on nautical charts. As a case application, we performed a risk assessment for HABs of target species in the Yellow Sea, which warned high risks of HABs for Karlodinium veneficum, Gymnodinium catenatum, and others. This assessment framework provides a practical and testable tool for all involved stakeholders, and subject to improvement along with the advancement of ecology of HABs.
Harmful algal blooms (HABs) of dinoflagellates pose significant threats to aquaculture, marine ecosystems, and human health. While resting cysts have been well known for their vital roles in initiating HABs of dinoflagellates, mapping results of the cyst abundance and distribution in marine sediments have been also well documented to be a highly valuable predictor, and thus can be used as a basis to assess the risk of HABs. We attempted to establish a framework for the risk assessment of dinoflagellate HABs based mainly on cyst-mapping of marine sediments and a case application of it to the risk assessment of HABs in the Yellow Sea. In the framework, firstly, the targeted marine area subjected to the assessment was determined and gridded into different assessment units according to their geography, administration, and ecological or economic function. Secondly, the dinoflagellate cyst abundance from the surface sediment, HABs records, and the monitoring results of vegetative cells for all or particular species of concern were collected experimentally or by literature search, as three main indicators scored and weighted respectively with different values. The scoring and weighting process was based on scientific reasoning and empirical consideration as detailed in the text. Thirdly, the risk of HABs occurrences for all or any particular species of concern at each site was ranked with five levels according to the calculated risk values. Finally, the final evaluation results were presented with tables, matrix diagrams, and color-coded textual annotations on nautical charts. As a case application, we performed a risk assessment for HABs of target species in the Yellow Sea, which warned high risks of HABs for Karlodinium veneficum, Gymnodinium catenatum , and others. This assessment framework provides a practical and testable tool for all involved stakeholders, and subject to improvement along with the advancement of ecology of HABs.
Author Pan, Suzhi
Deng, Yunyan
Chai, Zhaoyang
Tao, Zhe
Liu, Xiaohan
Liu, Yuyang
Shang, Lixia
Tang, Yingzhong
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resting cyst
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harmful algal bloom (HAB)
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Snippet Harmful algal blooms (HABs) of dinoflagellates pose significant threats to aquaculture, marine ecosystems, and human health. While resting cysts have been well...
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crossref
springer
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SubjectTerms Abundance
Algae
Algal blooms
Annotations
Aquaculture
Blooms (microorganisms)
Cysts
Dinoflagellata
Dinoflagellates
Earth and Environmental Science
Earth Sciences
Eutrophication
Geography
Literature reviews
Mapping
Marine ecosystems
Marine environment
Marine sediments
Microorganisms
Nautical charts
Oceanography
Research Paper
Risk assessment
Sediment
Sediments
Vegetative cells
Title Establishing an assessment framework for the risk of dinoflagellate HABs based on cyst-mapping of marine sediments
URI https://link.springer.com/article/10.1007/s00343-024-4134-5
https://www.proquest.com/docview/3238532398
Volume 43
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