Interactions between Chaoborus spp. and Mysis relicta and their impact on pelagic crustacean zooplankton in mesocosms at the Experimental Lakes Area

Seckar, Dalila

13 April 2009

The objectives of this study were: 1) to compare and contrast the effects of variations in natural densities of two common freshwater predators of crustacean zooplankton, Chaoborus spp. and Mysis relicta; and 2) to determine whether the combined impacts of these predators together differed from their effects when alone. In deep (>10m) mesocosms, additions of Chaoborus and Mysis at natural densities did not result in large changes in zooplankton abundances, lengths, or biomass. Significant decreases in abundance were observed only for Bosmina longirostris and Daphnia spp. In small (~20L) enclosures, higher predator densities caused zooplankton declines over three days. Strong interactive effects between Chaoborus and Mysis were not detected in either the large or small enclosures. This suggests that the combined effects of these two predators can be predicted from their effects determined in isolation.

zooplankton

Canadian Shield

phantom midge

opposum shrimp

predation

species abundance

biomass

vertical migration

multiple predators

oligotrophic

Bosmina

Response of Zooplankton Community of Lake Winnipeg to Environmental Changes

Kamada, Daigo

18 December 2012

Lake Winnipeg has been subject to intense eutrophication and invasive species such as Rainbow Smelt and Eubosmina coregoni for the last 40 years. This study demonstrated significant increases in total phosphorus, total nitrogen, chlorophyll-a, overall zooplankton abundance, and specifically Cladocera, between 1969 and the first decade of the 21st century. There were specific basin differences in the long-term changes of the Cladocera community, with the species Chydorus sphaericus and Ceriodaphnia quadrangula negatively affected by high levels of phosphorus, nitrogen and chlorophyll-a. Moreover, long-term change in the Cladocera community composition and abundance throughout the years (1969-2011) during summer was correlated with intensifying eutrophication. Additionally, weak diel vertical migration in the zooplankton community was observed for the first time in Lake Winnipeg.

Zooplankton

Lake Winnipeg

Eutrophication

Diel Vertical Migration

Environmental stressors

Cladocera

Copepod

Predation Pressure

Nitrogen

Phosphorus

Invasive Species

Algal Blooms

Cyanobacteria

Variability in Diel Vertical Migration of Zooplankton and Physical Properties in Saanich Inlet, British Columbia

Sato, Mei

23 May 2013

In Saanich Inlet, a fjord located in southern Vancouver Island, British Columbia, dense aggregations of euphausiids exhibit diel vertical migration behavior and their capability of generating turbulence has been suggested. Despite decades of research on diel vertical migration of zooplankton, its variability has not been well studied. In addition, the physical oceanographic environment in Saanich Inlet has not been thoroughly quantified, which raises the possibility of previously observed turbulent bursts of O(10^-5 – 10^-4 W kg^-1) having physical (rather than biological) origin. This work characterizes variability of diel vertical migration behavior using a moored 200-kHz echosounder, complemented by plankton sampling. Physical properties such as barotropic, baroclinic and turbulent signals are described, and the relationship between turbulence and internal waves/scattering layer examined. A two-year high-resolution biacoustic time-series provided by the Victoria Experimental Network Under the Sea (VENUS) cabled observatory allowed quantification of the seasonal variability in migration timing of euphausiids. During spring – fall, early dusk ascent and late dawn descent relative to civil twilight occur. During winter, late dusk ascent and early dawn descent occur. Factors regulating the seasonal changes in migration timing are light availability at the daytime depth of the scattering layers, and size-dependent visual predation risk of euphausiids. Instead of the traditional view of diel vertical migration timing correlated solely with civil twilight, euphausiids also adapt their migration timing to accommodate changes in environmental cues as well as their growth. The pre-spawning period (February – April) is an exception to this seasonal pattern, likely due to the higher energy demands for reproduction. Turbulence and internal waves in Saanich Inlet are characterized based on a one-month mooring deployment. Average dissipation rates are nearly an order of magnitude larger than previously reported values and higher dissipation rates of O(10^-7 – 10^-6 W kg^-1) are occasionally observed. A weak correlation is observed between turbulent dissipation rates and baroclinic velocity/shear. To examine the possibility of biological generation of turbulence, an echosounder at the VENUS cabled observatory is used to simultaneously measure the intensity of the euphausiid scattering layer and its vertical position. Turbulent bursts of the sort previously reported are not observed, and no relation between diel vertical migration and turbulent dissipation rates is found. Physical forcing at the main channel remains as a possible cause of the turbulent bursts. / Graduate / 0416 / 0415

euphausiids

time-series

diel vertical migration

turbulence

variability

VENUS cabled observatory

internal waves

currents

Saanich Inlet

echosounder

zooplankton

Turbulent and Electromagnetic Signature of Small- and Fine-scale Biological and Oceanographic Processes

