Miljögiftsförekomster i utter (Lutra lutra) från Småland : Nuvarande status och förändringar över tid (1966-2014) / Environmental contaminants in otter (Lutra lutra) in Småland : Present levels and temporal changes (1966-2014)

Lorentzdotter, Helena

January 2015

The Swedish otter (Lutra lutra) population decreased markedly after the 1950’s and was considered to be seriously threatened for decades. Pollution from industries and other anthropogenic activities were suspected to be the major cause of the decline. The otter is a top-predator in aquatic systems and therefore particularly susceptible to bioaccumulative and toxic substances. For this reason, the species can be regarded as a valuable indicator of environmental health. Today, the Swedish otter population is increasing and has been reestablished in many areas. However, the otter is still missing in some regions of Sweden, especially in the southeast. The aim of this study was to investigate past and present levels, and temporal trends, of environmental contaminants in otters from Småland.The study is based on data of environmental contaminants in liver and muscle tissue from dead otters found in Småland during 1966-2014. I found that the perfluorinated compounds PFOS and PFOA have increased in otters since the 1970’s which is alarming and should be given special concern in future monitoring. Also, while mercury (Hg) is rather stable, selenium (Se) concentrations are decreasing, resulting in Hg exceeding Se on molar mass basis in several otters. This indicates that all of the available Se is bound to mercury, which may imply that the otters are vulnerable to additional Hg contamination. My conclusions are that the present concentrations of the studied environmental contaminants have probably not affected the otter population in general. However, otters may be exposed to toxic levels of some contaminants in certain areas that are more polluted from anthropogenic activities. This could be harmful to individual otters or their reproduction, and therefore, continued monitoring is highly relevant.

Aquatic top-predator

environmental contaminants

environmental indicator

Lutra lutra

Sweden

Vliv rizika predace a komplexity prostředí na trofické interakce ve vodním prostředí / The impact of predation risk and habitat complexity on trophic interactions in aquatic habitats

KOLÁŘ, Vojtěch

January 2015

The thesis results of two laboratory experiments focusing on the impacts of predation risk, prey density and habitat complexity on predator-prey interaction strengths and predator metabolic rates, complemented by a brief review of the subject. The experimental system used in the first experiment consisted of cladoceran prey, larvae of three dragonfly species (Sympetrum sanguineum, Libellula quadrimaculata, Ischnura cf. elegans) as intermediate predators, and larvae of a large dragonfly species (Aeshna sp.) as a top predator. The second experiment of investigated how predation risk influences metabolic rates of the intermediate predators.

Maternal foraging behaviour of Subantarctic fur seals from Marion Island

Wege, Mia

January 2013

Foraging forms the cornerstone of an animal’s life-history. An individual's foraging success shapes the demography and health of a population. Understanding key facets of maternal foraging behaviour are crucial to get a holistic picture of both regional and local environmental factors that drive foraging behaviour. This study aimed to measure the maternal foraging behaviour of a marine top predator, the Subantarctic fur seal (Arctocephalus tropicalis), from Marion Island (MI) over a range of spatial and temporal scales. Arctocephalus tropicalis females from MI have one of the longest duration foraging trips for the species. They are most similar to conspecifics at temperate Amsterdam Island, but differ considerably from those at subantarctic Îles Crozet and Macquarie Island. Hitherto, no diving data existed for MI females. I illustrate how their diving behaviour is more similar to individuals from Îles Crozet despite their differences in foraging trip parameters. Together with Îles Crozet, MI females have one of the deepest mean diving depths (34.5 ± 2.2 m , 45.2 ± 4.8 m summer and winter respectively) and longest dive durations (70.2 ± 3 s , 104.3 ± 7.8 s summer and winter respectively) for the species. In summer, females follow the diel vertical migration of their myctophid prey. Counter intuitively, during the winter, females performed short and shallow crepuscular dives, possibly foraging on different prey. Considering that these individuals dive in deep waters, this is most likely related to myctophids occupying lower depths in the water column during winter. At dusk and dawn they are inaccessible to diving fur seals. At-sea data from multiple foraging trips per female illustrated that females have both a colony- and individual preferred foraging direction which varied seasonally. Individuals travelled consistently in the same direction regionally, but locally appear to track prey in a heterogeneous environment. The few trips in the winter to the west of MI suggest that this is a short-term response to varying prey availability rather than a long-term foraging tactic. Six years of observer-based attendance cycle data were used to augment telemetry data. Multi-state mark-recapture models were used to determine the probability of a female being missed when she was present (detection probability). Attendance data were corrected accordingly. Neither El Niño (EN) nor anomalous seasurface temperature (SSTa) influenced any of the attendance cycle parameters, as foraging trip duration is a poor predictor of weak environmental change. Only season and pup sex had a significant impact on female provisioning rates. Foraging trip duration was longer during winter than during summer. Females spent a higher percentage of time on land when they had female pups rather than male pups. Although observational attendance data remain useful it ideally requires concomitant data on pup growth, production and female body condition to elucidate changes in female provisioning rates. Temporally, season had the most influence on female foraging behaviour. Spatially, it appears that a lack of prominent local bathymetrical features overshadows MI's favourable position in the productive Polar Frontal Zone. Arctocephalus tropicalis females from MI work harder at foraging than at any other island population of conspecifics. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Zoology and Entomology / Unrestricted

