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Efficacy of Using Environmental DNA (eDNA) to Detect Kirtland’s Snakes (Clonophis kirtlandii)Rikki Ratsch (5931176) 17 January 2019 (has links)
<p>Environmental DNA (eDNA) surveys
utilize DNA shed from animals in order to detect their presence. Since it was
developed, this technique has been applied to numerous species across several
taxa. In some cases, it has been shown to be superior to traditional survey
methods at detecting rare or cryptic species. It allows for the detection of
animals in low numbers and does not require direct capture of an animal. This
allows eDNA to be more effective at detecting rare or cryptic species that
require high survey effort to find. This often reduces survey costs as many eDNA
samples can be collected quickly with little equipment required.</p>
<p>The Kirtland’s Snake (<i>Clonophis kirtlandii</i>) is a small Natricine
snake endemic to the Midwest. It is a species of conservation concern since it
is threatened throughout its range. Due to its cryptic and fossorial lifestyle,
it is also a notoriously difficult snake to survey. This has resulted in a poor
understanding of Kirtland’s Snake life history and population status. Applying
eDNA surveys to this species may increase detection probability, offering a
more efficient way to survey for them. </p>
<p>In this study, a
quantitative PCR (qPCR) assay was designed and tested alongside traditional
coverboard surveys. The assay had a limit of detection of 166 copies of
Kirtland’s Snake DNA. In crayfish burrow sediment, eDNA was found to be
detectable up to 10 days and may persist for up to 25 days. However, only one
detection occurred out of 380 field samples. Coverboard surveys revealed
temporal and spatial variation in Kirtland’s Snake abundance. More snakes were
captured in the spring, during the first field season, and at the south
coverboard transects. Kirtland’s Snake abundance was also found to be related
to the presence of grass and herbaceous vegetation as well as close proximity
to shrubs. Comparing survey methods, coverboards resulted in far better snake
detection, suggesting that eDNA does not offer an advantage over traditional
survey methods for this species. </p>
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Análise combinada do transcriptoma de glândula de veneno e do proteoma do veneno da espécie Pseudonaja textilis (Elapidae : Serpentes) / Combined transcriptomic ana proteomic analysis of Pseudonaja textilis venom (Elapidae: Serpentes)Vincent Louis Viala 26 May 2014 (has links)
As toxinas de veneno de serpentes têm como principal função alterar a homeostase das presas para fins de alimentação ou defesa. O estudo aprofundado da composição do veneno de serpentes é importante para a produção de soros antiofídicos mais eficientes, para a descoberta de novos fármacos e na compreensão de processos biológicos, ecológicos e evolutivos. As pesquisas com toxinas têm mostrado uma versatilidade natural, refinada pela evolução, na diversificação de funções em famílias de proteínas recrutadas de suas funções endógenas, por meio de sucessivas duplicações e acumulo de mutações levando a uma evolução acelerada. A miríade de toxinas disponíveis e sua diversidade de funções ainda não foram completamente descritas. A combinação das análises em larga escala do transcriptoma de novo da glândula de veneno e do proteoma do veneno permite elaborar um perfil mais completo do toxinoma do veneno, permitindo inclusive um aumento na sensibilidade da detecção de toxinas pouco representadas e inesperadas nos venenos. O objetivo geral deste estudo foi analisar o toxinoma do veneno de uma das mais perigosas espécies australianas, a Pseudonaja textilis (Elapidae). Foi possível identificar no veneno as toxinas: fatores de coagulação de veneno do complexo protrombinase, subunidades de fosfolipases A2 (PLA2) da neurotoxina textilotoxin e PLA2 de atividade procoagulante, neurotoxinas tipo three-finger toxin (3FTx), inibidores de protease do tipo-kunitz textilinin, e pela primeira vez, uma nova variante de 3FTx, lectinas tipo C, CRiSP além de indícios de toxinas de lagarto Heloderma e outras proteínas candidatas a toxinas como calreticulin e dipeptidase 2. Metaloproteinases, pouco estudadas em Elapidae, foram clonadas e detectadas no veneno por ensaios de