Community Composition of Crustaceans and Gastropods on Caulerpa prolifera, Halodule wrightii and Thalassia testudinum

Gibson, Jennifer A.

19 March 2007

No description available.

amphipod

Cymadusa compta

epiphytic algae

seagrass

epifauna

American Studies

Arts and Humanities

Biology

Chronic bioaccumulation and toxicity of cadmium from a periphyton diet to Hyalella azteca

Golding, Lisa Ann

January 2010

Dietary cadmium (Cd) can contribute significantly to chronic bioaccumulation and toxicity in aquatic organisms. This contribution needs to be quantified so that the relative importance of waterborne and dietary cadmium exposure pathways can be incorporated into protective water quality guidelines and ecological risk assessments. In this research, the contribution of dietary Cd from a natural periphyton diet to chronic (28 d) bioaccumulation and toxicity in the freshwater amphipod Hyalella azteca was quantified using a mechanistically-based saturation bioaccumulation model. Factors that influence dietary Cd bioavailability such as food type, food form, dietary Cd speciation and concentration were investigated. Assimilation efficiency, ingestion rate and the excretion rate constant of dietary Cd were determined for each of these factors. Food nutrition was also considered. Lastly, model predictions of Cd bioaccumulation and toxicity were compared to measurements of tissue concentration and survival when H. azteca were exposed to metal contaminated water and periphyton collected from lakes in the metal mining region of Rouyn-Noranda, Quebec, Canada. In 28 d laboratory experiments where H. azteca bioaccumulated Cd from water and food, dietary Cd was estimated to contribute markedly (21 – 94 %) to bioaccumulated Cd in H. azteca. Effects on chronic survival were best predicted from body concentration rather than water or food exposure concentration. Assimilation efficiency of dietary Cd differed with food type likely as a result of Cd speciation, but did not differ with Cd concentration or food form. Ingestion rate differed with food form while excretion rate constants were unaffected by dietary Cd bioavailability. Predictions of chronic Cd bioaccumulation in H. azteca exposed to field contaminated samples were robust, however the model did not account for effects of water chemistry on Cd bioaccumulation and is thus constrained in its application. Predictions of chronic survival were over-estimated likely due to the additional toxicity caused by the low nutritional quality of the field contaminated periphyton. This research demonstrated that both waterborne and dietary Cd need to be considered in models that assess chronic risk of exposure and effects to H. azteca.

metal

cadmium

diet

bioaccumulation

toxicity

amphipod

Hyalella

model

periphyton

nutrition

Biology

An Endemic Commensal Leucothoid Discovered in the Tunicate Cnemidocarpa bicornuta, from New Zealand (Crustacea, Amphipoda)

Brucker, Kaitlyn M

25 March 2016

Precise descriptions and comprehensive taxonomies of species and their ecology are essential in monitoring changes in marine biodiversity at multiple spatial scales. A currently undescribed species of commensal amphipod in the genus Leucothoe is reported from New Zealand, collected from the endemic tunicate Cnemidocarpa bicornuta. This species differs from others in the genus in having a one-articulate first maxilla palp and an apically produced tuberculate lobe on the inner margin of the outer plate of the maxilliped. Previous taxonomic surveys in New Zealand waters did not document this species, indicating that it may be a recent arrival. This research highlights the importance of biodiversity monitoring and taxonomic surveys to record occurrences of undescribed or recently-arrived taxa.

