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Sea otter tourism in British Columbia: the effects of interpretation on the conservation attitudes and behavioural intentions of boat-based and aquarium visitors.Poirier, Sarah Victoria 16 November 2010 (has links)
Visitation to marine wildlife viewing tours has increased steadily in the last few
decades. Despite concerns over negative impacts, one of the anticipated benefits to
wildlife viewing is increased visitor support for marine conservation. In this study, sea otters were used as a case study to determine how wildlife viewing may alter visitor attitudes and behavioural intentions towards marine conservation. In particular, the effects of the inclusion of interpretation in marine wildlife observation were analysed.
This study includes the experiences of marine wildlife visitors to boat-based tours in Tofino, on the west coast of Vancouver Island, as well as the experiences of visitors to the Vancouver Aquarium Marine Science Centre. A questionnaire was used to determine the importance of sea otters to wildlife viewing tours, how both aquarium and boat-based wildlife viewing experiences influence visitor learning, and what implications this has for marine conservation. Sea otters were found to be important incidentally-viewed species
in the boat-based tours. Sea otters were oftentimes not the main draw, but visitors very much enjoyed their presence. The provision of interpretation on its own affected visitor attitudes and behavioural intentions. However, the most significant difference in the promotion of conservation attitudes and behaviours was when the observation of sea otters was coupled with interpretation regarding sea otters. The same trend was observed in both the boat-based tours in Tofino and the captive wildlife viewing at the aquarium.
These results indicate that the most important role of the tour guide is in locating marine species, and providing targeted interpretation about the species during observation. Thus, marine wildlife tourism can increase overall visitor support for marine conservation through affecting attitudes and behaviours.
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Hydrocarbons in sea otters (Enhydra lutris) and their habitat in coastal British Columbia, CanadaHarris, Katherine Anne 20 December 2010 (has links)
The purpose of this work was to examine the source and fate of hydrocarbons, the primary constituents of oil, in sea otter (Enhydra lutris) habitat on the west coast of British Columbia (BC), Canada and their fate in the sea otter food web. Oil pollution is the primary threat to this recovering population, reflecting their extreme vulnerability as a result of several unique life history characteristics, including the absence of a blubber layer, reliance on their fur for insulation, and the fact that their entire lives can be spent at sea.
While the vulnerability of sea otters to acute oil exposure has been demonstrated, chronic hydrocarbon exposure through dietary processes is not well understood. We measured hydrocarbon (alkane, hopane and sterane biomarker, and polycyclic aromatic) concentrations in sediments, prey items, and live-captured sea otters using high resolution gas chromatography/high resolution mass spectrometry (HRGC/HRMS). Background signatures were characterized for remote sediment sites, with polycyclic aromatic hydrocarbon (PAH) patterns revealing the predominance of petrogenic sources. However, PAH concentrations were up to three orders of magnitude higher at two small harbour sites, with patterns reflecting weathered petroleum and the combustion of fossil fuels and biomass. Concentrations at these sites exceeded both national and provincial sediment quality guidelines for the protection of aquatic life.
Despite differences in habitat and feeding ecology, all sea otter prey species sampled exhibited PAH patterns dominated by petrogenic low molecular weight (LMW) compounds, highlighting the likely importance of water as an exposure route. While biota-sediment accumulation factors (BSAFs) generally decreased with increasing octanol-water partitioning coefficients (log Kow) for parent PAHs, BSAFs for alkyl PAHs increased, indicative of bioaccumulation by invertebrates.
Biomagnification factors (BMFs) indicated that while parent PAHs biodiluted in sea otters, consistent with metabolic elimination, some higher alkylated 3- and 4-ring PAHs biomagnified, challenging the commonly held view that PAHs dilute in food webs. This retention was reflected in estimated ∑PAH body burdens, in which alkyl PAHs comprised 89 ± 7% and 84 ± 10% of totals in male and female otters, respectively. While vertebrates are efficient metabolizers of parent PAHs, this apparent retention of some alkyl PAHs in sea otters raises concerns about the potential toxicological effects of these poorly understood compounds. This research suggests that sea otters may be vulnerable to PAH-related health risks as a consequence of their large dietary requirements (~25% of body weight per day), even when prey PAH concentrations are low.