fracionamento e imunoreatividade. A análise do transcriptoma identificou novas isoformas e variantes de toxinas, principalmente das 3FTx e dos inibidores de serinoproteases, assim como transcritos de toxinas que não foram detectadas no veneno e que merecem mais investigações. O quadro de sintomas com acidentes em humanos é bem explicado pelas toxinas identificadas, porém, em seu habitat natural, as toxinas pouco conhecidas e até então não descritas devem ter funções importantes e específicas na predação. Identificar esta diversidade de variantes é importante para entender o modo de ação das toxinas. / Snake venom toxins alter prey homeostasis for feeding or defense. In depth studies of venom composition are important for better antivenom production, for new drugs lead and discovery and for better understanding of biological, ecological and evolutionary processes. Research on toxins have shown the natures way of innovating, refined by evolution, diversifying functions of protein families recruited from their endogenous function to the venom gland by successive gene duplication and mutation accumulation, leading to an accelerated evolution. A myriad of available toxins and diversity of functions is still available for discovery. Combining high throughput techniques such as venom gland de novo transcriptomics and venom proteomics, one can assess and observe a more complete profile of the snake toxinome, additionally allowing an upscale in low represented and unexpected toxin detection. The aim of this project was to investigate the venom toxinome of one of the most dangerous Australian species, Pseudonaja textilis (Elapidae). The toxins identified in it venom was: protrombinase complex coagulation factors, neurotoxic textilotoxin phospholipase A2 (PLA2) subunits and procoagulant PLA2, neurotoxic three-finger toxins (3FTx), Kunitz-type protease inhibitor textilinin, and for the first time, a new long 3FTx, C-type lectins, CRiSPs, as well as evidences of lizard toxins from Heloderma genus and other toxin candidates calreticulin and dipeptidase 2. Metalloproteinases, little investigated in Elapidae, was cloned and detected in the venom after fractionation and immunoassay. The transcriptome revealed new toxin variants and isoforms, specially 3FTx and serine protease inhibitors, as well as transcripts from toxins not detected in the venom that deserves further investigation. Human accident symptoms are well explained by the identified toxins, however, in its natural environment, little known and undescribed toxins must have specific and important role in predation. Identifying this diversity is important to better understand toxins ways of action.
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Purificação e caracterização de inibidores de proteases de veneno de Bitis gabonica rhinoceros com potencial farmacológico / Purification and characterization of proteases inhibitors of Bitis gabonica rhinoceros venom with pharmacological potencialTamara Mieco Fucase 17 May 2016 (has links)
Os venenos de serpentes são complexas misturas de proteínas e peptídeos que apresentam uma variedade de atividades biológicas. Estudos apontam para uma rica diversidade de moléculas bioativas de baixa massa molecular nos venenos, como a crotamina, miotoxina A, peptídeos potenciadores de bradicinina (BPPs) inibidores do tipo Kunitz de serinopeptidases e tripeptídeos inibidores de metalopeptidases. O interesse nestas moléculas está relacionado ao potencial uso como agentes terapêuticos contra diversas patologias, como distúrbios da coagulação e modulação da atividade de metalopeptidases, moléculas estas envolvidas com tumorigenêse e outros processos patológicos como inflamação crônica e distúrbios neurológicos. O veneno da serpente Bitis gabonica rhinoceros provoca alterações fisiopatológicas como severa desordem na coagulação sanguínea e danos teciduais seguidos de necrose. No presente estudo foram isoladas e caracterizadas metalopeptidases e serinopeptidases, além de componentes de baixa massa molecular como inibidor do tipo Kunitz e BPPs. Estes peptídeos foram testados quanto a sua capacidade inibitória frente as peptidases endógenas e sequenciados por espectrometria de massa. Os nossos dados mostram que as peptidases isoladas degradam caseína e não tem atividade sobre colágeno. A serinopeptidase