Environmental factors affecting the relative abundance of native and invasive freshwater amphipods in the St. Lawrence River

Palmer, Michelle Elaine

January 2004

Freshwater ecosystems worldwide are being altered by multiple stressors. One of the most important stressors is biological invasion---the introduction of exotic species, which can contribute to the loss of native species. The effects of an introduced species are correlated with its abundance and typically vary across ecosystems, suggesting that its impact on native species is mediated by its environment, i.e. the physical habitat and the recipient community. However, there are few studies that explore the effects of environment on the interactions between exotic and native species. My thesis examines the influence of physical habitat variables and community interactions on the relative abundance of exotic and native freshwater crustaceans in the St. Lawrence River. / The Eurasian amphipod Echinogammarus ischnus invaded the Great Lakes-St. Lawrence River system in the mid-1990s and has replaced the native North American Gammarus fasciatus as the dominant amphipod in littoral areas throughout Lake Erie and Lake Ontario.

Zebra mussel -- Saint Lawrence River.

Ecological modeling of the lower trophic levels of Lake Erie

Zhang, Hongyan,

January 2006

Thesis (Ph. D.)--Ohio State University, 2006. / Title from first page of PDF file. Includes bibliographical references (p. 211-226).

Caractérisations structurale et fonctionnelle des populations hémocytaires de la moule zébrée (Dreissena sp.) en vue de leur utilisation en évaluation du risque écotoxicologique. / Structural and functional characterization of hemocyte populations of zebra mussels (Dreissena sp.) for use in ecotoxicological risk assessment.

Evariste, Lauris

12 July 2016

L’extension des activités humaines est responsable du rejet de molécules et de perturbations climatiques pouvant affecter la physiologie des organismes aquatiques. La moule zébrée possède des caractéristiques biologiques faisant d’elle une espèce intéressante en surveillance environnementale. Chez cet organisme, les hémocytes constituent une cible privilégiée pour la mise en place d’une approche multi-biomarqueurs. En effet, ces cellules à fonctionnalités multiples sont impliquées dans les grandes fonctions physiologiques de l’espèce et la régulation de l’homéostasie des individus. L’objectif de ce travail est de développer les outils analytiques permettant d’étudier les réponses hémocytaires de la moule zébrée. Les expérimentations menées ont permis de caractériser la structure des populations hémocytaires ainsi que leurs fonctionnalités propres en lien avec le processus de phagocytose. L’utilisation de ces biomarqueurs dans divers contextes indique une forte adaptabilité de l’espèce aux conditions environnementales. Les résultats montrent l’intérêt d’analyser les activités hémocytaires à l’échelle des sous populations comparativement à l’approche globale ne tenant pas compte de la diversité cellulaire. Il a été observé que certains facteurs comme le statut reproducteur ou l’espèce échantillonnée (D. polymorpha vs D. bugensis) constituent des facteurs de confusion importants. Il ressort également un positionnement fort du test de phagocytose en tant que marqueur de sensibilité aux contaminants. Ce travail constitue un ensemble de données voué à être utilisé dans des contextes multiples aussi bien en écotoxicologie qu’en écophysiologie. / Extension of human activities is responsible of molecule releases and climate changes that may affect physiology of aquatic organisms. The zebra mussel has biological traits making it an interesting species for environmental monitoring. In this organism, hemocyte cells constitute an interesting target to develop a multi-biomarker approach. These cells possess multiple functionalities and are involved in all major physiological functions of the species and in homeostasis regulation. The objective of this work was to develop analytical tools to study hemocyte responses of zebra mussels. Experiments allowed characterizing structure of hemocyte populations and their functionalities linked with phagocytosis process. Use of these biomarkers in various contexts indicated an important adaptation capacity of the species to environmental conditions. Results highlighted interest to analyze hemocyte activities at sub-population scale comparatively to global approach that does not consider hemocyte diversity. It was demonstrated that factor such as reproductive status or sampled species (D. polymorpha vs D. bugensis) constitute important confounding factors. Studies also demonstrated a strong positioning of phagocytosis assay as a sensitive marker to contaminants. This work constitutes a data set destined to be used in multiple contexts such as ecotoxicology or ecophysiology.

Moule zébrée

Hémocytes

Phagocytose

Biomarqueurs

Écotoxicologie

Zebra mussel

Hemocytes

Phagocytosis

Biomarkers

Ecotoxicology

577

Ecotoxicological impacts of zebra mussels, Dreissena polymorpha, a new food source for lesser scaup, Aythia affinis

Tessier, Catherine.

January 1996

No description available.

Halocarbons -- Toxicology.

Aythya -- Effect of water pollution on.

Water -- Pollution -- Toxicology.

Environmental factors affecting the relative abundance of native and invasive freshwater amphipods in the St. Lawrence River

Palmer, Michelle Elaine

January 2004

No description available.

Zebra mussel -- Saint Lawrence River.

Organotins in zebra mussels (Dreissena polymorpha) and sediments from the Saint-Lawrence River

Regoli, Lidia.

January 1999

No description available.

Zebra mussel -- Saint Lawrence River.

Experimental investigation of a vacuum apparatus for zebra mussel control in closed conduits

Bartrand, Timothy A.

January 1997

No description available.

Engineering, Civil

Zebra Mussel Control

Two-Film Gas Transfer Model

Vacuum Chamber Schematic

The effects of wetland streams on the secondary dispersal of zebra mussels <i>(Dreissena polymorpha)</i> in connected lake-stream systems

Bodamer, Betsy L.

January 2007

No description available.

zebra mussel

Dreissena

wetlands

lake-stream systems

invasive species&160

&8211

dispersal

Genetic Portraits of Introduced Gobies and Mussels: Population Variation Delineates Invasion Pathways

Brown, Joshua Evan

January 2009

No description available.

Ecology

invasive species

round goby

zebra mussel

quagga mussel

population genetics

Control strategies for the zebra mussel, Dreissena polymorpha, and the Asian clam, Corbicula fluminea: comparative stress responses and nontarget impact

Bidwell, Joseph R.

21 October 2005

The studies described herein focused on the use of intermittent halogenation to control biofouling of water intake systems by the zebra mussel, Dreissena polymorpha, the comparative response of zebra mussels and the Asian clam, Corbicula fluminea, to a surfactant -based chemical control agent, the nontarget impact associated with the control agent, and the use of the Asian clam as a biomonitor of the control agent. Effects of intermittent (2-4 hr/day) treatments with chlorine or bromine at levels of 0.5 and 1.0 mg/L (total residual oxidant) upon settling of zebra mussel veligers were examined in studies conducted in a field laboratory on western Lake Erie. Veliger densities in the water column at the field site peaked at 530/L, while mussel densities on settling monitors reached 147,083/m² over the course of the study period. Zebra mussel settling in test systems treated with the halogens was reduced by as much as 91 % in comparison with controls, although mussel densities of up to 6,044/m² still occurred. Treated mussels which remained settled had growth rates similar to controls, and reached 2-4 mm length over 30 days. The intermittent halogen treatments had no significant impact on either adult zebra mussels or Asian clams. The studies indicate that while the treatment regimes may reduce zebra mussel densities within intake systems, the threat of eventual fouling due to cumulative settling remains. / Ph. D.

LD5655.V856 1993.B538

Corbicula fluminea -- Control

Invertebrate pests -- Control

Molluscicides

Zebra mussel -- Control