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Spatial Ecology Of River Otters In Southern IllinoisHanrahan, Alexander 01 August 2018 (has links)
Social behavior and habitat selection of river otters (Lontra canadensis) are highly variable among populations and there is limited information on how space use of this mustelid changes in human-modified environments. Understanding the spatial ecology of river otters is important for efforts focused on habitat management and preventing human-wildlife conflicts. My objectives were to quantify: (1) home ranges and core areas, (2) second- and third-order habitat selection, and (3) relationships between home-range size and intensity of human development for river otters in southern Illinois. VHF transmitters were used to track river otters during 2014-2016. Home-range and core-area sizes then were compared between males (n = 8) and females (n = 10), as was home-range overlap. I also compared the frequency individuals were located <25 m from a conspecific between sexes. Habitat selection at the second and third orders was analyzed with an eigen-analysis of selection ratios. Male river otters had larger home ranges and core areas than females. Home ranges of males overlapped frequently; lack of core-area overlap among females suggested they may be territorial. Males also were located <25 m from a conspecific more frequently than females (P = 0.023), and male-male dyads shared space more than male-female and female-female dyads (P = 0.002). Herbaceous and wooded wetlands were most strongly selected for at both second- and third-order scales, but streams and ponds also were selected. Regarding terrestrial cover types, river otters selected land with vegetative cover over areas with impervious surface (e.g., parking lots and shopping centers). Forests were selected over crop fields at the third-order, but not second-order, scale. Use of urbanized land was uncommon for river otters, and there was a positive relationship (P = 0.004) between home-range size and the percentage of home range within developed open space (e.g., roads and residential lawns). The habitat selection and sociality of river otters in southern Illinois varied among individuals, as it does among river otter populations throughout North America. By recording sex differences in social behavior and selection of aquatic and upland habitat, my study provides wildlife biologists with a better understanding of river otter space use throughout a rural-urban gradient.
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Model konektivity krajiny pro vydru říční / Model of landscape connectivity for European otterBureš, Jan January 2017 (has links)
Model of landscape connectivity for European otter Abstract Landscape connectivity is one of the main functions that mitigate the effects of landscape fragmentation on organisms. It allows organisms to move through habitat areas to natural habitat. Given of the overall decline in biodiversity, conservation of landscape connectivity is one of the main objectives of current nature protection. The greatest impact of landscape fragmentation on the population of European otters is mortality on roads. The most of the dead otters are found every year in the Jihočeský and Vysočina regions. That is why this region is an adequate model area for determining the connectivity of the landscape from the perspective of otters. This thesis deals with landscape fragmentation, habitat connectivity and landscape resistance. CIRCUISCAPE is the main tool used to solve connectivity modelling. From the resulting connectivity, landscape resistance and mortality values, risk areas for migration were selected. The telemetry data from the area around Dačice were used to validate this model. Keywords: habitat connectivity - landscape resistance - telemetry - European otter
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Sea otter effects on soft sediment flora and fauna, and within ancient Indigenous maricultural systemsFoster, Erin U. 12 July 2021 (has links)
Most of what is known about the ways in which strongly interacting species affect ecological communities stems from changes to community structure revealed in contemporary research. However, trophic downgrading has limited the temporal extent to which inferences can be drawn. The aim of my Dissertation was to expand on the strongly interacting species concept by examining species interactions at a historical scale, in a textbook example of a strongly interacting and keystone predator. The sea otter, Enhydra lutris, was driven to near-extinction but is recovering in parts of its range, providing a mosaic of areas with and without sea otters. This mosaic allowed for a series of natural experiments, which I conducted using behavioural observations, genetic tools, and archaeological methods, to examine sea otter effects spanning contemporary (last ~40 yrs.), and late-Holocene (~3500-150 yrs. ago) timeframes, and on an evolutionary scale that inferred middle-Pleistocene interactions. In Chapter 2, my coauthors and I found that sea otter use of clam-based niches increased as occupancy-time increased, and that bachelor groups of male otters primarily inhabited these niches, findings that informed and inspired subsequent questions. In Chapter 3, we found that where sea otters were established for 20-30 years, the disturbance to eelgrass (Zostera marina), caused by sea otters digging for clams and other infaunal prey, was correlated with ~25% greater eelgrass allelic richness than where otters were present <10 yrs, or absent. We posit that sea otter digging has long-influenced the genetic diversity and resilience of eelgrass – perhaps since the middle Pleistocene. In Chapter 4, we asked how two strongly interacting species – people and sea otters – co-existed for millennia where they both consumed clams. We used