Canadian review: Marine harmful algal blooms and phycotoxins of concern to Canada As has been reinforced all too well in recent months with the COVID-19 pandemic, the world is indeed interconnected. The international harmful algal bloom community recognized this early on, with a series of international conferences on HABs, starting in 1975 [1]. The International Society for the Study of Harmful Algae (ISSHA) was initiated in 1997. ISSHA made a commitment at the Florida international conference in 2002 to help develop a worldwide map of HABs and, beginning with the XII HAB conference (2006) in Copenhagen, ISSHA (along with the local organizing committee), also committed to help in the production of the proceedings of future international HAB meetings [2]. Also in 2002, the international HAB community developed the program Global Ecology and Oceanography of Harmful Algal Blooms (GEOHAB) now called GlobalHAB [3,4]. Each country impacted by HABs has also developed national HAB programs. In Canada, the Phycotoxins Working Group (PWG) was established in 1988, by Fisheries and Oceans Canada (DFO), as a result of human poisonings by a novel phycotoxin (domoic acid) in late 1987, in eastern Prince Edward Island. One goal of the PWG was to apprise sen- ior management within DFO on harmful algae, including planning, coordinating and prioritizing research activities [5]. This resulted in an unpublished review, written by the PWG in 1994, with the goal of informing management at DFO headquarters in Ottawa of the status and ongoing risks of marine HABs and phycotoxins in Canada. Over the years since then, information was added to that review regarding new HAB events and novel phycotoxins discovered in Canada as discussed in a Canadian HAB Working Group meeting (Fig.1). The authorship was expanded to include 16 other scientists from DFO, the National Research Council of Canada, the Canadian Food Inspection Agency, the Canadian Museum of Nature, and Microthalassia Consultants Inc. (see Acknowledgements). This allowed the coauthors to contribute their individual expertise in the diverse fields of phytoplankton taxonomy, physiology, ecology, and the analytical chemistry of phycotoxins. The result is a comprehensive review of marine HABs and phycotoxins of concern to Canada [6]. This 322 page review contains sections on the history and distribution of HABs in Canada, the toxic and otherwise harmful phytoplankton that compose the HABs, Fig. 1. Participants at the Third Harmful Algal Bloom Working Group Meeting (25-27 September 2018, Bedford Institute of Oceanography, Dartmouth, Nova Scotia, Canada), which included a discussion of the Canadian HAB review HARMFUL ALGAE NEWS NO. 65 / 2020 and the phycotoxins that they produce. Links to Canadian reports in the ICES-IOC Harmful Algal Event Database (HAEDAT) since 1988 [7] are included. It also reviews HAB issues in Canada relating to climate change, ocean acidification, ships ballast water, the Canadian Arctic, as well as monitoring programs and how they have changed over the years. Finally, it points out knowledge gaps and provides recommendations for further research. The text is supplemented by 13 tables, 13 figures, nine chemical structures of phycotoxins, and four appendices. A 126-page reference list contains links to PDF files or abstracts at journal websites. Below is an extended abstract of the Canadian HAB review: In Canada, as in many parts of the world, reports of marine harmful algal blooms (HABs) have increased over the past few decades. HABs are caused by the growth of certain phytoplankton that produce phycotoxins or otherwise cause harm. Phycotoxins are problematic not only to human health, but their cumulative effects are also stressors to marine ecosystems; some cause the mortality of marine fish, birds and mammals, including species designated at risk. Paralytic Shellfish Poisoning (PSP), caused by saxitoxin group toxins produced by Alexandrium spp. has been problematic for years along virtually the entire coast of British Columbia (BC), and on the east coast in the Bay of Fundy, the lower St. Lawrence Estuary, and the Gulf of St. Lawrence (Figs. 2-3). Since 1982, saxitoxin group toxins have been present sporadically in Newfoundland and Labrador (NL) and the Atlantic coast of Nova Scotia (NS). Amnesic Shellfish