Maternal foraging

Foraging behaviour

Marine top predator

Arctocephalus tropicalis females

Species

Myctophid prey

Subantarctic fur seals

UCTD

Ecologia alimentar e distribuição espaço-temporal das diferentes fases ontogenéticas da espécie Cynoscion acoupa no estuário do Rio Goiana (PE/PB)

FERREIRA, Guilherme Vitor Batista

01 February 2016

Submitted by Irene Nascimento (irene.kessia@ufpe.br) on 2016-06-20T18:42:06Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação (G. Ferreira).pdf: 2368229 bytes, checksum: e7d27dd236d3848f67692455d0a94426 (MD5) / Made available in DSpace on 2016-06-20T18:42:06Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação (G. Ferreira).pdf: 2368229 bytes, checksum: e7d27dd236d3848f67692455d0a94426 (MD5) Previous issue date: 2016-02-01 / Capes / Este estudo avalia a influência espaço-temporal nos padrões de distribuição, ecologia alimentar e ingestão de microplástico da espécie Cynoscion acoupa (Pescada Amarela) ao longo da sua ontogenia, no estuário do rio Goiana, localizado no nordeste do Brasil. A área de estudo se trata de um estuário tropical, com altas médias de temperatura anual e pequenas oscilações. O ambiente está submetido a um regime de mesomaré semi-diurna. As principais alterações encontradas no estuário são oriundas do ciclo sazonal, que está diretamente ligado à pluviometria, divida em quatro estações (início da chuva, fim da chuva, início da seca e fim da seeca), com o intuito de se ter uma maior precisão na avaliação dos processos abiológicos e na comunidade aquática. Os espécimes foram coletados em diferentes porções estuarinas (estuário superior, intermediário e inferior) e nos canais de maré. Simultaneamente a coleta dos dados biológicos foram obtidas informações a respeito dos parâmetros físico-químicos. Os padrões de distribuição e alimentação da espécie estudada ocorrem de forma distinta em relação à ontogenia, sazonalidade e áreas do estuário. A fase juvenil de C. acoupa ocupa a porção superior do estuário durante todas as estações do ano, em busca de baixos valores de salinidade, onde encontram condições ideais apara evitar predadores marinhos. As principais presas dos juvenins no estuário superior foram filamentos de microplástico (FO=63%), amphipoda (FO=28%) e mysidacea (FO=22%). Além disso, no início do período chuvoso, o estuário superior apresenta um papel crucial para o ciclo de vida da espécie, por se caracterizar como uma área berçário para C. acoupa (grande densidade 228,4 ind. ha-1 e baixa biomassa 46 g ha-1 de juvenis), pois a sua contribuição de indivíduos juvenis para a população adulta é muito maior que nos outros hábitats. No ambiente de berçário os juvenis se alimentaram principalmente de filamentos de microplástico (FO=48%), camarão (FO=28%), mysidacea (FO=22%) e amphipoda (FO=21%). Nas demais porções estuarinas, também são registrados indivíduos juvenis, sobretudo nos períodos chuvosos (início da chuva 115 ind ha-1 e fim da chuva 7,3 ind. ha-1), porém em menor escala. Os subadultos de C. acoupa utilizam principalmente o estuário superior durante o início da seca (1,7 ind. ha-1), fim da seca (1,6 ind. ha-1) e início da chuva (6,5 ind. ha-1) como área de alimentação. Predando no estuário superior, no início da seca, principalmente peixes não identificados (FO=50%), no fim da seca, filamentos de microplástico (FO=60%), mysidacea (FO=20%) e syllidae (FO=20%) e no início da chuva, filamentos de nylon FO=100% e peixes não identificados (FO=20%). Durante o fim do período chuvoso os indivíduos subadultos migram para o estuário intermediário (2,3 ind. ha-1) para evitar grandes estresses osmorregulatórios e predaram principalmente amphipoda (FO=75%), Cathorops spixii (FO=50%), Anchovia clupeoides (FO=25%) e peixes não identificados (FO=25%). A fase adulta de C. acoupa foi registrada somente nas porções mais externas do estuário inferior, por se tratar de uma espécie de hábitos costeiros quando completamente desenvolvida. Os indivíduos adultos de C. acoupa predaram principalmente filamentos de nylon (FO=100%), C. spixii (FO=18%), Achirus lineatus (FO=15%), Stellifer stellifer (FO=15%) e camarão (FO=15%). C. acoupa apresentou uma variação no padrão de distribuição em relação a sua