Dean, Cayla Whitney

05 December 2018

Small- and fine-scale biological and oceanographic processes may have a measurable electromagnetic signature. These types of processes inherently involve turbulence and three-dimensional dynamics. Traditional models of the electromagnetic signature of oceanographic processes are of an analytical nature, do not account for three-dimensional boundary layer dynamics or turbulence, self-inductance, and may not describe the variety of the environmental conditions occurring in the ocean. In order to address this problem, I have implemented magnetohydrodynamic (MHD) computational fluid dynamics (CFD) tools, which has allowed for the evaluation of the electromagnetic signature of a number of small- and fine-scale biological and oceanographic processes in the ocean. The suite of computational tools has included the commercial models ANSYS Fluent, coupled with the MHD module, and ANSYS Maxwell. These computational tools have been well-established in fluid and electromagnetic engineering. The application of CFD and MHD tools in oceanography is new but is undergoing rapid development. In this work, substantial effort was made toward the CFD, MHD, and magnetostatic model verification and identification of model limitations. Verifications of the CFD, MHD, and magnetostatic models were conducted by successfully comparing their results with the field measurements and laboratory experiments. Comparison with the traditional (analytical) models for surface and internal waves, has revealed their limitations related to bottom boundary layer physics, effect of self-inductance, and, to a lesser extent, the magnetic permeability difference at the air-sea interface. These limitations become important for shallow water internal waves. As a result, the traditional models significantly overestimate the magnetic signature of internal waves observed at the Electromagnetic Observatory. After model verification with the field and laboratory data, the computational models were then applied to evaluate the magnetic signature of diel vertical migration (DVM) of zooplankton, surface waves, internal wave solitons, freshwater lens spreading, and Langmuir circulation. The quantitative estimates have been made for typical environmental conditions. In other environmental conditions, their magnetic signature may be somewhat different. The suite of computational models developed in this dissertation work allows for the estimation of the magnetic signature of fine- and small-scale oceanographic processes in virtually any environmental conditions (e.g., in oil emulsions). I anticipate the result of this study will have Naval, environmental, and oil exploration applications.

computational fluid dynamics

magnetohydrodynamics

turbulence

electromagnetics

diel vertical migration

internal wave

surface wave

Marine Biology

The Vertical and Horizontal Distribution of Deep-Sea Crustaceans of the Order Euphausiacea (Malacostraca: Eucarida) from the northern Gulf of Mexico with notes on reproductive seasonality.

Fine, Charles Douglas

05 December 2016

The vertical and horizontal distributions of Euphausiacea in the northern Gulf of Mexico, including the location of the Deepwater Horizon oil spill, were analyzed from 340 trawl samples collected between April-June, 2011. This study is the first comprehensive survey of euphausiid distributions from depths deeper than 1000 m in the Gulf of Mexico and included stratified sampling from five discrete depth ranges (0-200 m, 200-600 m, 600-1000 m, 1000-1200 m, and 1200-1500 m). In addition, this study encompasses the region heavily impacted by the Deepwater Horizon oil spill. Data presented here could potentially be used in ecosystem models investigating trophic effects of the spill because euphausiids are the preferred prey of a variety of higher trophic organisms. Lastly, these data represent the first quantification of euphausiid assemblages in this location after the Deepwater Horizon event and can serve as a basis of comparison against which to monitor recovery of the euphausiid assemblage after exposure to Deepwater Horizon hydrocarbons and dispersant in the water column.

Euphausiacea

Deep Sea

Gulf of Mexico

Deepwater Horizon Oil Spill

Vertical Migration

Micronekton

Reproductive Seasonality

Ecology and Evolutionary Biology

Marine Biology

Subsídios para o zoneamento marinho do litoral norte do Estado de São Paulo: um estudo do sucesso do assentamento lerval de decápodos costeiros / Subsidies towards the management of the northern coast of São Paulo State: a case study of the larval settlement success of coastal decapods.

