Future HAB science: Directions and challenges in a changing climate

•HABs develop through the integration of physical, chemical, and temporal drivers.•We need a mechanistic understanding that reveals how climate affects these drivers.•Accelerating climate change in coastal regions signals the urgency for action.•New strategies, tools, and observatories for HABs will...

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Published in	Harmful algae Vol. 91; p. 101632
Main Authors	Wells, Mark L., Karlson, Bengt, Wulff, Angela, Kudela, Raphael, Trick, Charles, Asnaghi, Valentina, Berdalet, Elisa, Cochlan, William, Davidson, Keith, De Rijcke, Maarten, Dutkiewicz, Stephanie, Hallegraeff, Gustaaf, Flynn, Kevin J., Legrand, Catherine, Paerl, Hans, Silke, Joe, Suikkanen, Sanna, Thompson, Peter, Trainer, Vera L.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.01.2020
Subjects	Akvatisk ekologi algal blooms Aquaculture Aquatic Ecology Benthic carbon Climate change Climate Science climatic factors Cyanobacteria ecosystems emissions Experimental strategies Fisheries Grazing HAB HAS Klimatvetenskap microalgae Modeling Multi-stressor New tools Nutrients Observatories Ocean acidification Oceanografi, hydrologi och vattenresurser Oceanography, Hydrology and Water Resources phytoplankton poisonous algae salinity storms Stratification Temperature uncertainty Benthic Temperature HAB Fisheries Ocean acidification Grazing Modeling Climate change Multi-stressor Observatories Cyanobacteria Experimental strategies Nutrients Stratification New tools Aquaculture
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Abstract	•HABs develop through the integration of physical, chemical, and temporal drivers.•We need a mechanistic understanding that reveals how climate affects these drivers.•Accelerating climate change in coastal regions signals the urgency for action.•New strategies, tools, and observatories for HABs will improve our forecast skill.•Focused research on subsets of HAB species would greatly accelerate advances. There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aquaculture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends.
AbstractList	There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aquaculture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends. •HABs develop through the integration of physical, chemical, and temporal drivers.•We need a mechanistic understanding that reveals how climate affects these drivers.•Accelerating climate change in coastal regions signals the urgency for action.•New strategies, tools, and observatories for HABs will improve our forecast skill.•Focused research on subsets of HAB species would greatly accelerate advances. There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aquaculture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends. There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aquaculture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends.There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aquaculture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends. There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aqua culture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends. There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns, distribution and intensity of Harmful Algal Blooms (HABs). Changes in temperature, ocean acidification, precipitation, nutrient stress or availability, and the physical structure of the water column all influence the productivity, composition, and global range of phytoplankton assemblages, but large uncertainty remains about how integration of these climate drivers might shape future HABs. Presented here are the collective deliberations from a symposium on HABs and climate change where the research challenges to understanding potential linkages between HABs and climate were considered, along with new research directions to better define these linkages. In addition to the likely effects of physical (temperature, salinity, stratification, light, changing storm intensity), chemical (nutrients, ocean acidification), and biological (grazer) drivers on microalgae (senso lato), symposium participants explored more broadly the subjects of cyanobacterial HABs, benthic HABs, HAB effects on fisheries, HAB modelling challenges, and the contributions that molecular approaches can bring to HAB studies. There was consensus that alongside traditional research, HAB scientists must set new courses of research and practices to deliver the conceptual and quantitative advances required to forecast future HAB trends. These different practices encompass laboratory and field studies, long-term observational programs, retrospectives, as well as the study of socioeconomic drivers and linkages with aquaculture and fisheries. In anticipation of growing HAB problems, research on potential mitigation strategies should be a priority. It is recommended that a substantial portion of HAB research among laboratories be directed collectively at a small sub-set of HAB species and questions in order to fast-track advances in our understanding. Climate-driven changes in coastal oceanographic and ecological systems are becoming substantial, in some cases exacerbated by localized human activities. That, combined with the slow pace of decreasing global carbon emissions, signals the urgency for HAB scientists to accelerate efforts across disciplines to provide society with the necessary insights regarding future HAB trends. © 2019
ArticleNumber	101632
Author	Legrand, Catherine Karlson, Bengt Flynn, Kevin J. Davidson, Keith De Rijcke, Maarten Berdalet, Elisa Paerl, Hans Silke, Joe Thompson, Peter Kudela, Raphael Trick, Charles Suikkanen, Sanna Trainer, Vera L. Asnaghi, Valentina Cochlan, William Hallegraeff, Gustaaf Wulff, Angela Dutkiewicz, Stephanie Wells, Mark L.