ontogenia, sazonalidade e diferentes porções estuarinas. Ao longo do seu desenvolvimento ontogenético C. acoupa também apresentou uma alteração na sua guilda trófica, os juvenis e os subadultos foram classificados como oportunistas e os indivíduos adultos como piscívoros. A grande quantidade de fragmentos e microplástico encontrada na espécie estudada, demostra que ela é particularmente vulnerável a esse tipo de contaminante, sobre tudo os espécimes adultos, que registraram os maiores níveis de contaminação, provavelmente em razão do seu nível trófico, como predadores de topo. / This study assess the spatio-temporal distribution patterns, feeding ecology and microplastic ingestion of the Cynoscion acoupa (Acoupa weakfish) during its ontogeny in the Goianna Estuary, located in northeast Brazil. The study area is a tropical estuary, with high mean temperatures and narrow annual temperature variations. The environment is classified as a semi-diurnal mesotidal estuary. The major environmental dynamics are caused by the seasonal regime, which is related to the rainfall, according to the pluviometry, the area was divided in four different seasons (early dry, late dry, early rainy and late rainy). Biological samples were performed in different estuarine reaches (upper, middle and lower estuary) and in tidal creeks. During the fish sampling, environmental parameters were also recorded. The distribution and feeding patters of the studied species occur in a distinctive form according to the ontogeny, seasonality and estuarine area. The juveniles of C. acoupa occupy the upper estuary, during all seasons, seeking low salinity that provide ideal conditions to avoid marine predators. The main juveniles prey in the upper estuary were microplastic threads (FO=63%), amphipoda (FO=28%) and mysidacea (FO=22%). Moreover in the early rainy season, the upper estuary is crucial for the life ciclo of the species, because it is a nursery ground for C. acoupa (high density 228.4 ind. ha-1 and low biomass 46 g ha-1 of juveniles), as a result of the higher contribution of juveniles for to the adult population than in the other habitats. In the nursery ground, the juveniles of C. acoupa fed mainly on plastic threads (FO=48%), penaeid shrimps (FO=28%), mysidacea (FO=22%) and amphipoda (FO=21%). In other estuarine areas juveniles were also recorded, mainly on the rainy seasons (early rainy 115 ind. ha-1 and late rainy 7.3 ind. ha-1), however with lower densities. The subadults of C. acoupa inhabited mostly the upper estuary, during the early dry (1.7 ind. ha-1), late dry (1.6 ind. ha-1) and early rainy seasons (6.5 ind. ha-1) as a feeding ground. In the upper estuary, during the early season they fed mainly on unidentified fish (FO=50%), in the late dry, plastic threads (FO=60%), mysidacea (FO=20%) and syllidae (FO=20%) and in the early rainy, plastic threads (FO=100%) and unidentified fish (FO=20%). During the late rainy season the subadults of C. acoupa migrated to the middle estuary (2.3 ind. ha-1) to avoid osmoregulatory stress, the subadults and fed mainly on amphipoda (FO=75%), Cathorops spixii (FO=50%), Anchovia clupeoides (FO=25%) and non-identified fish (FO=25%). The adults of C. acoupa were recorded only in seaward areas of the lower estuary, as a result of C. acoupa being a coastal/marine species when fully developed. The adults preyed mostly plastic threads (FO=100%), C. spixii (FO=18%), Achirus lineatus (FO=15%), Stellifer stellifer (FO=15%) and penaeid shrimp (FO=15%). During the ontogenetic process, C. acoupa showed a trophic guild shift, the juveniles and subadults were assigned as opportunistic and the adults as psicivores. C. acoupa showed a variation in the distribution pattern in relation to the ontogeny, seasonality and different estuarine reaches. During the ontogenetic development, C. acoupa showed a trophic guild shift, the juveniles and subadults were assigned as opportunistic and the adults as psicivores. The high occurrence of microplastic threads in the species, evince that C. acoupa is particularly vulnerable to this contaminant, especially the adult phase that registered highest contamination levels, probably due its trophic level, as a top predator.