assemblages of live and otter-cracked butter clams (Saxidomus gigantea), to confirm the ecological effects that sea otters exert today. We measured clams from archaeological assemblages in areas densely populated with clam gardens – terraced beaches that enhance clam habitat and productivity – and found that sea otters reduced the sizes of ancient clams, acting as ecologically effective predators in the mid-to-late Holocene. However, clam harvests were stable for thousands of years, with or without otters. We suggest that clam gardening supported coexistence of people and otters in the past, and could function the same way today. Collectively, we found that a few, perhaps long-forgotten, interactions increased the breadth of the strongly interacting species concept. In Chapter 5, I suggest that such rediscoveries could occur in other systems. Many large vertebrates have suffered population declines, but the most insidious losses accompanying these, are the losses of ecological interactions that become unknowable, and thus cannot be intentionally restored. By searching out ancient interactions, long-forgotten relationships have the potential to be recovered, and to inform our understanding of contemporary systems. / Graduate / 2022-09-10
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T-RFLP analysis of bacterial 16S rRNA gene sequences isolated from river otter (Lontra canadensis) scat and parasite screening for the presence of Toxoplasma gondiiGustafson, Aubree Marie 01 January 2009 (has links)
In order to analyze the bacterial community of river otter scat (fecal material) at the class level, river otter scat samples were collected from Grizzly Island Wildlife Area (Solano County, CA) and the Cosumnes River Preserve (Sacramento County, CA). DNA was isolated from each sample with the MOBIO PowerSoil™ DNA Isolation Kit and 16S rRNA gene sequences were amplified from each sample. After digestion with Mspl, TRFLPs were analyzed in an ABI Prism™ 310 Genetic Analyzetin triplicate and data peak information from each electropherogram was uploaded into the Phylogenetic Assignment Tool (PAT). Species belonging to the Class Bacilli were the most abundant followed by unclassified species.
Two road killed river otters were necropsied to recover brain and blood tissue. DNA was isolated using the Qiagen Tissue DNeasy Kit. Samples from both otters were amplified with a singe tube nested PCR primer set for the detection of the ITS 1 region of Toxoplasma gondii. Scat samples used in the T-RFLP analysis were also tested for the presence ofT. gondii using the same nested primer set. Neither the river otter tissue samples nor any of the scat samples used in this analysis showed evidence of infeGtion with T. gondii.
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Translocation Mortality and Local, Regional, and Continental Diet of the Northern River Otter (Lontra canadensis)Day, Casey Craig 08 August 2012 (has links) (PDF)
The northern river otter (Lontra canadensis) is a semi-aquatic carnivore whose range extends throughout most of the United States and Canada. The northern river otter experienced a severe range contraction post-European settlement, but due to widespread management has in recent decades begun to recover much of its former range and habitat. We translocated 27 river otters from Utah and Idaho to the Provo River, Utah from November 2009 through January 2012 in a reintroduction effort to restore the northern river otter to its native range. Of these 27 otters, 6 died as a result of effects related to the translocation. We used linear regression and model selection to determine what factors had the most influence on the immediate mortality of translocated otters. We found that body mass was the most important factor, followed by sex. Indeed, otters at the high end of the body mass spectrum were 4 times more likely to survive a translocation than otters at the low end of body mass. Along with the reintroduction project, we determined the food habits of the northern river otter in the Provo River watershed. We located and monitored otter latrine sites from February 2010 through February 2012, collecting scats on a monthly basis. We identified prey items in otter scat and recorded data as the frequency of prey items per total number of scats, presented as a percentage. Fish was the primary class of prey taken by otters (96.5%), followed by crustaceans (16.9%). Otter diet varied among seasons for nearly all classes (G = 127.8, d. f. = 24, P < 0.001) and families (G = 132.94, d. f. = 18, P < 0.001) of prey. We conclude that otters are potentially selecting prey in the main channel according to their abundance and in inverse proportion to their swimming ability. However, with multiple habitat types that vary in species richness and diversity, it was difficult to determine which prey items otters are selecting for without direct behavioral data on location of foraging. We examined the diet of the northern river otter at the regional and continental scale. We examined 100 publications and 106 prey lists in order to determine the food habits of the northern river otter among ecoregions and seasons. Fish was found to occur in otter diet more often than any other class of prey, followed by malacostracans. At the family level, Astacoidea contributed more to otter diet than any other family of prey. Multiple classes and families varied by ecoregion and/or by season. Crayfish, while not the primary component of otter prey throughout North America, was found to be the primary component when readily available. Furthermore, we developed a model of river otter prey selection which includes factors that may have an impact on the availability of prey to otters. Otter prey selection is likely due to a variety of factors, including the habitat, detectability, catchability, and palatability of prey.
