Iron and Harmful Algae Blooms: Potential Algal-Bacterial Mutualism Between Lingulodinium polyedrum and Marinobacter algicola

Yarimizu, Kyoko; Cruz-López, Ricardo; Carrano, Carl J.

doi:10.3389/fmars.2018.00180

Cited by 26 publications

(17 citation statements)

References 50 publications

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“…Many algal-bacterial interactions have crystalized around metal exchanges ( Amin et al, 2017 ; Yarimizu et al, 2018 ; Johansson et al, 2019 ), suggesting a role for metal chelators in algicidal interactions. Iron, in particular, is a crucial trace metal that limits microbial growth in the ocean ( Moore et al, 2013 ).…”

Section: Effects Of Bacterial Algicides On Algaementioning

confidence: 99%

Algicidal Bacteria: A Review of Current Knowledge and Applications to Control Harmful Algal Blooms

2022

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Interactions between bacteria and phytoplankton in aqueous ecosystems are both complex and dynamic, with associations that range from mutualism to parasitism. This review focuses on algicidal interactions, in which bacteria are capable of controlling algal growth through physical association or the production of algicidal compounds. While there is some evidence for bacterial control of algal growth in the field, our understanding of these interactions is largely based on laboratory culture experiments. Here, the range of these algicidal interactions is discussed, including specificity of bacterial control, mechanisms for activity, and insights into the chemical and biochemical analysis of these interactions. The development of algicidal bacteria or compounds derived from bacteria for control of harmful algal blooms is reviewed with a focus on environmentally friendly or sustainable methods of application. Potential avenues for future research and further development and application of bacterial algicides for the control of algal blooms are presented.

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Section: Effects Of Bacterial Algicides On Algaementioning

confidence: 99%

Algicidal Bacteria: A Review of Current Knowledge and Applications to Control Harmful Algal Blooms

2022

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“…A novel Marionbacter phage vB_MalS-PS3 was isolated from the western Pacific Ocean, serving M. algicola DG893(T) as its host. Phytoplankton blooms can cause acute effects on marine ecosystems, one hypothesis is that bacteria producing photoactive iron carriers can provide a bioavailable form of iron for symbiotic phytoplankton, which in turn will affect the growth and bloom dynamics of algae ( Yarimizu et al, 2018 ). M. algicola DG893(T) is a phytoplankton-associated bacterium that produces the photoactive siderophore vibrioferrin ( Romano et al, 2013 ).…”

Section: Resultsmentioning

confidence: 99%

“…Marinobacter genus is one of the important algal-associated bacterial groups in marine environments ( Gonzalez et al, 2000 ; Buchan et al, 2014 ). Marinobacter algicola DG893(T) was isolated from paralytic shellfish toxin-producing dinoflagellates ( Green et al, 2006 ), and had been proposed to generate photoactive siderophores that may offer a bioavailable form of iron to commensally associated phytoplankton, affecting algal growth and bloom dynamics ( Yarimizu et al, 2018 ). In addition, petroleum pollution has become a serious environmental problem in the sea, along with the occasional and various release routes such as oil mining, accidental oil spills, shipping transportation, and industrial activities ( Cui et al, 2008 ).…”

Section: Introductionmentioning

confidence: 99%

Characterization and Genomic Analysis of Marinobacter Phage vB_MalS-PS3, Representing a New Lambda-Like Temperate Siphoviral Genus Infecting Algae-Associated Bacteria

et al. 2021

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Marinobacter is the abundant and important algal-associated and hydrocarbon biodegradation bacteria in the ocean. However, little knowledge about their phages has been reported. Here, a novel siphovirus, vB_MalS-PS3, infecting Marinobacter algicola DG893(T), was isolated from the surface waters of the western Pacific Ocean. Transmission electron microscopy (TEM) indicated that vB_MalS-PS3 has the morphology of siphoviruses. VB_MalS-PS3 was stable from −20 to 55°C, and with the latent and rise periods of about 80 and 10 min, respectively. The genome sequence of VB_MalS-PS3 contains a linear, double-strand 42,168-bp DNA molecule with a G + C content of 56.23% and 54 putative open reading frames (ORFs). Nineteen conserved domains were predicted by BLASTp in NCBI. We found that vB_MalS-PS3 represent an understudied viral group with only one known isolate. The phylogenetic tree based on the amino acid sequences of whole genomes revealed that vB_MalS-PS3 has a distant evolutionary relationship with other siphoviruses, and can be grouped into a novel viral genus cluster with six uncultured assembled viral genomes from metagenomics, named here as Marinovirus. This study of the Marinobacter phage vB_MalS-PS3 genome enriched the genetic database of marine bacteriophages, in addition, will provide useful information for further research on the interaction between Marinobacter phages and their hosts, and their relationship with algal blooms and hydrocarbon biodegradation in the ocean.

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“…Other studies have linked trace elements, such as Li, Se, and Ni, to HAB species (Kudela et al, 2010). Algalbacterial interactions may also be involved in bloom dynamics, with siderophore-producing bacteria potentially supplying iron to HAB species (Yarimizu et al, 2018). Given the potential links between various trace metals and HAB toxin production, the use of sensitive radiotracers, such as 59 Fe, would enable experiments with environmentally relevant concentrations of elements potentially implicated in HAB initiation, biotoxin production, and physiology.…”

Section: Role Of Metals In Habs Biotoxin Productionmentioning

confidence: 99%

Exploring New Frontiers in Marine Radioisotope Tracing – Adapting to New Opportunities and Challenges

et al. 2020

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Radioisotopes have been used in earth and environmental sciences for over 150 years and provide unique tools to study environmental processes in great detail from a cellular level through to an oceanic basin scale. These nuclear techniques have been employed to understand coastal and marine ecosystems via laboratory and field studies in terms of how aquatic organisms respond to environmental stressors, including temperature, pH, nutrients, metals, organic anthropogenic contaminants, and biological toxins. Global marine issues, such as ocean warming, deoxygenation, plastic pollution, ocean acidification, increased duration, and intensity of toxic harmful algal blooms (HABs), and coastal contamination are all impacting marine environments, thereby imposing various environmental and economic risks. Being able to reliably assess the condition of coastal and marine ecosystems, and how they may respond to future disturbances, can provide vital information for society in the sustainable management of their marine environments. This paper summarizes the historical use of radiotracers in these systems, describes how existing techniques of radioecological tracing can be developed for specific current environmental issues and provides information on emerging issues that would benefit from current and new radiotracer methods. Current challenges with using radioecological tracers and opportunities are highlighted, as well as opportunities to maximize the application of these methods to greatly increase the ability of environmental managers to conduct evidence-based management of coastal and marine ecosystems.

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Iron and Harmful Algae Blooms: Potential Algal-Bacterial Mutualism Between Lingulodinium polyedrum and Marinobacter algicola

Cited by 26 publications

References 50 publications

Algicidal Bacteria: A Review of Current Knowledge and Applications to Control Harmful Algal Blooms

Algicidal Bacteria: A Review of Current Knowledge and Applications to Control Harmful Algal Blooms

Characterization and Genomic Analysis of Marinobacter Phage vB_MalS-PS3, Representing a New Lambda-Like Temperate Siphoviral Genus Infecting Algae-Associated Bacteria

Exploring New Frontiers in Marine Radioisotope Tracing – Adapting to New Opportunities and Challenges

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