Ecosystem-Based Management of the Lake Erie Ecosystem: A Survey-Based Approach to Assessment of Management Needs

Wilson, Gregory B.

08 April 2011

No description available.

Biology

Conservation

Ecology

Environmental Management

Environmental Science

Freshwater Ecology

Water Resource Management

ecosystem-based management

EBM

ecosystem management

ecosystem approach

management of aquatic ecosystems

integrated management

large aquatic ecosystems

Lake Erie

Chesapeake Bay

Tampa Bay

Baltic Sea

Puget Sound

wind power in Great Lakes

Factors Affecting Invertebrate and Fish Communities in Coastal Wetlands of the Great Lakes

Kapusinski, Douglas John

19 November 2012

No description available.

Animal Sciences

Aquatic Sciences

Biology

Ecology

Entomology

Environmental Science

Environmental Studies

Freshwater Ecology

Organismal Biology

Zoology

benthic invertebrates

Lake Erie

marsh

Great Lakes Coastal Wetland

shorebirds

common carp

Cyprinus carpio

Dreissenidae

Driessena polymorpha

Unionidae

Quadrula quadrula

Chironomidae

Oligochaeta

Sphaeriidae

Non-metric Multidimensional Scaling

A History of Place: Using Phytolith Analysis to Discern Holocene Vegetation Change on Sanak Island, Western Gulf of Alaska

Wilbur, Cricket C.

January 2013

No description available.

Archaeology

Botany

Climate Change

Conservation

Earth

Ecology

Environmental Science

Freshwater Ecology

Geology

Limnology

Native Americans

Natural Resource Management

Paleobotany

Paleoclimate Science

Paleoecology

Plant Biology

Pollen

Paleolimnology

Phytoliths

Phytolith Analysis

Aleutian Islands

Sanak Island

Western Gulf of Alaska

Stomata

Maritime tundra

Grasses

Dicotyldons

Arctic ecosystems

Climate change

Paleoenvironmental reconstruction

Holocene

Lake sediment

ENVIRONMENTAL, SPATIAL AND TEMPORAL EFFECTS ON MICROBIAL COMPOSITION IN LAKE ERIE

Ormiston, Anna Kathleen

04 May 2016

No description available.

Aquatic Sciences

Biogeochemistry

Biology

Conservation

Ecology

Environmental Science

Experiments

Freshwater Ecology

Limnology

Microbiology

Molecular Biology

Toxicology

Great Lakes

Lake Erie

CyanoHABs, microcystin-LR

harmful algal blooms

Grand Lake St Marys

T-RFLP

limnology

microbial ecology

INTERACTIVE AND INDIVIDUAL EFFECTS OF ANTHROPOGENIC ENVIRONMENTAL STRESS ON FRESHWATER ORGANISMS

Paradyse Blackwood (18953554)

02 July 2024

<p dir="ltr">In this dissertation, I explore how human actions (climate change, road salt, land use change, species invasions) interact with and influence morphology, disease, and population dynamics in freshwater organisms (amphibians and aquatic crustaceans). First, I examined how the incidence and timing of disease epidemics in native species (<i>Daphnia dentifera</i>) caused by a generalist parasite (<i>Metschnikowia bicuspidata</i>) influenced the success and impact of an invasive species (<i>Daphnia lumholtzi</i>) in freshwater zooplankton (Chapter 1). In the following chapter, I explored how host-parasite interactions are affected by the interactive effects of multiple environmental stressors, focusing on American bullfrog tadpoles (<i>Lithobates catesbeianus</i>), two of their common parasites (<i>Batrachochytrium dendrobatidis</i> (<i>Bd</i>) and trematode parasites in the family Echinostomatidae), and two common stressors (fluctuating temperatures and sublethal road salt pollution; Chapter 2). Finally, I investigated how the combination of climate (temperature and precipitation) and land use (developed and/or forested area) change have influenced the body size of a common toad (Fowler’s toad, <i>Anaxyrus fowleri</i>) from 1930 – 2020 utilizing museum specimens (Chapter 3). Together, this research establishes how emerging and persistent anthropogenic environmental stressors will interact to affect morphology, disease, and population dynamics in vulnerable freshwater organisms.</p>

Freshwater ecology

Ecology not elsewhere classified

Host-parasite interactions

Global change biology

freshwater system

road salt pollution

Multiple Stressors

Daphnia genus

Amphibians

Invasive species

Disease outbreak

Climate change

Human induced stressors

Land use change

Body size

Host-parasite interactions

Batrachochytrium dendrobatidis infe...

