Your search keyword '"HAB monitoring"' showing total 19 results

1. Advancements in the Programmable Hyperspectral Seawater Scanner Measurement Technology for Enhanced Detection of Harmful Algal Blooms.

Author

Langan, John J. and Bae, Jungyun

Subjects

RED tide, ALGAL blooms, LEAD time (Supply chain management), SEAWATER, SCANNING systems

Abstract

The Programmable Hyperspectral Seawater Scanner (PHySS) represents a significant breakthrough in monitoring harmful algal blooms (HABs), specifically targeting the "Florida red tide" caused by Karenia brevis. By utilizing a Fourth-Derivative Spectral Similarity Index (SI), this study establishes a strong positive correlation between the SI and phytoplankton counts, underscoring the PHySS's potential for early detection and effective management of HABs. Our findings suggest that the PHySS could act as a predictive tool, offering crucial lead time to mitigate the ecological and economic repercussions of blooms. However, this study also identifies certain limitations of the PHySS technology, such as its inability to differentiate among various phytoplankton species without additional physical verification of cell counts. This limitation highlights the need for a multifaceted approach to HAB management. Our research suggests that adopting a multi-modal monitoring strategy could lead to more sophisticated and effective methods for combating HABs, fostering an optimistic outlook for future advancements in this area. [ABSTRACT FROM AUTHOR]

Published

2024

2. Advancements in the Programmable Hyperspectral Seawater Scanner Measurement Technology for Enhanced Detection of Harmful Algal Blooms

Author

John J. Langan and Jungyun Bae

Subjects

HAB monitoring, Similarity Index, red tide, PHySS, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

The Programmable Hyperspectral Seawater Scanner (PHySS) represents a significant breakthrough in monitoring harmful algal blooms (HABs), specifically targeting the “Florida red tide” caused by Karenia brevis. By utilizing a Fourth-Derivative Spectral Similarity Index (SI), this study establishes a strong positive correlation between the SI and phytoplankton counts, underscoring the PHySS’s potential for early detection and effective management of HABs. Our findings suggest that the PHySS could act as a predictive tool, offering crucial lead time to mitigate the ecological and economic repercussions of blooms. However, this study also identifies certain limitations of the PHySS technology, such as its inability to differentiate among various phytoplankton species without additional physical verification of cell counts. This limitation highlights the need for a multifaceted approach to HAB management. Our research suggests that adopting a multi-modal monitoring strategy could lead to more sophisticated and effective methods for combating HABs, fostering an optimistic outlook for future advancements in this area.

Published

2024

3. Lipophilic Toxins in Chile: History, Producers and Impacts

Author

Patricio A. Díaz, Gonzalo Álvarez, Gemita Pizarro, Juan Blanco, and Beatriz Reguera

Subjects

Dinophysis acuminata, Dinophysis acuta, lipophilic toxins, diarrhetic shellfish poisoning, harmful algal blooms, HAB monitoring, Biology (General), QH301-705.5

Abstract

A variety of microalgal species produce lipophilic toxins (LT) that are accumulated by filter-feeding bivalves. Their negative impacts on human health and shellfish exploitation are determined by toxic potential of the local strains and toxin biotransformations by exploited bivalve species. Chile has become, in a decade, the world’s major exporter of mussels (Mytilus chilensis) and scallops (Argopecten purpuratus) and has implemented toxin testing according to importing countries’ demands. Species of the Dinophysis acuminata complex and Protoceratium reticulatum are the most widespread and abundant LT producers in Chile. Dominant D. acuminata strains, notwithstanding, unlike most strains in Europe rich in okadaic acid (OA), produce only pectenotoxins, with no impact on human health. Dinophysis acuta, suspected to be the main cause of diarrhetic shellfish poisoning outbreaks, is found in the two southernmost regions of Chile, and has apparently shifted poleward. Mouse bioassay (MBA) is the official method to control shellfish safety for the national market. Positive results from mouse tests to mixtures of toxins and other compounds only toxic by intraperitoneal injection, including already deregulated toxins (PTXs), force unnecessary harvesting bans, and hinder progress in the identification of emerging toxins. Here, 50 years of LST events in Chile, and current knowledge of their sources, accumulation and effects, are reviewed. Improvements of monitoring practices are suggested, and strategies to face new challenges and answer the main questions are proposed.