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Polycyclic Aromatic Hydrocarbon Characterization in Otter Creek, Northwest OhioBobak, Deanna M. 14 June 2010 (has links)
No description available.
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Observer error in identifying species using indirect signs: analysis of a river otter track survey techniqueEvans, Jonah Wy 17 September 2007 (has links)
Indirect signs of species presence (e.g., tracks, scats, hairs) are frequently used to
detect target species in occupancy, presence/absence, and other wildlife studies. Indirect
signs are often more efficient than direct observation of elusive animals, making such
signs well suited for long-term and broad-scale monitoring programs. However, error
associated with misidentification of indirect signs can be high, and should be measured
if meaningful inferences about population parameters are to be made. This study
addressed the need for systematic approaches to estimate and minimize variation due to
observer error in identifying indirect signs. I reanalyzed data from 4 replicates of a
presence/absence survey of northern river otters (Lontra canadensis) that had been
conducted by Texas Parks and Wildlife Department (1996-2003). Sixteen observers had
recorded tracks at sample points under bridges (n = 250) distributed throughout 27
counties in the Piney-Woods ecoregion of east Texas. My objectives were to 1)
determine if observers were a source of bias in the survey, 2) estimate the proportion of
error associated with track identification skill, and 3) evaluate the use of an international
certification procedure that measured observer tracking skill. The null hypothesis that observers had no effect on the variation in reported sign was rejected. Indeed, binary
logistic regression tests indicated that observers were significantly associated with
variation in reported track presence. Observers were not randomly distributed among
bridge sites, and therefore were significantly correlated with 4 habitat variables that may
have influenced heterogeneity in otter occupancy and probability of detection
(watershed, vegetation-type, water-type, bridge-area). On average, experienced
observers (n = 7) misidentified 44% of otter tracks, with a range of 0% to 100% correct
detection. Also, 13% of the tracks of species determined to be 'otter-like' were
misidentified as belonging to an otter. During the certification procedure, participants
misidentified the tracks of 12 species as otter. Inaccurate identification of indirect signs
is a likely source of error in wildlife studies. I recommend that observer skill in
identification of indirect signs be measured in order to detect and control for observer
bias in wildlife monitoring.
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Reintroduction of the Eurasian otter (Lutra lutra) in Muga and Fluvià basins (north-eastern Spain): viability, development, monitoring and trends of the new populationSaavedra Bendito, Deli 10 June 2003 (has links)
Aquesta tesi es basa en el programa de reintroducció de la llúdriga eurasiàtica (Lutra lutra) a les conques dels rius Muga i Fluvià (Catalunya) durant la segona meitat dels 1990s. Els objectius de la tesi foren demostrar la viabilitat de la reintroducció, demostrar l'èxit de la mateixa, estudiar aspectes ecològics i etològics de l'espècie, aprofitant l'oportunitat única de gaudir d'una població "de disseny" i determinar les probabilitats de supervivència de la població a llarg termini.La reintroducció de la llúdriga a les conques dels rius Muga i Fluvià va reeixir, doncs l'àrea geogràfica ocupada efectivament es va incrementar fins a un 64% d'estacions positives a l'hivern 2001-02. La troballa de tres exemplars adults nascuts a l'àrea de reintroducció és una altra prova que valida l'èxit del programa.La densitat d'exemplars calculada a través dels censos visuals ha resultat baixa (0.04-0.11 llúdrigues/km), però s'aproxima al que hom pot esperar en els primers estadis d'una població reintroduïda, encara poc nombrosa però distribuïda en una gran àrea.La mortalitat post-alliberament va ser del 22% un any després de l'alliberament, similar o inferior a la d'altres programes de reintroducció de llúdrigues reeixits. La mortalitat va ser deguda principalment a atropellaments (56%).El patró d'activitat de les llúdrigues reintroduïdes va esdevenir principalment nocturn i crepuscular, amb una escassa activitat diürna. Les seves àrees vitals van ser del mateix ordre (34,2 km) que les calculades en d'altres estudis realitzats a Europa. La longitud mitjana de riu recorreguda per una llúdriga durant 24 hores va ser de 4,2 km per les femelles i 7,6 km pels mascles. Durant el període de radioseguiment dues femelles van criar i els seus moviments van poder ser estudiats amb deteniment. La resposta de la nova població de llúdrigues