Author_xml	– sequence: 1 givenname: Mark L. surname: Wells fullname: Wells, Mark L. email: mlwells@maine.edu organization: School of Marine Sciences, University of Maine, Orono, ME, 04469, USA – sequence: 2 givenname: Bengt surname: Karlson fullname: Karlson, Bengt organization: SMHI/Swedish Meteorological and Hydrological Institute, Forskning & utveckling, oceanografi/Research & development, oceanography, Sven Källfelts gata 15, 426 71 Västra Frölunda, Sweden – sequence: 3 givenname: Angela surname: Wulff fullname: Wulff, Angela organization: Department of Biological and Environmental Sciences, University of Gothenburg, Box 461, SE405 30 Göteborg, Sweden – sequence: 4 givenname: Raphael surname: Kudela fullname: Kudela, Raphael organization: Ocean Sciences Department, University of California, 1156 High Street, Santa Cruz, CA, 95064, USA – sequence: 5 givenname: Charles surname: Trick fullname: Trick, Charles organization: Department of Biology, Western University & Interfaculty Program in Public Health, Schulich School of Medicine and Dentistry, 1151 Richmond St. N, London, ON, N6A 5B7, Canada – sequence: 6 givenname: Valentina surname: Asnaghi fullname: Asnaghi, Valentina organization: Università degli Studi di Genova (DiSTAV), C.so Europa 26, 16132 Genova, Italy – sequence: 7 givenname: Elisa surname: Berdalet fullname: Berdalet, Elisa organization: Institute of Marine Sciences (ICM-CSIC), Pg. Marítim de la Barceloneta, 37-49 08003, Barcelona, Catalonia, Spain – sequence: 8 givenname: William surname: Cochlan fullname: Cochlan, William organization: Estuary & Ocean Science Center, Romberg Tiburon Campus, San Francisco State University, 3150 Paradise Drive, Tiburon, CA, 94920-1205, USA – sequence: 9 givenname: Keith surname: Davidson fullname: Davidson, Keith organization: Scottish Association for Marine Science, Scottish Marine Institute, Oban, Argyll, PA37 1QA, Scotland, UK – sequence: 10 givenname: Maarten surname: De Rijcke fullname: De Rijcke, Maarten organization: Flanders Marine Institute (VLIZ), InnovOcean site, Wandelaarkaai 7, 8400 Ostend, Belgium – sequence: 11 givenname: Stephanie surname: Dutkiewicz fullname: Dutkiewicz, Stephanie organization: Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA, 02139, USA – sequence: 12 givenname: Gustaaf surname: Hallegraeff fullname: Hallegraeff, Gustaaf organization: Institute for Marine and Antarctic Studies, University of Tasmania Private Bag 129 Hobart, TAS 7001, Australia – sequence: 13 givenname: Kevin J. surname: Flynn fullname: Flynn, Kevin J. organization: Department of Biosciences, Singleton Campus, Swansea University, Swansea, SA2 8PP, Wales, UK – sequence: 14 givenname: Catherine surname: Legrand fullname: Legrand, Catherine organization: Linnaeus University, Centre for Ecology and Evolution in Microbial Model Systems, Faculty of Health and Life Sciences, SE-39182, Kalmar, Sweden – sequence: 15 givenname: Hans surname: Paerl fullname: Paerl, Hans organization: Institute of Marine Sciences, University of North Carolina at Chapel Hill, Morehead City, NC, 28557, USA – sequence: 16 givenname: Joe surname: Silke fullname: Silke, Joe organization: Marine Institute, Renville, Oranmore, Co. Galway, H91 R673, Ireland – sequence: 17 givenname: Sanna surname: Suikkanen fullname: Suikkanen, Sanna organization: Finnish Environment Institute, Marine Research Centre, Latokartanonkaari 11, FI-00790 Helsinki, Finland – sequence: 18 givenname: Peter surname: Thompson fullname: Thompson, Peter organization: Marine and Atmospheric Science, CSIRO, Castray Esplanade, Hobart, TAS 7000, Australia – sequence: 19 givenname: Vera L. surname: Trainer fullname: Trainer, Vera L. organization: Environment and Fisheries Sciences Division, Northwest Fisheries Science Center, National Marine Fisheries Service, National Oceanic and Atmospheric Administration, 2725 Montlake Blvd. E., Seattle, WA 98112, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/32057342$$D View this record in MEDLINE/PubMed https://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-93140$$DView record from Swedish Publication Index https://gup.ub.gu.se/publication/287718$$DView record from Swedish Publication Index
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Snippet	•HABs develop through the integration of physical, chemical, and temporal drivers.•We need a mechanistic understanding that reveals how climate affects these... There is increasing concern that accelerating environmental change attributed to human-induced warming of the planet may substantially alter the patterns,...
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SubjectTerms	Akvatisk ekologi algal blooms Aquaculture Aquatic Ecology Benthic carbon Climate change Climate Science climatic factors Cyanobacteria ecosystems emissions Experimental strategies Fisheries Grazing HAB HAS Klimatvetenskap microalgae Modeling Multi-stressor New tools Nutrients Observatories Ocean acidification Oceanografi, hydrologi och vattenresurser Oceanography, Hydrology and Water Resources phytoplankton poisonous algae salinity storms Stratification Temperature uncertainty
Title	Future HAB science: Directions and challenges in a changing climate
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