Published

2022

4. The volatilome reveals microcystin concentration, microbial composition, and oxidative stress in a critical Oregon freshwater lake.

Author

Collart L, Jiang D, and Halsey KH

Subjects

Ecosystem, Oregon, Oxidative Stress, Microcystins, Lakes microbiology

Abstract

Importance: Harmful algal blooms are among the most significant threats to drinking water safety. Blooms dominated by cyanobacteria can produce potentially harmful toxins and, despite intensive research, toxin production remains unpredictable. We measured gaseous molecules in Upper Klamath Lake, Oregon, over 2 years and used them to predict the presence and concentration of the cyanotoxin, microcystin, and microbial community composition. Subsets of gaseous compounds were identified that are associated with microcystin production during oxidative stress, pointing to ecosystem-level interactions leading to microcystin contamination. Our approach shows potential for gaseous molecules to be harnessed in monitoring critical waterways., Competing Interests: The authors declare no conflict of interest.

Published

2023

5. Lipophilic Toxins in Chile: History, Producers and Impacts

Author

Agencia Nacional de Investigación y Desarrollo (Chile), Xunta de Galicia, Universidad Católica del Norte (Chile), Díaz, Patricio A, Álvarez, Gonzalo, Pizarro, Gemita, Blanco, Juan, Reguera Ramírez, Beatriz, Agencia Nacional de Investigación y Desarrollo (Chile), Xunta de Galicia, Universidad Católica del Norte (Chile), Díaz, Patricio A, Álvarez, Gonzalo, Pizarro, Gemita, Blanco, Juan, and Reguera Ramírez, Beatriz

Abstract

A variety of microalgal species produce lipophilic toxins (LT) that are accumulated by filter-feeding bivalves. Their negative impacts on human health and shellfish exploitation are determined by toxic potential of the local strains and toxin biotransformations by exploited bivalve species. Chile has become, in a decade, the world's major exporter of mussels (Mytilus chilensis) and scallops (Argopecten purpuratus) and has implemented toxin testing according to importing countries' demands. Species of the Dinophysis acuminata complex and Protoceratium reticulatum are the most widespread and abundant LT producers in Chile. Dominant D. acuminata strains, notwithstanding, unlike most strains in Europe rich in okadaic acid (OA), produce only pectenotoxins, with no impact on human health. Dinophysis acuta, suspected to be the main cause of diarrhetic shellfish poisoning outbreaks, is found in the two southernmost regions of Chile, and has apparently shifted poleward. Mouse bioassay (MBA) is the official method to control shellfish safety for the national market. Positive results from mouse tests to mixtures of toxins and other compounds only toxic by intraperitoneal injection, including already deregulated toxins (PTXs), force unnecessary harvesting bans, and hinder progress in the identification of emerging toxins. Here, 50 years of LST events in Chile, and current knowledge of their sources, accumulation and effects, are reviewed. Improvements of monitoring practices are suggested, and strategies to face new challenges and answer the main questions are proposed.

Published

2022

6. Evaluation of Passive Samplers as a Monitoring Tool for Early Warning of Dinophysis Toxins in Shellfish

Author

Yolanda Pazos, José M. Franco, Gemita Pizarro, Beatriz Paz, Ángeles Moroño, and Beatriz Reguera

Subjects

Dinophysis, early warning DSP outbreaks, HAB monitoring, modeling toxin accumulation, Solid Phase Adsorbing Toxin Tracking (SPATT), Galician Rías, Biology (General), QH301-705.5