Moreira, Fabiana Tavares

21 August 2006

O presente estudo foi realizado ao longo de uma linha de costa, incluindo duas enseadas em Ubatuba-SP, Brasil. Os objetivos principais foram: (1) Examinar, em seis costões rochosos, séries temporais de assentamento larval de decápodos, afim de entender forçantes físicas associadas ao transporte em direção à costa, (2) Localizar agregações larvais no plâncton neustônico costeiro, para inferir a natureza das agregações e verificar a ocorrência de migração vertical em decápodos, (3) testar a relação entre suprimento e assentamento larval, a diferentes escalas espaciais. O papel da competência larval foi discutido à luz de evidências obtidas através amostragem planctônica em diferentes áreas dentro das enseadas e comparações inter e intra-taxonômicas. Entre maio e agosto de 2005, foram realizadas coletas, a cada dois dias, para estimar a taxa de assentamento larval de grupos de decápodes em coletores artificiais. Durante dois períodos de maior assentamento de Pachygrapsus transversus, a ocorrência nictemeral neustônica, desta e de outras espécies de decápodes foi avaliada. Sub-amostras de megalopas de brachyura foram separadas para mensuração do nível de competência larval, através do cultivo de larvas, obtendo estimativas do tempo decorrido até a muda, e através do estágio de muda de indivíduos previamente fixados. Modelos Log-lineares foram utilizados para testar o efeito do vento e da maré na taxa de assentamento, e os resultados foram confrontados com cenários de correntes superficiais fornecidos pelo modelo hidrodinâmico de circulação. Amostras planctônicas revelaram que agregações larvais são coincidentes com zonas de convergência, provavelmente causadas pela formação de ondas internas. Um conjunto de espécies de camarão sofre migração vertical típica, enquanto um padrão de migração reversa foi encontrado para grapsídeos, ix o que pode auxiliar no transporte em direção à costa para as áreas de assentamento devido a brisas marinhas. Portunídeos não apresentaram tendência de migração vertical. A competência parece ser melhor estimada através do método de cultivo. Em áreas dentro das enseadas, megalopas de portunídeos parecem ser mais competentes ao assentamento que as de grapsídeos, provavelmente por estarem mais próximas aos locais de assentamento. Megalopas neustônicas de P. transversus coletadas dentro das enseadas são menos competentes que as obtidas em coletores artificiais. O estágio transicional não foi capturado, sugerindo que a transição para o bentos e o desenvolvimento até estágios competentes são mais complexos do que normalmente assumido. Não foi encontrada correlação significativa entre o suprimento de megalopas e a taxa de assentamento. A taxa de assentamento de decápodes, que habitam a região entre-marés de costões rochosos, é aparentemente dependente da interação das forçantes de vento, maré e comportamento larval. As taxas de assentamento de grapsídeos e palemonídeos seguem o ritmo semi-lunar, com ocorrência máxima próximo às marés de quadratura, corroborando a hipótese de que ondas internas geradas pela maré são também responsáveis pelo transporte de decápodos costeiros. Ventos em direção à costa foram identificados como agentes chave, apesar de dependentes do regime de marés, enquanto que ventos de nordeste provavelmente trazem larvas de locais de produção. Padrões de circulação costeira e contrastes de assentamento consistentes espacialmente indicam que a Enseada do Flamengo é uma importante área de deposição de larvas. / The present study was carried out along a coastline including two bays in Ubatuba, SP, Brazil. The main objectives were (1) examine, at six different rocky shores, the time series of decapod larval settlement in order to understand the physical forcing associated to onshore transport, (2) locate neustonic plankton larval aggregations over the diel cycle to infer on the nature of patchiness and to verify the occurrence of vertical migration in the decapod species examined, and (3) test the relationship between larval supply and settlement, at different spatial scales. The role of larval competency was discussed based on evidence obtained by sampling the plankton at distinct within-bay areas and comparing the results both within and between taxa. From May to August 2005, samples were carried out every other day to estimate the larval settlement rate of two different decapod assemblages in artificial collectors. During two settlement pulses recorded for the megalopae of Pachygrapsus transversus, the nycthemeral neustonic occurrence of that and other decapod stages was assessed. Subsamples of brachyuran megalopae were separated to measure their competency level, by means of both larval rearing, thus obtaining time-to-moult estimates, and microscopic moult-staging of readily fixed individuals. Log-linear models were used to test the effect of wind and tide range on settlement rate, and results were confronted to possible scenarios of surface currents provided by hydrodynamic numerical modeling. Planktonic samples revealed that patches of larvae are coincident to slick fringes, probably caused by the formation of internal waves. A suite of shrimp species undertakes a typical diel vertical migration, while a reversed pattern was found for grapsids, which may assist the final onshore transport to settlement grounds due to marine breezes. Swimming crabs did not show any vertical xi migration trend. Competency is suggested to be better estimated using the larval rearing method. In within-bay areas, portunid megalopae appeared to be more competent to settle than those of grapsids, probably because the former are closer to settlement substrates than the latter, which should be first advected to the nearshore. Within-taxon comparisons revealed that neustonic megalopae of P. transversus collected in within-bay areas are less competent than those obtained from benthic collectors. A transitional stage was missing, suggesting that the transition to the benthos and the development into competent stages are more complex than usually assumed. Significant correlations between megalopae supply and settlement rate were not found. The settlement rate of decapods inhabiting the intertidal region of the rocky coast sampled is apparently dependent on the interaction of wind and tide forcing coupled with larval behaviour. Settlement rate of both grapsids and palaemonids follows a semilunar rhythm, with maxima occurring near neap tides, corroborating the hypothesis that tidally-driven internal motions are also responsible for onshore larval transport coastal decapods. Onshore wind-forcing was found to be the key agent, although dependent on the tide regime, while winds blowing from northeast are suggested to bring larvae from source sites. Coastal circulation patterns and spatially-consistent settlement contrasts indicate that Flamengo Bay is an important area of larval deposition.