Poisoning (ASP, caused by domoic acid produced by Pseudo-nitzschia spp.) was identified for the first time worldwide following consumption of blue mussels (Mytilus edulis) from Prince Edward Island (PE) in 1987. Domoic acid has since been found in molluscan shellfish in the Bay of Fundy, New Brunswick (NB), NS, Quebec (QC), NL, offshore banks (Georges and Browns Banks), and in BC (Fig. 2). Diarrhetic Shellfish Poisoning (DSP, caused by okadaic acid group toxins produced by Dinophysis spp. feeding on ciliates and by benthic and epiphytic Prorocentrum spp.) was first recognized as a hazard in Canadian waters in 1990, 23 Harmful Algae News An IOC Newsletter on Toxic Algae and Algal Blooms No. 65 - September 2020 www.ioc-unesco.org/hab Genomic resources for the domoic acid-producing diatom Pseudo-nitzschia multistriata Species responsible for Harmful Algal Blooms (HABs) are among the best studied unicellular microa Fig. 2. Schematic drawing of the life cycle of the pennate diatom Pseudo-nitzschia multistriata. The vegetative phase is characterized by progressive cell size reduction of the population. When cells reach the sexual size threshold (SST), they can either keep decreasing in size until they die, or un Fig. 3. The genome browser available on the SZN BioInforma platform. The genome could be sequenced exploiting inbred strains, obtained from the cross of a first generation of sibling strains [7]. Because of the lower polymorphism of inbreds, it was possible to reconstruct long fragments of DNA from When tides collide: Harmful cyanobacterial and microalgal blooms in Florida and implications for risk assessment Cyanobacterial blooms are a regular occurrence in southern Florida. Water releases from Lake Okeechobee to maintain the water level in this large lake regularly occur along the St. Lucie Pim and Calusa Waterkeepers for assistance in sampling. References 1. Metcalf JS et al (in press). Neurotox Res 2. Matthiensen et al 2000. In: de Koe WJ et al (eds), Mycotoxins and Phycotoxins in Perspective at the Turn of the Millenium. Proc Xth Int IUPAC symposium on Mycotoxins and Phycotoxins, Gu Record levels of Dinophysistoxin-2 in clams from Douarnenez Bay, France, after an unusual bloom of Dinophysis acuta Fig. 1. Location of Douarnenez Bay (48 5 29 North; 4 19 51 West), Western French Atlantic coast. The official monitoring network for phytoplankton and algal toxins in French shellfis Fig. 4. Weekly lipophilic toxin concentrations in Donax spp. in 2019 and 2020. Fig. 3. (A) Percentage of Dinophysis species in Douarnenez Bay water samples between 2010 and August 2020. (B) Mean percentage of DSP toxins in Douarnenez Bay in Donax spp. between 2010 and August 2020. recorded in Dona New insights on the diversity of the dinoflagellate genus Ostreopsis in lagoons of French Polynesia, South Pacific Ocean French Polynesia is a vast territory in the South Pacific Ocean, stretching over an expanse of more than 1,200 miles with a surface area as large as Europe. It is composed of 118 health hazards posed by the proliferation of this species in French Polynesian lagoons. Future studies should aim at developing a better understanding the biogeographic distribution of this species, as well as assessing the impacts of its associated toxins on coral reef ecosystems and/or putative ac Toxin profiles of Gambierdiscus lapillus from the Cook Islands Species of the dinoflagellate genus Gambierdiscus produce the toxins responsible for ciguatera fish poisoning (CFP), an illness that has been prevalent throughout the Pacific and particularly in the Cook Islands [1]. The illness is cause Fig. 3. Phylogenetic analysis of partial large subunit ribosomal DNA sequences (D8D10 region) from the Gambierdiscus strains isolated in this study (in bold font) using Bayesian analyses. Values at nodes represent Bayesian posterior probability support. Scale bar is substitutions per site. lus was Unusual bloom of the red alga Ceramium sp. (Ceramiales, Rhodophyta) in Cartagena, Colombia, SW Caribbean Sea Fig. 1. Map of the study site. Macroalgal blooms are frequently associated with eutrophication of coastal waters [1]. These blooms are mainly composed of ephemeral and opportunistic green a ported as bloom forming species, and this finding adds another genus to the group of harmful bloom-forming