Abstract

From June 2006 to January 2007 passive samplers (solid phase adsorbing toxin tracking, SPATT) were tested as a monitoring tool with weekly monitoring of phytoplankton and toxin content (liquid chromatography–mass spectrometry, LC-MS) in picked cells of Dinophysis and plankton concentrates. Successive blooms of Dinophysis acuminata, D. acuta and D. caudata in 2006 caused a long mussel harvesting closure (4.5 months) in the Galician Rías (NW Spain) and a record (up to 9246 ng·g resin-week−1) accumulation of toxins in SPATT discs. Best fit of a toxin accumulation model was between toxin accumulation in SPATT and the product of cell densities by a constant value, for each species of Dinophysis, of toxin content (average) in picked cells. Detection of Dinophysis populations provided earlier warning of oncoming diarrhetic shellfish poisoning (DSP) outbreaks than the SPATT, which at times overestimated the expected toxin levels in shellfish because: (i) SPATT accumulated toxins did not include biotransformation and depuration loss terms and (ii) accumulation of toxins not available to mussels continued for weeks after Dinophysis cells were undetectable and mussels were toxin-free. SPATT may be a valuable environmental monitoring and research tool for toxin dynamics, in particular in areas with no aquaculture, but does not provide a practical gain for early warning of DSP outbreaks.

Published

2013

7. Dinophysis acuta in Scottish Coastal Waters and Its Influence on Diarrhetic Shellfish Toxin Profiles

Author

Sarah C. Swan, Andrew D. Turner, Eileen Bresnan, Callum Whyte, Ruth F. Paterson, Sharon McNeill, Elaine Mitchell, and Keith Davidson

Subjects

Dinophysis, HAB monitoring, DSP toxins, aquaculture, shellfish toxicity, human health, time-series, seasonality, Scotland, Medicine

Abstract

Diarrhetic shellfish toxins produced by the dinoflagellate genus Dinophysis are a major problem for the shellfish industry worldwide. Separate species of the genus have been associated with the production of different analogues of the okadaic acid group of toxins. To evaluate the spatial and temporal variability of Dinophysis species and toxins in the important shellfish-harvesting region of the Scottish west coast, we analysed data collected from 1996 to 2017 in two contrasting locations: Loch Ewe and the Clyde Sea. Seasonal studies were also undertaken, in Loch Ewe in both 2001 and 2002, and in the Clyde in 2015. Dinophysis acuminata was present throughout the growing season during every year of the study, with blooms typically occurring between May and September at both locations. The appearance of D. acuta was interannually sporadic and, when present, was most abundant in the late summer and autumn. The Clyde field study in 2015 indicated the importance of a temperature front in the formation of a D. acuta bloom. A shift in toxin profiles of common mussels (Mytilus edulis) tested during regulatory monitoring was evident, with a proportional decrease in okadaic acid (OA) and dinophysistoxin-1 (DTX1) and an increase in dinophysistoxin-2 (DTX2) occurring when D. acuta became dominant. Routine enumeration of Dinophysis to species level could provide early warning of potential contamination of shellfish with DTX2 and thus determine the choice of the most suitable kit for effective end-product testing.

Published

2018

8. A Chilean Harmful Algal Bloom Monitoring Program using Metabarcoding Analysis by SATREPS-MACH

Author

Yarimizu, Kyoko, Fujiyoshi, So, Kawai, Mikihiko, Acuña, Jacquelinne J., Rilling, Joaquin-Ignacio, Campos, Marco, Vilugrón, Jonnathan, Cameron, Henry, Vergara, Karen, Gajardo, Gonzalo, Espinoza-González, Oscar, Guzmán, Leonardo, Nagai, Satoshi, Riquelme, Carlos, Jorquera, Milko A., Maruyama, Fumito, Yarimizu, Kyoko, Fujiyoshi, So, Kawai, Mikihiko, Acuña, Jacquelinne J., Rilling, Joaquin-Ignacio, Campos, Marco, Vilugrón, Jonnathan, Cameron, Henry, Vergara, Karen, Gajardo, Gonzalo, Espinoza-González, Oscar, Guzmán, Leonardo, Nagai, Satoshi, Riquelme, Carlos, Jorquera, Milko A., and Maruyama, Fumito

Abstract

This video introduces steps of Harmful Algae monitoring in Chile performed by the SATREPS-MACH project. It includes the procedures from sampling to data summary. The video is created to present to the public what Harmful Algae are and how toxic algae are being monitored. The video also aims to explain to scientists how to use metabarcoding analysis for monitoring algal species. This film answers these questions visually step by step. See more information about the SATREPS-MACH project: https://www.mach-satreps.org

Published

2021

9. Evaluation of Passive Samplers as a Monitoring Tool for Early Warning of Dinophysis Toxins in Shellfish.

Author

Pizarro, Gemita, Moroño, Ángeles, Paz, Beatriz, Franco, José M., Pazos, Yolanda, and Reguera, Beatriz

