Effets combinés des dinoflagellés toxiques du genre Alexandrium et d'agents pathogènes sur la physiologie des bivalves / Combined effects of toxic dinoflagellates of Alexandrium genus and pathogens on bivalve physiology Abstract

Lassudrie, Malwenn

10 December 2014

Les populations de bivalves exploités subissent régulièrement des épizooties qui affaiblissent voire déciment les stocks, et qui peuvent avoir des conséquences majeures pour l’aquaculture. Ces maladies, dues à des virus, bactéries, ou parasites, se développent particulièrement au printemps et en été. Ces périodes de l’année offrent également des conditions propices aux efflorescences de micro-algues toxiques, dont des dinoflagellés du genre Alexandrium. Ainsi, le risque de co-occurrence d’efflorescences d’Alexandrium sp. et de maladies infectieuses chez les bivalves est élevé. Or, ces micro-algues synthétisent et excrètent des neurotoxines et des composés cytotoxiques responsables d’altérations physiologiques chez les bivalves. L’objectif de cette thèse est d’évaluer les effets combinés d’une exposition à Alexandrium sp. et d’une infection par des agents pathogènes sur la physiologie des bivalves, à travers l’étude de différentes interactions tripartites bivalve – pathogène – Alexandrium sp. Les résultats de ce travail indiquent que différents profils de réponse existent en fonction des espèces impliquées dans ces interactions. Ainsi, une exposition à Alexandrium sp. peut augmenter le taux d’infection par des agents pathogènes chez des bivalves ou au contraire le diminuer. Les réponses hémocytaires associées peuvent traduire l’implication des défenses immunitaires dans ces modulations hôte-pathogène. De plus, l’exposition à des agents pathogènes peut interférer avec le processus d’accumulation de toxines algales dans les tissus des bivalves, illustrant la complexité de ces interactions. Ces résultats, associés à l’observation de lésions tissulaires chez les bivalves peuvent traduire l’altération des activités de nutrition (filtration, digestion…). Ce travail de thèse apporte une meilleure compréhension de l’implication des efflorescences toxiques dans le développement des maladies touchant les bivalves d’intérêt commercial, mais également de l’implication de l’environnement biotique des bivalves sur l’accumulation de phycotoxines réglementées. / Bivalve populations undergo regular epidemics that weaken or decimate exploited stocks and thus limit aquaculture. These diseases are caused mainly by viruses, bacteria or parasites, and occur primarily during spring and summer. This period of the year also provides favorable conditions for toxic dinoflagellate blooms, including species of the genus Alexandrium. Thus, the risk of Alexandrium sp. blooms and infectious diseases co-occurring in bivalves is high. However, these micro-algae synthesize and excrete toxins and cytotoxic compounds responsible for physiological changes in bivalves and could lead to an immuno-compromised status.The objective of this thesis is to evaluate the combined effects on bivalve physiology of exposure to the toxic dinoflagellate, Alexandrium sp., and infection by pathogens, through the study of different bivalve - pathogen - Alexandrium sp. tripartite interactions. The results of this work highlight the species-specific nature of these impacts.Thus, exposure to Alexandrium catenella reduces the herpesviruses infection in oyster Crassostrea gigas, whereas the dinoflagellate A. fundyense increases the susceptibility of C. virginica oyster to the parasite Perkinsus marinus, probably via immuno-suppression, as suggested by the partial inhibition of hemocyte responses. Additionally, the effect of a toxic algal bloom on oyster susceptibility to opportunistic diseases when exposed to a new microbial environment (simulating a transfer) was evaluated. Hemocyte responses to a changing microbial environment were suppressed by exposure to A. catenella, although no new bacterial infection was detected.Finally, exposure to pathogens or to a new microbial environment interferes with the processes by which oysters exposed to A. catenella accumulate algal toxins, illustrating the complexity of these interactions. These results provide a better understanding of the involvement of toxic algal blooms in the development of diseases affecting commercial bivalve species, but also of the involvement of the bivalve biotic environment in the accumulation of regulated toxins.

Micro-algues toxiques

Interactions hôte-pathogène

Bivalves marins

Physiologie

Immunité

Microbiome

Harmful Algal Blooms

Host-pathogen interactions

Marine invertebrate

Physiology

Immunity

Microbiome

The effects of sympatric and allopatric hab species on calanoid copepod swimming behavior

Nagel, Kathryn

13 January 2014

Harmful algal blooms, commonly referred to as red tides, occur yearly with dramatic impacts on marine ecology, coastal economies, and human health. As a consequence, research into the zooplankton grazers that consume HABs is highly important. However, changes in ocean temperature may increase the range of many HABs, exposing historically naive copepods to new species and their associated chemicals. Little research into the impact of allopatric verses sympatric species, particularly on the immediate behavioral impact, has been performed, leaving the indirect fitness effects of HAB exposure and consumption relatively unknown. We measured alterations in the swimming behavior of the calanoid copepod Temora longicornis following exposure to sympatric Alexandrium fundyense and allopatric Karenia brevis treatments. After a 15-16 hours depuration period postA. fundyense exposure, T. longicornis exhibited increased average swimming speed and an elevated net to gross displacement ratio (NGDR). During exposure toK. brevis, copepods exhibited an immediate decrease in swimming speed and NGDR, as well as an increased frequency of jump behavior. However, these effects faded after an one-hour depuration period, and disappeared after a 15-16 hour depuration period. The alterations in swimming behavior demonstrated by the copepods treated A. fundyense may increase encounter rate with predators, while copepods treated with K. brevis remain in bloom conditions for longer periods of time, negatively affecting survivorship. Temora longicornis individuals also may be made more visible to predators due to the increase in jumps seen during treatment with K. brevis. These behavioral changes suggest how HABs escape from zooplankton grazer control by altering copepod swimming behavior, and the pattern of predator-prey evolution that occurs over time.