Pachygrapsus transversus.

Deslocamento Seletivo Induzido do Zooplâncton Marinho em Resposta a Percepção Espectral da Luz Visível / Selective Induced Displacement from Marine Zooplankton at Responding to perception of spectral Visible Light

Baldasso, Luis Fabiano

18 February 2016

A distribuição da biomassa do plâncton é a chave para o entendimento de vários processos inclusive a compreensão da migração vertical diurna. Entender a fototaxia positiva, como responsável por esta distribuição, com enfoque na qualidade espectral da luz é uma campo vasto a ser explorado. Investigamos a percepção espectral luminosa do mesozooplâncton marinho através da quantificação de capturas em uma nova arte de coleta com armadilha de luz. Estas armadilhas foram testadas com tratamentos luminosos na cor vermelha, verde, azul e branco. Elas foram fundeadas na enseada do Flamengo e de Ubatuba (Ubatuba-SP) no fim do verão e outono de 2015 durante a lua cheia e lua nova em três noites consecutivas. Foram avaliadas as associações de exposição (fase lunar, local de coleta e esquema de randomização dos tratamentos) baseada nos dados de captura através de gráficos NMDS, teste PERMANOVA e tabelas de contingência de Chi-quadrado. Os táxons mais abundantes nas capturas foram dois gêneros de copépodes Calanoida (Acartia sp e Temora sp) seguidos pela família Podonidae e Brachyura. Demonstramos que os organismos capturados do zooplâncton marinho expressaram seleção espectral induzidos pela fototaxia positiva. O tratamento luminoso verde exerceu maior atração nos organismos em detrimento ao tratamento luminoso vermelho. A influência das fases lunares ou dos esquemas de randomização dos tratamentos luminosos dependem da sensibilidade espectral de cada táxon. Porém local não implicou em diferenças entre as coletas. Estas particularidades da fototaxia positiva seletiva podem explicar a variação vertical da biomassa do zooplâncton marinho na coluna d\'água inclusive no entendimento da MVD. / The distribution of plankton biomass is the key for understanding many processes including diel vertical migration (DVM). Understand the positive phototaxis, as responsible for this distribution, with a focus on spectral quality of light is a vast field to be explored. We investigate the spectral light perception of the marine mesozooplankton through quantification of catches in a new art with light trap. These traps were tested with light treatments in red, green, blue and white. They were anchored in the Flamengo and Ubatuba bay (Ubatuba-SP) in late summer and autumn of 2015 during the full moon and new moon on three consecutive nights. Exposure associations were evaluated (lunar phase, site and treatment randomization scheme) based on the data capture through NMDS graphics, PERMANOVA test and Chi-square contingency tables. Most abundant taxa catched were two kinds of copepods Calanoida (Acartia sp and Temora sp) followed by Podonidae and Brachyura. We have demonstrated that the captured marine zooplankton showed spectral selection induced by positive phototaxis. The green light treatment exerted biggest attraction in organisms over the red light treatment. The influence of lunar phases or randomization schemes of bright treatments depend on the spectral sensitivity of each taxon. But location did not result in differences between collections. These specifics of selective phototaxis may explain the vertical variation of marine zooplankton biomass in water column including the understanding of DVM.