new species

amphipod

ascidian

commensalism

invasive species

Leucothoe

Biodiversity

Marine Biology

Gammaridean Amphipods as Bioindicators in Subtropical Seagrass Ecosystems

Sweatman, Jennifer L

28 June 2016

Anthropogenic disturbances are ubiquitous in coastal marine ecosystems. As such, more intensive monitoring efforts are necessary to conserve these valuable habitats. Bioindicators, organisms that predictably respond to changes in environmental variables, may be utilized in monitoring efforts to assess ecosystem functioning. To incorporate organisms into monitoring programs as bioindicators managers need to first understand the difference between the natural phenology of the focal organisms and their responses to different forms of anthropogenic disturbance. To determine if gammaridean amphipods could be used as indicators of changes in environmental quality in sub-tropical seagrass ecosystems, I conducted spatial and temporal surveys of amphipod communities in south Florida. Amphipod community structure varied significantly across sites and seasons. Variation in community structure was largely driven by macrophyte biomass, food availability, seasonally variable factors (epiphyte abundance, dissolved oxygen, salinity, and temperature), water-column nitrogen concentration, and factors related to freshwater input, including low Thalassia testudinum and high Halodule wrightii densities, and salinity. Amphipods are also susceptible to mechanical damage in seagrass habitats and could be used as indicators of ecological functioning of a region. A major source of mechanical damage in seagrass ecosystems is caused by boat propellers. I simulated propeller scars in continuous seagrass beds to investigate the effects of scarring on seagrass ecosystem functioning. Seagrasses located adjacent to propeller scars experienced a shift in the limiting resource from light to phosphorus. Amphipod community structure, however, was not impacted by scarring, but amphipod density was reduced in fragmented patches. To determine if plant-herbivore interactions were impacted by propeller scarring, we removed amphipods from half of the experimental plots and measured epiphyte biomass and community composition. Top-down control on epiphyte biomass or community composition by amphipods was not affected by fragmentation, despite reduced amphipod densities. My dissertation research demonstrates that amphipods could be incorporated into existing management programs in sub-tropical seagrass ecosystems as environmental indicators. Reduced amphipod densities in fragmented seagrass beds suggests that amphipods could also be used as ecological indicators, but more research is needed to determine the extent of the impacts of fragmentation on higher trophic levels.

species distribution

bioindicator

amphipod

epiphytes

seagrass

Florida Bay

habitat fragmentation

disturbance

plant-herbivore interactions

stoichiometry

Biology

Life Sciences

Diversity and ecology of ectosymbioses between sulfur-oxidizing Thiothrix bacteria and groundwater niphargid amphipods

Bauermeister, Jan

22 January 2013

No description available.

910

550

Evaluation of Silver Nanoparticle Acute and Chronic Effects on Freshwater Amphipod (Hyalella Azteca)

Kusi, Joseph, Maier, Kurt J.

01 January 2022

Silver nanoparticles (AgNPs) are known to cause ecotoxic effects, but there are no existing derived ambient water quality criteria (AWQC) for these nanomaterials to protect freshwater aquatic life due to insufficient toxicological data. We exposed Hyalella azteca to silver nitrate, citrate-coated AgNPs (citrate-AgNPs), and polyvinylpyrrolidone-coated AgNPs (PVP-AgNPs) in a 10-day and 28-day water-only static renewal system with clean sand as a substrate for the amphipods and compared their point estimates with the United States Environmental Protection Agency (USEPA) AWQC for silver. We observed that all treatments decreased the survival, growth, and biomass of H. azteca, and the order of toxicity was AgNO > citrate-AgNPs > PVP-AgNPs. The LC50s of AgNO, citrate-AgNPs, and PVP-AgNPs were 3.0, 9.6, and 296.0 µg total Ag L, respectively, for the acute exposure and 2.4, 3.2, and 61.4 µg total Ag L, respectively, for the chronic exposure. Acute and chronic EC20s of citrate-AgNPs ranged from 0.5 to 3.5 µg total Ag L while that of PVP-AgNPs ranged from 31.2 to 175 µg total Ag L for growth and biomass. Both Ag released from AgNPs and the nanoparticles contributed to the observed toxicity. The dissolution and toxicity of AgNPs were influenced by surface coating agents, particle size, and surface charge. Most point estimates for AgNPs were above AWQC for silver (4.1 µg L) and the lowest concentration (0.12 µg/L) at which Ag is expected to cause chronic adverse effects to freshwater aquatic life. Our study demonstrates that the current AWQC for silver, in general, is protective of freshwater aquatic life against AgNPs tested in the present study.

amphipod

hyalella azteca

point estimates

silver nanoparticles

toxicity

water quality criteria

fresh water

amphipoda

animals

fresh water

metal nanoparticles (toxicity)

silver (toxicity)

water pollutants

chemical (toxicity)

Environmental Health

New Approaches in Measuring Sediment-Water-Macrobenthos Interactions

Kaltenberg, Eliza Maria

01 June 2016

No description available.