macroalgae. Furthermore, this report highlights the potential introduction of a new species which has passed undetected until now. This would not be the first case of a potentially introduced b Distribution of the fish-killing dinoflagellate Karlodinium (Dinophyceae) in the Johor Strait, Malaysia Fig. 1. Sampling sites in the Johor Strait Species of Karlodinium are naked dinoflagellates. More than one third of the named species have been known to cause fish mortality. Toxigenic Karlod- Bloom of a red tide species Akashiwo sanguinea in Semerak Lagoon, Kelantan, Malaysia March 2016: i.e. Pseudo-nitzschia spp. (potentially toxic species), Chaetoceros, Skeletonema, and Blixaea quinquecornis (red tides, fish kills) [3]. In this survey, we confirmed the blooming species as the dinoflag Fig. 3 Bayesian trees of Akashiwo sanguinea inferred from (A) LSU rDNA and (B) ITS datasets. Values on nodes represent bootstrap supports of MP, ML, and posterior probabilities of BI Continued from page 14 sulcus extension invading the epicone is visible (Fig. 3B). Cells are slightly pigmented, wi CLEFSA project identifies Harmful Algal Blooms as a threat to food safety resulting from climate change Fig. 1. Organizations involved in the CLEFSA project Climate change is one of the key drivers of emerging risks for food and feed safety, plant and animal health (including terrestrial and aquat Fig. 3. CLEFSA Multi-Criteria strategy which several directly related to toxins produced by harmful algal blooms (HABs). These include: ciguatoxin, domoic acid, okadaic acid, saxitoxin, pinnatoxin, tetrodotoxin, beta-methylamino-L-alanine (BMAA) and palytoxin analogues. The analysis indicates that Blooming Buddies: MSc Research Projects Extend our Knowledge on Bloom-Forming Freshwater Cyanobacteria Freshwater cyanobacteria blooms are an increasing problem globally and much work is focussing on understanding bloom dynamics and toxin production in order to better manage the inherent health risk Fig. 2. Confocal microscopy images of Planktothrix sp. CAWBG59 (A), Microcystis aeruginosa CAWBG617 (B) and Nodularia spumigena CAWBG21 (C) stained with SYTOXTM green so that lysed cells fluoresce green, whilst intact cells are detected by red chlorophyll autofluorescence. bacterium interfering wit 25 years of service enhancing the capacity to monitor and manage HABs Fig. 1. Participants from the first course held at the IOC Centre in Copenhagen in 1995 The IOC Science and Communication Centre on Harmful Algae opened in May 1995 at the University of Copenhagen, Denmark. It was a new concept International Phytoplankton Intercomparison (IPI) exercise in abundance and composition of marine microalgae Dear participants of the annual IPI (International Phytoplankton Intercomparison) exercise in abundance and composition of marine microalgae: This note is to confirm that due to the ongoing p Canadian review: Marine harmful algal blooms and phycotoxins of concern to Canada As has been reinforced all too well in recent months with the COVID-19 pandemic, the world is indeed interconnected. The international harmful algal bloom community recognized this early on, with a series of internatio Fig. 2. Maps showing the location of selected phycotoxins on the Canadian east (left) and west (right) coast. Symbols represent domoic acid and okadaic acid group toxins above (closed symbols) and below (open symbols) the regulatory action level. The green shaded areas show the distribution of saxit Terri Wells (DFO-NAFC, St. Johns, NL); Michel Poulin (Canadian Museum of Nature, Ottawa, ON); Wade A. Rourke (CFIA, Dartmouth, NS). Fig. 4. Heterosigma akashiwo bloom in Kyuquot, British Columbia, 1996 (Photo courtesy of Nicky Haigh, Microthalassia Consultants Inc., Nanaimo, BC) References 1. LoCi ISSHAs Corner CHA 2021 Hybrid Conference, NEW DATE!! Dear ISSHA members and colleagues: Due to the COVID-19 pandemic and following recommendations of the World Health Organization and National Health Authorities, the 19th International Conference on Harmful Algae has been postponed to October 10-15 HAN Subscription To subscribe to Harmful Algae News anyone can send a mail to sympa@sympa. iode.org with the subject subscribe han do not write any text at all in the mail message itself. 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