Armadilha de luz

Diel vertical migration

Fototaxia positiva seletiva

Light trap

Migração vertical diurna

Qualidade espectral da luz

Selective positive phototaxis

Spectral quality of light

Deslocamento Seletivo Induzido do Zooplâncton Marinho em Resposta a Percepção Espectral da Luz Visível / Selective Induced Displacement from Marine Zooplankton at Responding to perception of spectral Visible Light

Luis Fabiano Baldasso

18 February 2016

A distribuição da biomassa do plâncton é a chave para o entendimento de vários processos inclusive a compreensão da migração vertical diurna. Entender a fototaxia positiva, como responsável por esta distribuição, com enfoque na qualidade espectral da luz é uma campo vasto a ser explorado. Investigamos a percepção espectral luminosa do mesozooplâncton marinho através da quantificação de capturas em uma nova arte de coleta com armadilha de luz. Estas armadilhas foram testadas com tratamentos luminosos na cor vermelha, verde, azul e branco. Elas foram fundeadas na enseada do Flamengo e de Ubatuba (Ubatuba-SP) no fim do verão e outono de 2015 durante a lua cheia e lua nova em três noites consecutivas. Foram avaliadas as associações de exposição (fase lunar, local de coleta e esquema de randomização dos tratamentos) baseada nos dados de captura através de gráficos NMDS, teste PERMANOVA e tabelas de contingência de Chi-quadrado. Os táxons mais abundantes nas capturas foram dois gêneros de copépodes Calanoida (Acartia sp e Temora sp) seguidos pela família Podonidae e Brachyura. Demonstramos que os organismos capturados do zooplâncton marinho expressaram seleção espectral induzidos pela fototaxia positiva. O tratamento luminoso verde exerceu maior atração nos organismos em detrimento ao tratamento luminoso vermelho. A influência das fases lunares ou dos esquemas de randomização dos tratamentos luminosos dependem da sensibilidade espectral de cada táxon. Porém local não implicou em diferenças entre as coletas. Estas particularidades da fototaxia positiva seletiva podem explicar a variação vertical da biomassa do zooplâncton marinho na coluna d\'água inclusive no entendimento da MVD. / The distribution of plankton biomass is the key for understanding many processes including diel vertical migration (DVM). Understand the positive phototaxis, as responsible for this distribution, with a focus on spectral quality of light is a vast field to be explored. We investigate the spectral light perception of the marine mesozooplankton through quantification of catches in a new art with light trap. These traps were tested with light treatments in red, green, blue and white. They were anchored in the Flamengo and Ubatuba bay (Ubatuba-SP) in late summer and autumn of 2015 during the full moon and new moon on three consecutive nights. Exposure associations were evaluated (lunar phase, site and treatment randomization scheme) based on the data capture through NMDS graphics, PERMANOVA test and Chi-square contingency tables. Most abundant taxa catched were two kinds of copepods Calanoida (Acartia sp and Temora sp) followed by Podonidae and Brachyura. We have demonstrated that the captured marine zooplankton showed spectral selection induced by positive phototaxis. The green light treatment exerted biggest attraction in organisms over the red light treatment. The influence of lunar phases or randomization schemes of bright treatments depend on the spectral sensitivity of each taxon. But location did not result in differences between collections. These specifics of selective phototaxis may explain the vertical variation of marine zooplankton biomass in water column including the understanding of DVM.