a les fluctuacions estacionals en la disponibilitat d'aigua, habitual a les regions mediterrànies, va consistir en la concentració en una àrea menor durant el període de sequera estival, a causa de l'increment de trams secs, inhabitables per la llúdriga per la manca d'aliment, fet que va provocar expansions i contraccions periòdiques en l'àrea de distribució.La persistència a llarg termini de la població reintroduïda va ser estudiada mitjançant una Anàlisi de Viabilitat Poblacional (PVA). El resultat va ser un baix risc d'extinció de la població en els propers 100 anys i la majoria dels escenaris simulats (65%) van assolir el criteri d'un mínim de 90% de probabilitat de supervivència. Del model poblacional construït es dedueix que un punt clau per assegurar la viabilitat de la població reintroduïda és la reducció de la mortalitataccidental. A l'àrea d'estudi, els atropellaments causen més del 50% de la mortalitat i aquesta pot ser reduïda mitjançant la construcció de passos de fauna, el tancament lateral d'alguns trams de carretera perillosos i el control de la velocitat en algunes vies.El projecte de reintroducció ha posat a punt un protocol per a la captura, maneig i alliberament de llúdrigues salvatges, que pot contenir informació útil per a programes similars. També ha suposat una oportunitat única d'estudiar una població dissenyada artificialment i poder comparar diversos mètodes per estimar la distribució i la densitat de poblacions de llúdrigues.Per últim, la reintroducció portada a terme a les conques dels rius Muga i Fluvià ha aconseguit crear una nova població de llúdrigues, que persisteix en el temps, que es reprodueix regularment i que es dispersa progressivament, fins i tot a noves conques fluvials. / This thesis deals with an otter reintroduction program carried out in the Muga and Fluvià basins in North-eastern Spain during the second half of the 1990s. The objectives of the thesis were to demonstrate the viability of the reintroduction, to demonstrate the success, to study ecological and behavioural aspects of the species, that have in the reintroduction an unique opportunity to dispose of a "designed" population and to determine long-term survival rates of the reintroduced population.Reintroduction of the otter in the Muga and Fluvià basins succeeded, because the geographical area occupied by the otter increased to 64% of positive otter stations in winter 2001-02. The finding of three adult otters born in the reintroduction area is further proof to support the success of the reintroduction program.Density values found through visual censuses were low (0.04-0.11 otters/km), but they approached what could be expected in the first stages of a reintroduced population, still small but extended over a wide area.Post-release mortality was 22% one year after release, similar to or lower than successful otter reintroduction programs. Mortality was due mainly to traffic (56%).The activity pattern of the reintroduced otters proved mainly nocturnal and crepuscular, with scarce diurnal activity. The ranges of the reintroduced otters were of the same order (34.2 km) as those found in other studies in Europe. Mean length of waterway used by an otter during 24 hours was 4.2 km for females and 7.6 km for males. During radiotracking two females bred and their movements could be followed intensively. The response of the reintroduced otter population to high seasonal fluctuations in water availability, typical in Mediterranean regions, consisted of concentration in a smaller area during summer droughts, due to the increase of dry stretches which were uninhabitable for the otter because of lack of food, and so caused periodical expansions and contractions in the otter population's range.Long-term persistence of the reintroduced population was studied through a Population Viability Analysis (PVA). The result was low risk of extinction in the next 100 years, with most scenarios (65%) meeting the criterion of a minimum of 90% probability of survival. Population modeling highlighted the importance of preventing road kills, which cause more than 50% of otter mortality, through the construction of fauna passages, the fencing of some dangerous road stretches and the use of speed restrictions.The Girona Reintroduction Otter Project tuned a protocol for trapping, handling and releasing wild otters that can provide useful information for similar programs. It also represented a unique opportunity to study an artificially designed population and to compare several methods of estimating otter distribution and density.Finally, the reintroduction carried out in the Muga and Fluvià basins has achieved the creation of a new otter population, that persists over time, reproduces regularly and is gradually dispersing, even to new river basins.
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