tem atividade β-fibrinogenolítica e o inibidor tipo Kunitz isolado apresenta maior capacidade de inibir a quimotripsina, com valor de Ki= 0,07 μM, mostrando-se um promissor substituto ao fármaco aprotinina. Este peptídeo apresentou também atividade citotóxica em células B16F10 e tênue atividade antimicrobiana. Dentre os BPPs identificados, o peptídeo que possui sequência não canônica apresentou a capacidade de potencializar a ação da bradicinina tanto em ensaio edematogênico quanto de inibição da atividade enzimática da enzima conversora de angiotensina. Esses resultados indicam o potencial de peptídeos de venenos animais para o desenvolvimento de novos agentes terapêuticos para o tratamento de enfermidades como hipertensão e distúrbios de coagulação. / Snake venoms are complex mixtures of proteins and peptides with a wide array of activities. Some studies point towards a vast diversity of low molecular mass bioactive molecules in venoms such as crotamine, myotoxin A, bradykinin potentiating peptides (BPPs), Kunitz type serine peptidase inhibitors and tripeptides inhibiting metallopeptidases. The interest on these molecules is related to their potential use as therapeutic drugs against several pathologies such as coagulation disturbs and modulation of the activity of metallopeptidases, involved in tumorigenesis and other disease like chronical inflammation and neurological disorders. The venom of Bitis gabonica rhinoceros promotes severe blood clotting disorders and tissular damages followed by necrosis. In the present study we isolated and characterized metallo and serine-peptidases, as well as as low molecular mass components such as Kunitz inhibitors and BPPs. Those peptides were assayed for their ability to inhibit the venom ednogenous peptidases and were sequenced by mass spectrometry. Our data indicate that the isolated peptidases hydrolyze casein, but not gelatin, indicating that they have no activity on collagen. The isolated serine protase has β-fibrinogenolytic activity and is not inhibited by the endogenous Kunitz peptide isolated from the venom. The Kunitzlike peptide inhibits preferentially chymotrypsin with a Ki of 0.07 μM and appears as a promising substitute for the commercial drug aprotinin. Among the three bradykinin potentiating peptides, two displayed non-canonical sequences, a fact that might represent an interesting field for new studies for the development of new anti-hypertensives. Although displaying mutations in highly conserved regions, the non-canonical BPP potentialized bradykinin in both edematogenic and angiotensin converting enzyme inhibition assays. These results indicate the potential of animal venom peptides for the development of new drugs against Diseases such as hypertension and coagulopathies.
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Análise combinada do transcriptoma de glândula de veneno e do proteoma do veneno da espécie Pseudonaja textilis (Elapidae : Serpentes) / Combined transcriptomic ana proteomic analysis of Pseudonaja textilis venom (Elapidae: Serpentes)Viala, Vincent Louis 26 May 2014 (has links)
As toxinas de veneno de serpentes têm como principal função alterar a homeostase das presas para fins de alimentação ou defesa. O estudo aprofundado da composição do veneno de serpentes é importante para a produção de soros antiofídicos mais eficientes, para a descoberta de novos fármacos e na compreensão de processos biológicos, ecológicos e evolutivos. As pesquisas com toxinas têm mostrado uma versatilidade natural, refinada pela evolução, na diversificação de funções em famílias de proteínas recrutadas de suas funções endógenas, por meio de sucessivas duplicações e acumulo de mutações levando a uma evolução acelerada. A miríade de toxinas disponíveis e sua diversidade de funções ainda não foram completamente descritas. A combinação das análises em larga escala do transcriptoma de novo da glândula de veneno e do proteoma do veneno permite elaborar um perfil mais completo do toxinoma do veneno, permitindo inclusive um aumento na sensibilidade da detecção de toxinas pouco representadas e inesperadas nos venenos. O objetivo geral deste estudo foi analisar o toxinoma do veneno de uma das mais perigosas espécies australianas, a Pseudonaja textilis (Elapidae). Foi possível identificar no veneno as toxinas: fatores de coagulação