Abstract

From June 2006 to January 2007 passive samplers (solid phase adsorbing toxin tracking, SPATT) were tested as a monitoring tool with weekly monitoring of phytoplankton and toxin content (liquid chromatography-mass spectrometry, LC-MS) in picked cells of Dinophysis and plankton concentrates. Successive blooms of Dinophysis acuminata, D. acuta and D. caudata in 2006 caused a long mussel harvesting closure (4.5 months) in the Galician Rías (NW Spain) and a record (up to 9246 ng·g resin-week-1) accumulation of toxins in SPATT discs. Best fit of a toxin accumulation model was between toxin accumulation in SPATT and the product of cell densities by a constant value, for each species of Dinophysis, of toxin content (average) in picked cells. Detection of Dinophysis populations provided earlier warning of oncoming diarrhetic shellfish poisoning (DSP) outbreaks than the SPATT, which at times overestimated the expected toxin levels in shellfish because: (i) SPATT accumulated toxins did not include biotransformation and depuration loss terms and (ii) accumulation of toxins not available to mussels continued for weeks after Dinophysis cells were undetectable and mussels were toxin-free. SPATT may be a valuable environmental monitoring and research tool for toxin dynamics, in particular in areas with no aquaculture, but does not provide a practical gain for early warning of DSP outbreaks. [ABSTRACT FROM AUTHOR]

Published

2013

10. Whole cell hybridisation for monitoring harmful marine microalgae.

Author

Toebe, Kerstin

Subjects

CELL fusion, TOXIC marine algae, MICROALGAE, FLUORESCENCE in situ hybridization, MOLECULAR biology, MICROORGANISMS, MARINE ecology

Abstract

Fluorescence in situ hybridisation (FISH) is a powerful molecular biological tool to detect and enumerate harmful microorganism in the marine environment. Different FISH methods are available, and especially in combination with automated counting techniques, the potential for a routine monitoring of harmful marine microalgae is attainable. Various oligonucleotide probes are developed for detecting harmful microalgae. However, FISH-based methods are not yet regularly included in monitoring programmes tracking the presence of harmful marine microalgae. A limitation factor of the FISH technique is the currently available number of suited fluorochromes attached to the FISH probes to detect various harmful species in one environmental sample at a time. However, coupled automated techniques, like flow cytometry or solid-phase cytometry, can facilitate the analysis of numerous field samples and help to overcome this drawback. A great benefit of FISH in contrast to other molecular biological detection methods for harmful marine microalgae is the direct visualisation of the hybridised target cells, which are not permitted in cell free formats, like DNA depending analysis methods. Therefore, an additional validation of the FISH-generated results is simultaneously given. [ABSTRACT FROM AUTHOR]

Published

2013

11. Effects of the toxic dinoflagellate Heterocapsa circularisquama on the valve movement behaviour of the Manila clam Ruditapes philippinarum

Author

Basti, Leila, Nagai, Kyohito, Shimasaki, Yohei, Oshima, Yuji, Honjo, Tsuneo, and Segawa, Susumu

Subjects

*TOXIC algae, *DINOFLAGELLATES, *HEART valve physiology, *MANILA clam, *ACQUISITION of data, *ZOOLOGY -- Experiments