Metschnikowia bicuspidata

Museum specimen data

Behavioral Activity and Hypoxia Tolerance of African Weakly Electric Fish

Mucha, Stefan

16 February 2023

In dieser Arbeit wurden die Morpho-Physiologie und das Verhalten zweier Arten Afrikanischer schwach elektrischer Fische, Marcusenius victoriae und Petrocephalus degeni, im Labor und in einem ihrer natürlichen Habitate im Lwamunda Sumpf in Uganda untersucht. Die zwei Hauptziele dieser Arbeit waren (i) tageszeitabhängige Verhaltensrhythmen (Aktivität, Habitatnutzung) im Labor und im Freiland zu untersuchen und (ii) die Ausprägung und Plastizität der morpho-physiologischen Merkmale von P. degeni zu untersuchen, die ihnen erlauben bei natürlich vorkommender, geringer Sauerstoffverfügbarkeit (Hypoxie) zu überleben. Tageszeitabhängige Verhaltensrhythmen beider Arten wurden im Labor über 42 Stunden und im natürlichen Habitat dieser Fische für sechs Tage erfasst. In den Laborversuchen verbrachten beide Arten tagsüber annähernd 100% der Zeit in einem bereitgestellten Versteck und schwammen nachts heraus um aktiv ihre Umwelt zu erkunden. Im Habitat wurden die meisten Fische in strukturell komplexen Habitaten unter schwimmenden Pflanzen detektiert. Nachts schwammen die Fische aktiv in die offenen und ungeschützten Bereiche der Lagune, vermutlich um nach Futter zu suchen und zu interagieren. Die Begleitende in-situ Messung der Sauerstoffverfügbarkeit zeigte, dass beide Arten präsent und vermutlich sogar am aktivsten waren während Phasen extremer nächtlicher Hypoxie. Zur Untersuchung der respiratorischen Merkmale von P. degeni wurden Respirometrieversuche mit hypoxie-akklimatisierten Tieren durchgeführt, Hämoglobin- und Laktatkonzentration im Blut gemessen, und morphologische Parameter an den ersten beiden Kiemenbögen erfasst. Die Fische zeigten niedrige Sauerstoffverbrauchsraten, welche sie bis zu einem sehr niedrigem äußeren Sauerstoffpartialdruck aufrechterhielten. Zusätzlich zeigten sie hohe Hämoglobin- und Laktatkonzentrationen im Blut. Bis zu 75 Tage Normoxie-Akklimatisierung führte zu reduzierter Hämoglobinkonzentration und kürzeren Kiemenfilamenten. / In this thesis, I investigated the morpho-physiology and behavior of two species of African mormyrid weakly electric fish, Marcusenius victoriae and Petrocephalus degeni, in the laboratory and in one of their natural habitats, the Lwamunda Swamp in Uganda. The two main objectives of this work were to (i) observe behavioral rhythms and habitat use patterns of both species under natural and laboratory conditions, and (ii) assess expression and plasticity of morpho-physiological traits that might enable P. degeni to survive naturally occurring low oxygen conditions (hypoxia). Behavioral rhythms were recorded in the laboratory over 42 hours and in the habitat on six sampling days. In the laboratory, both species spent close to 100% of the time in their shelter during the day and actively explore their environment at night. In the swamp lagoon, fish were most often encountered in structurally complex habitats under floating vegetation and ventured into open and unsheltered areas of the lagoon at night, presumably to forage and interact. Concomitant in-situ oxygen measurements revealed that these fish were present, and presumably most active during periods of extreme nocturnal hypoxia in their swamp habitat. To investigate respiratory traits of swamp-dwelling P. degeni, I conducted respirometry experiments and measured blood lactate and hemoglobin and gill morphometrics on the first two gill arches. Fish showed low routine oxygen consumption rates, which they maintained until a very low ambient oxygen partial pressure was reached. Additionally, they had high concentrations of hemoglobin and lactate in their blood. Up to 75 days of normoxia exposure reduced blood hemoglobin and gill filament length.

Schwach elektrische Fische

Ökophysiologie

Elektrische Organentladungen

Hämoglobin

Kiemenmorphologie

Hypoxie

Verhaltensphysiologie

Laktat

Mormyriden

Süßwasserökologie

Respirometrie

Viktoriasee

Nabugabosee

Behavioral physiology

Ecophysiology

Electric organ discharges (EODs)

Freshwater ecology

Gill morphology

Hemoglobin

Lactate

Hypoxia

Mormyrids

Respirometry

Weakly electric fish

Lake Victoria

Lake Nabugabo

570 Biologie

571 Physiologie und verwandte Themen

597 Wechselwarme Wirbeltiere

WX 8277

WT 2027

WT 7027

WD 8050

ddc:570

ddc:571

ddc:597