Armadilha de luz

Fototaxia positiva seletiva

Migração vertical diurna

Qualidade espectral da luz

Diel vertical migration

Light trap

Selective positive phototaxis

Spectral quality of light

Studies on Baltic Sea mysids

Ogonowski, Martin

January 2012

Mysid shrimps (Mysidacea, Crustacea) are efficient zooplanktivores in both marine and freshwater systems as well as lipid rich prey for many species of fish.  Although some efforts have been made to study the role of mysids in the Baltic Sea, very few studies have been carried out in recent time and there are still knowledge gaps regarding various aspects of mysid ecology. This thesis aims to explore some of these gaps by covering a mixture of topics. Using multifrequency hydroacoustics we explored the possibility to separate mysids from fish echoes and successfully established a promising and effective method for obtaining mysid abundance/biomass estimates (paper I). An investigation of the current mysid community in a coastal area of the northern Baltic proper (paper II) demonstrated that the formerly dominant, pelagic mysid Mysis mixta had decreased substantially (~50%) in favor for phytoplanktivorous, juvenile Neomysis integer and Mysis relicta sp. By examining different aspects of mysid behavior, we studied the vertical size distribution of mysids in the field and found that size increased with depth/declining light, irrespective of temperature; indicating that their vertical size distribution primarily is a response to predation (paper II). In paper III, a combination of ecological and genetic markers was used to investigate intraspecific differences in migratory tendency. Both marker types indicated that some part of the Mysis salemaai population is sedentary on the bottom and that this strategy is a phenotypically plastic but persistent trait, analogous to the partial migrations seen in many birds and fishes. In paper IV a temperature and weight specific respiration model was developed for the littoral Praunus flexuosus. Routine respiration was moreover elevated by post-prandial effects (specific dynamic action) for longer times than previously suggested. Consequently, ignoring such effects could significantly bias respiration measurements. / At the time of doctoral defence the following papers were unpublished and had a status as follows: Paper  2: Accepted; Paper 3: Submitted; Paper  4: Accepted

Mysids

hydroacoustics

Baltic Sea

abundance

stable isotopes

specific dynamic action (SDA)

diel vertical migration

partial migration

trophic interactions

physiology

benthic-pelagic coupling

protein:DNA

C:N ratio

genetic structure

Living in a predation matrix : Studies on fish and their prey in a Baltic Sea coastal area

Ahlbeck, Ida

January 2012

This thesis was written within the framework of a biomanipulation project where young-of-the-year (YOY) pikeperch (Sander lucioperca) were stocked to a Baltic Sea bay to improve water quality through a top-down trophic cascade. The aim of my doctorial studies was however focused on a broader ecological question, namely predation (the main driving force in a biomanipulation). Hence, this thesis consists of four papers where we study the interactions between predator and prey using fish and zooplankton and how these interactions can be measured. In paper I we evaluated the performance of different diet analysis methods by individual based modelling and found that when having a nutritional gain perspective, mass based methods described diets best. Paper II investigated how the explorative, foraging and anti-predator behaviour of the YOY pikeperch used for stocking were affected by their rearing environment (pond vs. tank rearing). The more complex and varied environment in the semi-natural ponds seemed to promote a more flexible and active behaviour, better equipping young fish for survival in the wild. For paper III we studied the diel vertical migration in the six copepodite stages of the zooplankton Acartia spp. and Eurytemora affinis in relation to fish biomass, phytoplankton abundance and temperature. Both species migrated and in addition showed increased migration range with size within species, indicating evasion from visual predators. Paper IV addressed the movement of littoral Eurasian perch (Perca fluviatilis) via stable isotope signatures (13C and 15N) and body condition. We found clear indications of sedentarity and intra-habitat dietary differences. Interactions between predators and prey are complex and affected by both physiological and environmental characteristics as well as behavioural traits. The results in this thesis suggest that different species and even different life stages pursue different strategies to survive. / At the time of doctoral defense, the following papers were unpublished and had a status as follows: Paper 1: Submitted.  Paper 2: In press.  Paper 4: Submitted.

diet analysis methods

Sander lucioperca

behaviour

rearing environment

diel vertical migration

Acartia spp.

Eurytemora affinis

Perca fluviatilis

stable isotopes

body condition

sedentarity