Geochemistry

Environmental Science

Toxicology

bioturbation

sediment

biodiffusion coefficient

burial velocity

sublethal toxicity

behavioral response

macrobenthos

amphipod

bivalve

polychaete

DET

phosphorus flux

Leptocheirus plumulosus

Étude des systèmes de défenses antitoxiques chez l'amphipode Gammarus roeseli : effets du parasitisme et d'une exposition au cadmium / Study of the antitoxic defence systems in the amphipod Gammarus roeseli : effects of parasitism and cadmium exposure

Gismondi, Éric

17 April 2012

Pour faire face à des perturbations environnementales, les organismes ont développé des défenses antitoxiques couramment utilisés comme biomarqueurs dans l'évaluation de la qualité des milieux. Cependant, de nombreux facteurs confondants comme la température ou le genre, influencent la réponse de ces biomarqueurs. Il est ainsi nécessaire de connaitre les effets de ces facteurs afin d'imputer correctement la réponse biologique mesurée à la présence de polluants. Dans ce contexte, nous avons choisi d'étudier l'influence d'un parasite acanthocéphale, Polymorphus minutus, transmis horizontalement et de microsporidies à transmission verticale, sur les réponses physiologiques de leur hôte, Gammarus roeseli, un crustacé amphipode d'eau douce d'intérêt écotoxicologique. Pour cela, nous avons choisi d'étudier le glutathion, tripeptide jouant un rôle central dans les systèmes antitoxiques, sa synthèse (i.e. activité gamma-glutamylcystéine ligase), les réserves énergétiques (i.e. lipides, glycogène, protéines) et un biomarqueur d'effets toxiques, le malondialdéhyde. L'influence du parasitisme a été appréhendé dans différents cas d'études: (i) chez G. roeseli infecté par P. minutus, (ii) chez G. roeseli infecté par des microsporidies (Dictyocoela roeselum essentiellement) et (iii) chez G. roeseli co-infecté par ces deux types de parasite. Chaque cas d'étude a été réalisé en absence de stress et lors d'une exposition au cadmium. Nous avons mis en évidence qu'en absence de contamination, la présence de P. minutus et une co-infection par P. minutus et D. roeselum affectent les biomarqueurs de G. roeseli. Après exposition au cadmium, la présence de parasites (i.e. infection simple ou co-infection) modifie la mobilisation des défenses antitoxiques et accentue les effets toxiques subits par l'hôte. Les résultats obtenus au cours de ce travail mettent en avant le caractère confondant du parasitisme en écotoxicologie et souligne l'importance de prendre en compte ce paramètre lors de l'évaluation de la qualité des milieux / To cope with environmental disturbances, organisms have developed antitoxic defenses commonly used as biomarkers in environmental risk assessment. However, many confounding factors such as temperature and gender could influence biomarker responses. It seems hence necessary to investigate their effects, in order to attribute biological responses only to pollutants. In this context, we investigated the influence of parasitism by studying the acanthocephalan parasite Polymorphus minutus, horizontally transmitted, and microsporidia parasites, vertically transmitted, on the physiological responses of their common host, the freshwater amphipod Gammarus roeseli, a classical model used in ecotoxicology. We investigated the glutathione, a tripeptide having a key role in antitoxic systems, its synthesis (i.e. gamma-glutamylcysteine ligase activity), energy reserves (i.e. lipids, glycogen, proteins) and a toxicity biomarker, the malondialdehyde. The influence of parasitism was considered in different studies: (i) in G. roeseli infected by P. minutus only, (ii) in G. roeseli infected by microsporidia (mainly Dictyocoela roeselum) and (iii) in G. roeseli coinfected by both parasites. Each study was carried out in absence of pollutants and under cadmium stress. We highlighted that, in the absence of contamination, only P. minutus and the co-infection affect the G. roeseli biomarker assessments. After cadmium exposure, the presence of parasites (i.e. single infection or co-infection) influences the mobilization of antitoxic defences, and accentuates toxic effects in their hosts. Our results underline the confounding nature of parasitism in ecotoxicology and thus, highlight the importance to take into account this parameter in the environmental risk assessment