Abstract

Abstract: The effects of the toxic dinoflagellate Heterocapsa circularisquama on the valve movements of adult Ruditapes philippinarum (Bivalvia, Veneridae) were investigated. The valve movement behaviour was continuously measured using a non invasive Hall element sensor-automated data acquisition system. Individual clams acclimated to the experimental conditions were subjected to different food regimes over a 96 h period: (1) unfed in filtered seawater for the first 24 h, (2) batch-fed1, in which clams were given one ration of non-toxic Isochrysis galbana at the beginning of the second 24 h, (3) batch-fed2, in which clams were given a mixture of I. galbana and H. circularisquama (5×104 cells ml−1) for the third 24 h, and (4) starved for 24 h in filtered seawater after exposure to the toxic alga. For each food regime, the valve activity was analyzed by quantifying: (1) the duration of valve opening (DVO, %), (2) the amplitude of valve opening (AVO, mm), and (3) the frequency of valve adductions (FVA, adductions h−1). The real-time monitoring of the clams'' valve movements proved that R. philippinarum detects H. circularisquama in the mixture of food at as low as 0.5 cells ml−1. Typically, the addition of the toxic alga induced a short and incomplete valve closure reaction. A strong correlation between the closure reaction time and H. circularisquama concentration was found (R 2 =0.91), the closure reaction occurring faster with increasing concentrations. Reopening of the valves was characterized by a significant increase in the FVA starting from 5 cells ml−1 (ANOVA, P <0.001) and a significant decrease in the AVO at 500 cells ml−1 (Wilcoxon, P <0.05). After exposure, clams transferred to clean seawater resumed normal valve adduction activity, but showed a significant increase in the DVO after exposure to 0.5 and 5 cells ml−1 (ANOVA, LSD, P <0.05), and a significant increase in the AVO (ANOVA, P <0.01). Such increase could have been associated with recovery behaviour. Our results indicate that the Manila clam is highly sensitive to the toxic H. circularisquama and detects efficiently its presence at extremely low concentrations, in mixture of food, and in a time- and concentration-dependent manner. The Manila clam and the valve movement monitor could thus be used as an early biological warning system to monitor the outbreaks of this toxic alga along marine coastal areas and in bivalve farms. However, field experiments are required to provide further evidence for the use of this monitor in natural environment where several factors may interfere with the valve movement behaviour. [Copyright &y& Elsevier]

Published

2009

12. Lipophilic Toxins in Chile: History, Producers and Impacts.

Author

Díaz, Patricio A., Álvarez, Gonzalo, Pizarro, Gemita, Blanco, Juan, and Reguera, Beatriz

Abstract

A variety of microalgal species produce lipophilic toxins (LT) that are accumulated by filter-feeding bivalves. Their negative impacts on human health and shellfish exploitation are determined by toxic potential of the local strains and toxin biotransformations by exploited bivalve species. Chile has become, in a decade, the world's major exporter of mussels (Mytilus chilensis) and scallops (Argopecten purpuratus) and has implemented toxin testing according to importing countries' demands. Species of the Dinophysis acuminata complex and Protoceratium reticulatum are the most widespread and abundant LT producers in Chile. Dominant D. acuminata strains, notwithstanding, unlike most strains in Europe rich in okadaic acid (OA), produce only pectenotoxins, with no impact on human health. Dinophysis acuta, suspected to be the main cause of diarrhetic shellfish poisoning outbreaks, is found in the two southernmost regions of Chile, and has apparently shifted poleward. Mouse bioassay (MBA) is the official method to control shellfish safety for the national market. Positive results from mouse tests to mixtures of toxins and other compounds only toxic by intraperitoneal injection, including already deregulated toxins (PTXs), force unnecessary harvesting bans, and hinder progress in the identification of emerging toxins. Here, 50 years of LST events in Chile, and current knowledge of their sources, accumulation and effects, are reviewed. Improvements of monitoring practices are suggested, and strategies to face new challenges and answer the main questions are proposed. [ABSTRACT FROM AUTHOR]

Published

2022

13. Interannual variability in Dinophysis spp. abundance and toxin accumulation in farmed mussels (Perna perna) in a subtropical estuary

Author

Alves, T. P., Schramm, M. A., Proença, L. A. O., Pinto, T. O., and Mafra, Jr, L. L.

Published

2018

14. Protocols for Monitoring Harmful Algal Blooms for Sustainable Aquaculture and Coastal Fisheries in Chile

Author

Leonardo Guzmán, Luis Norambuena-Subiabre, Milko A. Jorquera, Fumito Maruyama, Karen Vergara, Shoko Ueki, Kyoko Yarimizu, Gemita Pizarro, Satoshi Nagai, Jonnathan Vilugrón, So Fujiyoshi, Mikihiko Kawai, Joaquin I. Rilling, Emma Karin Cascales, Jacquelinne J. Acuña, Oscar Espinoza-González, Gonzalo Gajardo, Henry Cameron, Jesús Morón-López, and Carlos Riquelme