Temora longicornis

Harmful algal blooms

Red tides

Copepod behavior

Algal blooms

Marine animals

Marine biology

Marine organisms

Marine ecosystem health

Marine ecology

Copepoda

Transcriptomic and Epigenetic Responses to Environmental Stress in Marine Bivalves with a Focus on Harmful Algal Blooms

Suarez Ulloa, Maria Victoria

07 June 2017

Global change poses new threats for life in the oceans forcing marine organisms to respond through molecular acclimatory and adaptive strategies. Although bivalve molluscs are particularly tolerant and resilient to environmental stress, they must now face the challenge of more frequent and severe Harmful Algal Blooms (HABs) episodes. These massive outbreaks of microalgae produce toxins that accumulate in the tissues of these filter-feeder organisms, causing changes in their gene expression profiles, which in turn modify their phenotype in order to maintain homeostasis. Such modifications in gene expression are modulated by epigenetic mechanisms elicited by specific environmental stimuli, laying the foundations for long-term adaptations. The present work aims to examine the links between environmental stress in bivalve molluscs (with especial emphasis on Harmful Algal Blooms) and specific epigenetic marks triggering responses through modifications in gene expression patterns. Overall, a better understanding of the molecular strategies underlying the conspicuous stress tolerance observed in bivalve molluscs will provide a framework for developing a new generation of biomonitoring strategies. In addition, this strategy will represent a valuable contribution to our knowledge in acclimatization, adaptation and survival. With that goal in mind, the present work has generated transcriptomic data using RNA-Seq and microarray technologies, facilitating the characterization and investigation of the epigenetic mechanisms used by the Mediterranean mussel Mytilus galloprovincialis during responses to HAB exposure. That information was made publicly available through a specialized online resource (the Chromevaloa Database, chromevaloa.com) assessing the response of chromatin-associated transcripts to Okadaic Acid. Specific epigenetic marks have been assessed under lab-controlled exposure experiments simulating the natural development of the HAB Florida Red Tide (FRT). Results demonstrate a role for the phosphorylation of histone H2A.X and DNA methylation in the response to FRT in the Eastern oyster Crassostrea virginica. Lastly, the study of co-expression networks based on RNA-Seq data series from the Pacific oyster Crassostrea gigas reveals dynamic transcriptomic patterns that vary with time, stressor and tissue. However, consistent functional profiles support the existence of a core response to general conditions of environmental stress. Such response involves metabolic and transport processes, response to oxidative stress and protein repair or disposal, as well as the activation of immune mechanisms supporting a tightly intertwined neuroendocrine-immune regulatory system in bivalves.

Transcriptomics

Epigenetics

Environmental Stress

Harmful Algal Blooms

Marine Toxins

Histones

DNA Methylation

Gene Expression

Bivalves

Mussels

Oysters

Bioinformatics

Biology

Genetics and Genomics

Marine Biology

Molecular Biology

The effects of environmental stressors on coastal fish : in situ and experimental approach / Les effets des facteurs de stress environnementaux sur les poissons côtiers : approche expérimentale et in situ