Amphipode

Gammarus roeseli

Parasites

Polymorphus minutus

Microsporidies

Coinfection

Biomarqueurs

Facteur confondant

Défenses antitoxiques

Réserves énergétiques

Amphipod

Gammarus roeseli

Parasites

Polymorphus minutus

Microsporidia

Coinfection

Biomarkers

Confounding factors

Antitoxic defence

Energy reserves

628.5

Mating strategies and resulting patterns in mate guarding crustaceans : an empirical and theoretical approach / Stratégies de reproductions et patrons qui en résultent chez les crustacés à gardiennage précopulatoire : une approche empirique et théorique

Galipaud, Matthias

13 December 2012

En raison des forts coûts en temps et en énergie associés à chaque reproduction, les femelles ne sont généralement pas aussi disponibles que les mâles pour se reproduire. Les mâles entrent donc souvent en compétition pour accéder aux femelles disponibles. Ceci conduit à une forte sélection sexuelle chez les mâles. Un des exemples les plus frappants de compétition entre mâles peut être observé chez certaines espèces de crustacés chez qui les femelles ne sont sexuellement réceptives que pour un temps très limité. Les mâles ont donc évolué une stratégie de gardiennage précopulatoire grâce à laquelle ils monopolisent une femelle plusieurs jours avant qu’elle ne devienne réceptive. Ce comportement mâle est lui-même coûteux en temps et en énergie. En conséquence, il a été suggéré que les mâles devraient devenir sélectifs envers les femelles du fait du fort investissement que chaque reproduction représente pour eux. A l’aide d’un modèle mathématique, nous prédisons que les mâles effectuant de longs gardiennages précopulatoires devraient préférer s’apparier avec les grandes femelles plus fécondes. Toutefois, cette sélectivité devrait rester faible du fait de la forte compétition pour accéder aux femelles libres. Nous suggérons plutôt que les mâles devraient chercher à s’apparier avec des femelles de bonne qualité après s’être initialement apparié avec une femelle. Quand les mâles en couple rencontrent une femelle libre de meilleure qualité que leur propre femelle, ils devraient quitter leur femelle pour s’accoupler avec la nouvelle femelle. Contrairement à cette prédiction, nos expériences ont montré que les mâles en couple d’un crustacé amphipode Gammarus pulex ne changeaient pas systématiquement de femelle quand nous leurs proposions une femelle de meilleure qualité que leur propre femelle. Ils décidaient de changer de partenaire uniquement quand leur femelle était de mauvaise qualité, indépendamment de la qualité de la nouvelle femelle libre. D’autres expériences sont nécessaires pour comprendre le caractère adaptatif de ce comportement de changement de partenaire, seulement basé sur une partie de l’information disponible. Ces deux études soulignent la difficulté d’inférer des patrons de reproduction uniquement à partir des préférences individuelles. Dans la première étude, les mâles étaient contraints par la compétition pour accéder aux femelles libres. Dans la seconde, le processus de prise de décision des mâles conduisait à un comportement de choix apparemment sous-optimal. Ces contraintes n’ont que rarement été prises en compte malgré leur grande importance lorsqu’il s’agit de comprendre les causes comportementales d’un patron de reproduction très répandus chez les crustacés à gardiennage précopulatoire : l’homogamie pour la taille. Il a principalement été suggéré que ce patron de reproduction était issu d’une préférence mâle pour les grandes femelles associée à un avantage des grands mâles pour accéder aux femelles. Cette hypothèse n’a malgré tout reçu que peu de support empirique. A l’aide d’un modèle par simulation individu centrée, nous avons donc testé l’hypothèse selon laquelle une préférence mâle pour la distance à la mue des femelles serait à l’origine de l’homogamie pour la taille chez les crustacés à gardiennage précopulatoire. Quand les mâles préfèrent s’apparier avec des femelles qui sont strictement plus proches de la mue qu’eux, les couples formaient un patron d’homogamie pour la taille. Puisque plusieurs préférences différentes peuvent conduire à un même patron de reproduction, ce résultat souligne l’importance de considérer le processus complet de mise en couple pour étudier le lien entre les préférences individuelles et les patrons de reproduction. Les stratégies de femelles peuvent aussi jouer un rôle