Écologie trophique de poissons prédateurs et contribution à l'étude des réseaux trophiques marins aux abords de La Réunion / Trophic ecology of predatory fishes and contribution under investigation of the marine trophic networks in the vicinity of Reunion Island

Trystram, Clément

09 December 2016

L'objectif général de cette thèse est d'étudier les relations alimentaires entre différents prédateurs d'intérêt local, appartenant à plusieurs compartiments écologiques. L'échantillonnage, réalisé entre janvier 2012 et décembre 2014 en partenariat avec la filière pêche, s'est concentré sur les principales espèces d'intérêt commercial ou en interactions avec les pêcheries (captures accessoires et déprédateurs). La détermination des sources de matière organique dont elles dépendent, de leurs relations interspécifiques, ainsi que des facteurs de variation de leurs alimentations, a été réalisée grâce à l'analyse des isotopes stables du carbone (δ13C) et de l'azote (δ15N), ainsi que celle des contenus stomacaux. Bien qu'associées au substrat, les espèces profondes (100-600m) dépendent indirectement de la production primaire de surface via leurs proies qui effectuent des migrations verticales dans la colonne d'eau. Cette dépendance aux organismes mésopélagiques induit un chevauchement alimentaire globalement important entre ces espèces, atténué par l'occupation de zones bathymétriques différentes. Concernant les espèces de surface, celles-ci se répartissent selon un gradient côte-large, formant trois groupes aux régimes alimentaires distincts. Les requins tigre semblent former une population homogène constituée d'individus généralistes tandis que les requins bouledogue forment une population hétérogène d'individus spécialisés sur des ressources différentes. Ces résultats indiquent qu'une approche centrée sur l'habitat conviendrait à la gestion des espèces profondes, tandis qu'une approche centrée sur les espèces serait plus efficiente pour les espèces de surface. / The general aim of this Ph.D thesis is to analyse the feeding relationship between the different predators of multiple habitats. Carried out between January 2012 and December 2014 in collaboration with the fishing stakeholders, the sampling focused on species of commercial interest or interacting with fisheries (bycatches and depredators). Carbon (δ13C) and nitrogen (δ15N) stable isotopes ratio and stomacal content analysis were used to determine the organic matter they depend on, their interspecific relationships and the factors influencing their diets. Results show a wide disparity between species caught in shallow water and the deep ones. Despite their association with the benthic environment, deepwater species (100-600m) indirectly rely on surface primary production through their vertically migrating prey. This dependence on mesopelagic organism induce consequently a high dietary overlap between pairwise species, although alleviated by their presence in different bathymetric areas. Shallow species are split into three distinct diet categories along a shore-offshore gradient. Tiger shark are likely to form an homogeneous population composed with generalist individuals conversely to bull sharks which are forming an assorted population of individuals specialized on different resources. Those results tend to promote an habitat-focused approach, more suitable for the management of deepwater species, whereas a species-focused approach would rather be more effective for shallow, highly mobile species.

Régime alimentaire

Réseau trophique

Isotopes stables

Contenus stomacaux

Prédateurs supérieurs

Poissons d'intérêt halieutique

Espèces démersales profondes

Diet

Trophic web

Stable isotopes

Stomach contents

Top predator

Commercial species

Deep-Water species

Zur Rekonstruktion historischer Biodiversität aus archivalischen Quellen: Das Beispiel des Oderbruchs (Brandenburg) im 18. Jahrhundert / The reconstruction of historical biodiversity by archival sources: the example of the Oderbruch floodplain (Brandenburg) in the 18th century

Jakupi, Antje

05 July 2007

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

historische Biodiversität

Archiv

archivalische Quellen

Fluss

Oder

Oderbruch

Überschwemmung

18. Jahrhundert

Rekonstruktion

Sammlungen

Hecht

Esox lucius

Top-Predator

Grünland

Grünlandgesellschaften

Wiese

Hütung

Weide

Artenreichtum

Artendiversität

Diversität Artgemeinschaften

Flussaue

Eindeichung

Melioration;Fischartengemeinschaft

Indikatorart

Charakterart

Bewirtschaftung

Heu

Heuertrag

Besatzdichte

Weidevieh

Ertrag

Biomasse

Süßwasser

historical biodiversity

archive

archival sources

river

Odra

Oderbruch

inundation

18th century

reconstruction

collections

pike

Esox lucius

top predator

grassland

grassland communities

meadow

pasture

species richness

species diversity

community diversity

floodplain

embankment

land improvement

fish community

indicator species

character species

farming style

hay

hay-yield

stocking rate

livestock

yield

biomass

freshwater

42.90 Ökologie: Allgemeines