Filipuci, Isil

29 September 2011

Les estuaires et les zones côtières constituent des territoires à fort enjeux stratégiques économiquement et pour l'environnement. Ils assurent de nombreuses fonctions biologiques et écologiques dont celle de nourricerie et de frayère pour les poissons. Ces écosystèmes sont pourtant soumis à de multiples facteurs de stress, à la fois naturels et anthropogéniques, qui peuvent représenter une menace potentielle envers les organismes aquatiques, en particulier pour les espèces commerciales de poissons. Dans ce contexte, les effets de facteurs de stress environnementaux tels que la contamination chimique et les efflorescences algales nuisibles (HABs) ont été étudiés par des approches in situ et expérimentale (microcosme et mésocosme) sur deux espèces de poissons : le flet (Platichthys flesus) et le bar (Dicentrarchus labrax). Durant cette thèse, nous avons utilisé différents indicateurs pour déterminer les réponses des poissons aux stress environnementaux. Parmi ces outils, nous avons utilisés des indices de croissance et condition, des biomarqueurs moléculaires et des paramètres immunologiques. / Estuaries and coastal areas are essential fish habitat as nursery and spawning but characterized by the presence of multiple interacting stressors, both natural and anthropogenic, which can represent potential threat toward aquatic organisms, especially for commercial fish species. In this context, the impacts of environmental stressors such as chemical contamination and Harmful algal blooms (HABs) have been studied by in situ and experimentally (microcosm and mesocosm) approaches on two fish species : European flounder (Platichthys flesus) and European sea bass (Dicentrarchus labrax). During this thesis, we used various indicators to determine fish responses to environmental stressors. Among these tools, we used the growth and conditions indices, molecular biomarkers and immunological parameters. In situ approach has been realized in two different systems anthropogenically influenced : one is heavily impacted system (Seine estuary) and the others are less impacted and/or considered as "clean" systems (Canche, Authie and Somme estuaries). As juvenile flounders concentrate in estuaries, we have chosen this species as a biological indicator to evaluate the quality of these estuarine habitats. This in situ study emphasized the negative impact of contaminants on the nursery function of estuaries. The Seine estuary exhibited the highest metals and PAHs contents in sediment compared to other estuaries and metal concentration in juvenile flounder of this estuary were also significantly higher than ones collected in the less polluted estuaries. In the same way, fish growth and condition indices were significantly lower in individuals from this estuary in spite of the sufficient food availability. To control environmental parameters such as hydrological parameters and food availability, a microcosm experiment was carried out on sea bass juveniles exposed to fresh sediment from five sites with different chemical concentrations using multi-biomarker approaches. After 21 days exposure, no metal accumulation in fish gills and any significant differences on the physiological performances and immune system responses of fish juveniles could be observed. On the other hand, responses of molecular biomarkers, particularly, EROD, GST and CAT activities increase with the chemical contamination gradient after 7days of exposure in sediment. This microcosm study confirmed the sensibility and relativity of short term molecular biomarkers responses to the chemical contamination. These two studies highlighted the complexity of the fish responses to environmental stressor due to the many variable environmental factors in situ and due to the selection of fish species (pelagic or benthic) and the exposure duration in controlled laboratory assays. Beside the impact of pollution on fish, Harmful algal blooms (HABs) are widespread along the eastern English Channel and may alter ecological functions of coastal zones and thus affecting nursery ground and fish populations. Nevertheless, the effects of two recurrent harmful algal blooms : a) Phaegocystis globosa and its degraded form transparent exopolymeric particles (TEP) with foam accumulation and b) Pseudo-nitzschia pseudodelicatissima (exponential versus senescent phase) was investigated on the growth and condition of sea bass juveniles. Both mesocosm experiments exhibited any negative impact on juvenile sea bass physiological performance, hence, survival and recruitment success. In conclusion, the results of this thesis contributed to improve the fish responses with multi-biomarker approaches to monitor and assess the health of fish communities and fish habitat quality, as well as the general ecological status of coastal zones and estuaries against the various environmental stressors.

Pollution

Efflorescences algales nuisibles

Poissons

Multi-biomarqueurs

Estuaires

Pollution

Harmful algal blooms

Fish

Multi-biomarkers

Fish growth

Condition

Estuaries

Water column oxygen respiration dynamics and quantification of nitrogen cycling genes insediment of Lake Erie

Niewinski, Desi

January 2018

No description available.

Biogeochemistry

Lake Erie sediment

harmful algal blooms

HAB

seasonal hypoxia

water column oxygen respiration

nitrogen cycling

water column nitrification

water column respiration

sediment oxygen demand

SOD

Treating Acid Mine Drainage with Pervious Concrete and Quantifying the Impacts of Urban Stormwater N:P Ratio on Harmful Algal Blooms

Riekert, Samuel M.

10 November 2022

No description available.

Civil Engineering

Environmental Education

Management

Water Resource Management

Acid Mine Drainage

Pervious Concrete

Permeable Reactive Barrier

Heavy Metals

Green Stormwater Infrastructure

Harmful Algal Blooms

N:P Ratio

Risk analysis of aerosolized algae atmospheric transport in Northwestern Ohio from the western basin of Lake Erie

Orrell, Jamison

10 November 2022

No description available.

Atmospheric Sciences

Lake Erie

HABs

Harmful algal blooms

aerosolized algae

atmospheric transport

HYSPLIT

risk calculation

respiratory issues

Northwest Ohio

risk index

Effects of phosphorus-binding agents on nutrient dynamics and a <i>Planktothrix</i> bloom in a shallow, semi-enclosed lake area

Davidson, Joseph Lee

31 May 2023

No description available.

Environmental Science

Environmental Studies

Environmental Health

Water Resource Management

Planktothrix

cyanobacteria

Grand Lake St. Marys

eutrophication

harmful algal blooms

alum application

Water Contaminants of the Lake Erie Watershed

Brooker, Michael R.

24 May 2018

No description available.

Environmental Science

molecular biology analysis

dissolved organic matter

dissolved organic phosphorus

ESI FT-ICR-MS

antibiotic resistance

agriculture

harmful algal blooms

Lake Erie

Water Quality Internship with the Ohio Environmental Protection Agency

Del Valle, Lemuel Alejandro

04 August 2016

No description available.

Environmental Science

Limnology

Water Resource Management

Ohio Environmental Protection Agency

Harmful Algal Blooms

Internship

Division of Surface Water

Water Quality

Lake Sampling