de veneno do complexo protrombinase, subunidades de fosfolipases A2 (PLA2) da neurotoxina textilotoxin e PLA2 de atividade procoagulante, neurotoxinas tipo three-finger toxin (3FTx), inibidores de protease do tipo-kunitz textilinin, e pela primeira vez, uma nova variante de 3FTx, lectinas tipo C, CRiSP além de indícios de toxinas de lagarto Heloderma e outras proteínas candidatas a toxinas como calreticulin e dipeptidase 2. Metaloproteinases, pouco estudadas em Elapidae, foram clonadas e detectadas no veneno por ensaios de fracionamento e imunoreatividade. A análise do transcriptoma identificou novas isoformas e variantes de toxinas, principalmente das 3FTx e dos inibidores de serinoproteases, assim como transcritos de toxinas que não foram detectadas no veneno e que merecem mais investigações. O quadro de sintomas com acidentes em humanos é bem explicado pelas toxinas identificadas, porém, em seu habitat natural, as toxinas pouco conhecidas e até então não descritas devem ter funções importantes e específicas na predação. Identificar esta diversidade de variantes é importante para entender o modo de ação das toxinas. / Snake venom toxins alter prey homeostasis for feeding or defense. In depth studies of venom composition are important for better antivenom production, for new drugs lead and discovery and for better understanding of biological, ecological and evolutionary processes. Research on toxins have shown the natures way of innovating, refined by evolution, diversifying functions of protein families recruited from their endogenous function to the venom gland by successive gene duplication and mutation accumulation, leading to an accelerated evolution. A myriad of available toxins and diversity of functions is still available for discovery. Combining high throughput techniques such as venom gland de novo transcriptomics and venom proteomics, one can assess and observe a more complete profile of the snake toxinome, additionally allowing an upscale in low represented and unexpected toxin detection. The aim of this project was to investigate the venom toxinome of one of the most dangerous Australian species, Pseudonaja textilis (Elapidae). The toxins identified in it venom was: protrombinase complex coagulation factors, neurotoxic textilotoxin phospholipase A2 (PLA2) subunits and procoagulant PLA2, neurotoxic three-finger toxins (3FTx), Kunitz-type protease inhibitor textilinin, and for the first time, a new long 3FTx, C-type lectins, CRiSPs, as well as evidences of lizard toxins from Heloderma genus and other toxin candidates calreticulin and dipeptidase 2. Metalloproteinases, little investigated in Elapidae, was cloned and detected in the venom after fractionation and immunoassay. The transcriptome revealed new toxin variants and isoforms, specially 3FTx and serine protease inhibitors, as well as transcripts from toxins not detected in the venom that deserves further investigation. Human accident symptoms are well explained by the identified toxins, however, in its natural environment, little known and undescribed toxins must have specific and important role in predation. Identifying this diversity is important to better understand toxins ways of action.
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A influência da temperatura no comportamento defensivo em Tomodon dorsatus (Serpente, Dipsadidae) / The influence of temperature on the defensive behavior in Tomodon dorsatus (Serpente, Dipsadidae)Citadini, Jessyca Michele 25 March 2011 (has links)
Os vertebrados tetrápodes e ectotérmicos possuem a temperatura do corpo variável de acordo com a temperatura do ambiente. Estudos abordando lagartos e serpentes demonstram que diversos comportamentos ou funções dos vertebrados ectotérmicos sofrem direta ou indiretamente influência da temperatura na adequação biológica (fitness) (BARTHOLOMEW, 1982; HUEY, 1982; LILLYWHITE, 1987, MORI; BURGHARDT, 2001). O comportamento antipredatório constitui um caso especial dos comportamentos sabidamente influenciados pela temperatura, pois parece sofrer diversos tipos de alterações em diferentes grupos de tetrápodes ectotérmicos, como salamandras (BRODIE JR.; DUCEY; LEMOS-ESPINAL, 1991), anfíbios anuros (GOMES; BEVIER; NAVAS, 2002), lagartos (RAND, 1964; HERTZ; HUEY; NEVO, 1982; CROWLEY; PIETRUSZKA, 1983) e serpentes (FITCH, 