Subjects

0106 biological sciences, microscope, Harmful Algal Bloom, Health, Toxicology and Mutagenesis, toxin assay, Fisheries, lcsh:Medicine, Pilot Projects, Aquaculture, 01 natural sciences, Algal bloom, 03 medical and health sciences, Protocol, HAB monitoring, harmful algae, Marine ecosystem, Chile, Duration (project management), DNA extraction, Ecosystem, 030304 developmental biology, metabarcoding analysis, Protocol (science), 0303 health sciences, coastal monitoring, business.industry, 010604 marine biology & hydrobiology, lcsh:R, Environmental resource management, Public Health, Environmental and Occupational Health, Monitoring program, Water sample, pigment assay, Sustainable aquaculture, Data quality, phytoplankton, Environmental science, nutrient assay, business

Abstract

Harmful algae blooms (HABs) cause acute effects on marine ecosystems due to their production of endogenous toxins or their enormous biomass, leading to significant impacts on local economies and public health. Although HAB monitoring has been intensively performed at spatiotemporal scales in coastal areas of the world over the last decades, procedures have not yet been standardized. HAB monitoring procedures are complicated and consist of many methodologies, including physical, chemical, and biological water sample measurements. Each monitoring program currently uses different combinations of methodologies depending on site specific purposes, and many prior programs refer to the procedures in quotations. HAB monitoring programs in Chile have adopted the traditional microscopic and toxin analyses but not molecular biology and bacterial assemblage approaches. Here we select and optimize the HAB monitoring methodologies suitable for Chilean geography, emphasizing on metabarcoding analyses accompanied by the classical tools with considerations including cost, materials and instrument availability, and easiness and efficiency of performance. We present results from a pilot study using the standardized stepwise protocols, demonstrating feasibility and plausibility for sampling and analysis for the HAB monitoring. Such specific instructions in the standardized protocol are critical obtaining quality data under various research environments involving multiple stations, different analysts, various time-points, and long HAB monitoring duration.

Published

2020

15. Dinophysis acuta in Scottish Coastal Waters and Its Influence on Diarrhetic Shellfish Toxin Profiles

Author

Callum Whyte, Keith Davidson, Ruth F. Paterson, Eileen Bresnan, Sharon McNeill, Sarah Swan, Andrew D. Turner, and Elaine Mitchell

Subjects

DSP toxins, 0106 biological sciences, 0301 basic medicine, shellfish toxicity, Health, Toxicology and Mutagenesis, ved/biology.organism_classification_rank.species, lcsh:Medicine, Zoology, Dinophysis acuta, human health, Toxicology, 01 natural sciences, Article, Dinophysis, 03 medical and health sciences, chemistry.chemical_compound, HAB monitoring, medicine, 14. Life underwater, Shellfish, biology, seasonality, ved/biology, time-series, 010604 marine biology & hydrobiology, lcsh:R, Dinophysis acuminata, Dinoflagellate, Okadaic acid, biology.organism_classification, medicine.disease, Mytilus, Shellfish poisoning, 030104 developmental biology, aquaculture, Scotland, chemistry

Abstract

Diarrhetic shellfish toxins produced by the dinoflagellate genus Dinophysis are a major problem for the shellfish industry worldwide. Separate species of the genus have been associated with the production of different analogues of the okadaic acid group of toxins. To evaluate the spatial and temporal variability of Dinophysis species and toxins in the important shellfish-harvesting region of the Scottish west coast, we analysed data collected from 1996 to 2017 in two contrasting locations: Loch Ewe and the Clyde Sea. Seasonal studies were also undertaken, in Loch Ewe in both 2001 and 2002, and in the Clyde in 2015. Dinophysis acuminata was present throughout the growing season during every year of the study, with blooms typically occurring between May and September at both locations. The appearance of D. acuta was interannually sporadic and, when present, was most abundant in the late summer and autumn. The Clyde field study in 2015 indicated the importance of a temperature front in the formation of a D. acuta bloom. A shift in toxin profiles of common mussels (Mytilus edulis) tested during regulatory monitoring was evident, with a proportional decrease in okadaic acid (OA) and dinophysistoxin-1 (DTX1) and an increase in dinophysistoxin-2 (DTX2) occurring when D. acuta became dominant. Routine enumeration of Dinophysis to species level could provide early warning of potential contamination of shellfish with DTX2 and thus determine the choice of the most suitable kit for effective end-product testing.