important dans les processus de mise en couple. Contrairement aux mâles, les femelles ont été décrites comme préférant les gardiennages courts du fait des coûts associés à la mise en couple. / Because of strong costs associated with each mating event, females are usually not as available for reproduction as males at any given time. Males are therefore in competition with each other for access to receptive females, hence leading to strong sexual selection. One textbook case of such a mating system occurs in moulting crustaceans where females can only be fertilized during a short period following their moult. This has favoured the evolution male strategies to monopolize females before their period of receptivity. Such a precopulatory mate guarding is widespread among many taxa and represents one of the most striking example of males’ competitive traits favoured by sexual selection. However, recent investigations have suggested that because males’ sexually selected traits often involve opportunity or mortality costs, males should become choosy towards females. Using a theoretical approach, we showed that males performing long lasting mate guarding should choose larger, more fecund females. However, under sequential encounter of potential mates, competition for female access decreases male choosiness before entering in precopula. We rather suggest that males should become choosy after initial pairing with a female. When encountering an unpaired female of better quality than their current female, paired males should switch partners. Contrary to our expectations, even under simultaneous encounters of two females, males did not seem to assess their relative quality. Instead they decided to change partner when their own female was of low absolute quality. This led to several cases where males forewent the possibility of increasing their fitness. Further investigations are needed to understand the adaptive significance of using only a subset of information in decision making. These two cases highlight the difficulty of inferring mating patterns from mating preferences only. In the first case, male preference was constrained by competition for access to females while in the second one, sampling processes led to apparent suboptimal mate choices. These potential constraints on decision making have rarely been acknowledge in precopulatory mate guarding crustaceans in spite of their major importance when inferring the causes of a well-known pairing pattern occurring in these species: size-assortative pairing. Size assortment among pairs has mainly been considered to come from a male directional preference for larger females associated with a large male advantage in getting access to preferred females. However, this hypothesis has received contrasted empirical support and little is known about the underlying pairing process causing size-assortative pairing. We investigated theoretically the possibility that a state-dependent male mating preference could account for size-assortative pairing. When males chose females which were exclusively closer to moult than them, assortative pairing by size arose under strong male-male competition. Because several preferences can account for a given pattern, this result emphasises the importance of considering the whole pairing process when studying the link between preferences and mate choice. Female strategies may also be of great importance during the pairing process. Contrary to males, females have been suggested to prefer short precopulatory mate guarding due to costs associated with pairing. Such a sexual conflict over guarding duration may have major effects on co-evolutionary dynamics between males and females traits. Proving its occurrence is yet challenging because empirical studies often lack a full economical survey of costs and benefits for females associated with male traits. Females benefits associated with long lasting precopulatory mate guarding have particularly been overlooked in previous studies. Here, we proposed several potential benefits for females and discuss their influence on sexual conflict over guarding duration.

Amphipodes

Choix de partenaire

Conflit sexuel

Gardiennage précopulatoire

Homogamie pour la taille

Patron de reproduction

Sélection sexuelle

Amphipod

Assortative mating

Mate choice

Mating pattern

Precopulatory mate guarding

Sexual conflict

Sexual selection

571.8

590