Published

2018

16. Protocols for Monitoring Harmful Algal Blooms for Sustainable Aquaculture and Coastal Fisheries in Chile.

Author

Yarimizu K, Fujiyoshi S, Kawai M, Norambuena-Subiabre L, Cascales EK, Rilling JI, Vilugrón J, Cameron H, Vergara K, Morón-López J, Acuña JJ, Gajardo G, Espinoza-González O, Guzmán L, Jorquera MA, Nagai S, Pizarro G, Riquelme C, Ueki S, and Maruyama F

Subjects

Chile, Pilot Projects, Aquaculture, Ecosystem, Fisheries, Harmful Algal Bloom

Abstract

Harmful algae blooms (HABs) cause acute effects on marine ecosystems due to their production of endogenous toxins or their enormous biomass, leading to significant impacts on local economies and public health. Although HAB monitoring has been intensively performed at spatiotemporal scales in coastal areas of the world over the last decades, procedures have not yet been standardized. HAB monitoring procedures are complicated and consist of many methodologies, including physical, chemical, and biological water sample measurements. Each monitoring program currently uses different combinations of methodologies depending on site specific purposes, and many prior programs refer to the procedures in quotations. HAB monitoring programs in Chile have adopted the traditional microscopic and toxin analyses but not molecular biology and bacterial assemblage approaches. Here we select and optimize the HAB monitoring methodologies suitable for Chilean geography, emphasizing on metabarcoding analyses accompanied by the classical tools with considerations including cost, materials and instrument availability, and easiness and efficiency of performance. We present results from a pilot study using the standardized stepwise protocols, demonstrating feasibility and plausibility for sampling and analysis for the HAB monitoring. Such specific instructions in the standardized protocol are critical obtaining quality data under various research environments involving multiple stations, different analysts, various time-points, and long HAB monitoring duration.

Published

2020

17. Dinophysis acuta in Scottish Coastal Waters and Its Influence on Diarrhetic Shellfish Toxin Profiles.

Author

Swan, Sarah C., Whyte, Callum, Paterson, Ruth F., McNeill, Sharon, Mitchell, Elaine, Davidson, Keith, Turner, Andrew D., and Bresnan, Eileen

Subjects

*AQUACULTURE, *POISONOUS shellfish, *HEALTH, *SEASON of birth

Abstract

Diarrhetic shellfish toxins produced by the dinoflagellate genus Dinophysis are a major problem for the shellfish industry worldwide. Separate species of the genus have been associated with the production of different analogues of the okadaic acid group of toxins. To evaluate the spatial and temporal variability of Dinophysis species and toxins in the important shellfish-harvesting region of the Scottish west coast, we analysed data collected from 1996 to 2017 in two contrasting locations: Loch Ewe and the Clyde Sea. Seasonal studies were also undertaken, in Loch Ewe in both 2001 and 2002, and in the Clyde in 2015. Dinophysis acuminata was present throughout the growing season during every year of the study, with blooms typically occurring between May and September at both locations. The appearance of D. acuta was interannually sporadic and, when present, was most abundant in the late summer and autumn. The Clyde field study in 2015 indicated the importance of a temperature front in the formation of a D. acuta bloom. A shift in toxin profiles of common mussels (Mytilus edulis) tested during regulatory monitoring was evident, with a proportional decrease in okadaic acid (OA) and dinophysistoxin-1 (DTX1) and an increase in dinophysistoxin-2 (DTX2) occurring when D. acuta became dominant. Routine enumeration of Dinophysis to species level could provide early warning of potential contamination of shellfish with DTX2 and thus determine the choice of the most suitable kit for effective end-product testing. [ABSTRACT FROM AUTHOR]

Published

2018

18. Evaluation of passive samplers as a monitoring tool for early warning of dinophysis toxins in shellfish

Author

Beatriz Reguera, Beatriz Paz, José M. Franco, Yolanda Pazos, Ángeles Moroño, and Gemita Pizarro

Subjects

0106 biological sciences, Pharmaceutical Science, Zoology, Food Contamination, 010501 environmental sciences, 01 natural sciences, Algal bloom, Article, Modeling toxin accumulation, modeling toxin accumulation, Centro Oceanográfico de Vigo, Galician Rías, Drug Discovery, medicine, HAB monitoring, Animals, Shellfish Poisoning, Seawater, 14. Life underwater, Medio Marino, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), lcsh:QH301-705.5, Shellfish, Dinophysis, 0105 earth and related environmental sciences, biology, 010604 marine biology & hydrobiology, fungi, Dinophysis acuminata, Mussel, biology.organism_classification, medicine.disease, Bivalvia, 3. Good health, Shellfish poisoning, Fishery, Solid Phase Adsorbing Toxin Tracking (SPATT), lcsh:Biology (General), 13. Climate action, Phytoplankton, early warning DSP outbreaks, Marine Toxins, Early warning DSP outbreaks, Diarrhetic shellfish poisoning, Marine toxin, Environmental Monitoring

Abstract

23 páginas, 9 figuras, 2 tablas, From June 2006 to January 2007 passive samplers (solid phase adsorbing toxin tracking, SPATT) were tested as a monitoring tool with weekly monitoring of phytoplankton and toxin content (liquid chromatography–mass spectrometry, LC-MS) in picked cells of Dinophysis and plankton concentrates. Successive blooms of Dinophysis acuminata, D. acuta and D. caudata in 2006 caused a long mussel harvesting closure (4.5 months) in the Galician Rías (NW Spain) and a record (up to 9246 ng·g resin-week−1) accumulation of toxins in SPATT discs. Best fit of a toxin accumulation model was between toxin accumulation in SPATT and the product of cell densities by a constant value, for each species of Dinophysis, of toxin content (average) in picked cells. Detection of Dinophysis populations provided earlier warning of oncoming diarrhetic shellfish poisoning (DSP) outbreaks than the SPATT, which at times overestimated the expected toxin levels in shellfish because: (i) SPATT accumulated toxins did not include biotransformation and depuration loss terms and (ii) accumulation of toxins not available to mussels continued for weeks after Dinophysis cells were undetectable and mussels were toxin-free. SPATT may be a valuable environmental monitoring and research tool for toxin dynamics, in particular in areas with no aquaculture, but does not provide a practical gain for early warning of DSP outbreaks., This research was supported by projects “Dinophysis Galicia” (CTM2004-0478-CO3-01) and ASIMUTH (EU 7FP, SPACE, Grant Agreement # 261860). G. Pizarro was funded by a Chilean pre-doctoral fellowship from the Centro de Estudios del Quaternario Fuego-Patagonia y Antartica (CEQUA) Foundation and the Instituto de Fomento Pesquero (IFOP). This is a contribution to the GEOHAB-Core Research Project HABs in Fjords and Coastal Embayments.

Published

2013

19. A Chilean Harmful Algal Bloom Monitoring Program using Metabarcoding Analysis by SATREPS-MACH

Author

Yarimizu, Kyoko, Fujiyoshi, So, Kawai, Mikihiko, Acuña, Jacquelinne J., Rilling, Joaquin-Ignacio, Campos, Marco, Vilugrón, Jonnathan, Cameron, Henry, Vergara, Karen, Gajardo, Gonzalo, Espinoza-González, Oscar, Guzmán, Leonardo, Nagai, Satoshi, Riquelme, Carlos, Jorquera, Milko A., Maruyama, Fumito, Yarimizu, Kyoko, Fujiyoshi, So, Kawai, Mikihiko, Acuña, Jacquelinne J., Rilling, Joaquin-Ignacio, Campos, Marco, Vilugrón, Jonnathan, Cameron, Henry, Vergara, Karen, Gajardo, Gonzalo, Espinoza-González, Oscar, Guzmán, Leonardo, Nagai, Satoshi, Riquelme, Carlos, Jorquera, Milko A., and Maruyama, Fumito

Abstract

This video introduces steps of Harmful Algae monitoring in Chile performed by the SATREPS-MACH project. It includes the procedures from sampling to data summary. The video is created to present to the public what Harmful Algae are and how toxic algae are being monitored. The video also aims to explain to scientists how to use metabarcoding analysis for monitoring algal species. This film answers these questions visually step by step. See more information about the SATREPS-MACH project: https://www.mach-satreps.org