1965; HERCKROTTE,1967; ARNOLD; BENNETT, 1984; SCHIEFFELIN; QUEIROZ, 1991; KEOGH; DESERTO, 1994; MORI; BURGHARDT, 2001). Esses estudos mostram que a temperatura pode afetar as repostas comportamentais tanto em termos de magnitude quanto de qualidade, o que permite supor que as mudanças no tipo de comportamento com a temperatura sejam consistentes com os efeitos da temperatura sobre o desempenho comportamental. O atual estudo testou, mediante uma análise do comportamento, a serpente Tomodon dorsatus (Dipsadidae) em diferentes temperaturas corpóreas, quando exposta a um estímulo externo simulando um ataque predatório. Esta espécie foi escolhida por apresentar um rico repertório defensivo (BIZERRA, 1998). Para as análises, os comportamentos defensivos foram classificados em dois grandes grupos: agressivos e passivos ou de escape, conforme o comportamento apresentado no momento do estímulo. No decorrer do estudo, foi observado que alguns animais eram excessivamente agressivos enquanto que outros eram extremamente propensos à fuga. Por isso, além da classificação inicial, foi feita outra análise que consistiu em classificar os indivíduos em dois grandes grupos: DPA (defesa por agressão) e FCP (defesa via fuga ou comportamento passivo). Neste estudo, observamos que houve uma grande variação individual no que se refere ao comportamento antipredador e essa diferença entre os indivíduos parece ser mais significante quando comparada à variação eventualmente induzida pela temperatura. / Tetrapodes and ecotermicos vertebrates have a variable body temperature according to the temperature of the environment. Studies addressing lizards and snakes show that several behavior and functions of ectotermicos vertebrates suffer directly or indirectly influence of temperature on biological adequacy (fitness) (BARTHOLOMEW, 1982; HUEY, 1982; LILLYWHITE, 1987, MORI; BURGHARDT, 2001). Anti-predatory behavior constitutes a special case among behaviors influenced by temperature, because it seems to suffer from various types of changes in different groups of tetrápodes ectotermicos as salamanders (BRODIE JR.; DUCEY; LEMOS-ESPINAL, 1991), anuros amphibians (GOMES; BEVIER; NAVAS, 2002), lizards (RAND, 1964; HERTZ; HUEY; NEVO, 1982; CROWLEY; PIETRUSZKA, 1983), and snakes (FITCH, 1965; HERCKROTTE,1967; ARNOLD; BENNETT, 1984; SCHIEFFELIN; QUEIROZ, 1991; KEOGH; DESERTO, 1994; MORI; BURGHARDT, 2001).These studies show that the temperature affects behavioral responses both in terms of magnitude and quality, which suggests that the changes on the type of behavior with temperature be consistent with the effects of temperature on the behavioral performance. The current study tested through an analysis of the behavior Tomodon dorsatus snake (Dipsadidae) at different body temperatures when exposed to an external stimulus simulating a predatory attack. This species was chosen because it presents an enriched defensive repertoire (BIZERRA, 1998). For analysis, the defensive behaviors were classified into two main groups: \"aggressive\" and \"passive or escape as the behavior exhibited when the stimulus. During the study, it was observed that some animals were overly aggressive while others were extremely prone to flight. Therefore, besides the initial classification was made a separate analysis was to classify individual in two groups: DPA and FCP. This division that was useful to analyze the influence of temperature in different animals in their degree of aggressiveness. In this study we found that there was great individual variation in relation to antipredator behavior and the difference between individuals appears to be more significant when compared with the variation may be induced by temperature
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Investigating Patterns of Fluvial Form and Incision Near the Yellowstone Hotspot — Alpine Canyon of the Snake River, WyomingTuzlak, Daphnee 01 May 2017 (has links)
The Snake River flows across the dynamically uplifting hotspot plume of the Yellowstone region, cuts through the Snake River Range and ultimately enters the lowlying eastern Snake River Plain. Thermal and mantle-dynamic uplift around Yellowstone has been recorded by short-term geodesy and modeled by geophysicists, but measurements over Quaternary timescales and an understanding of how that uplift influences regional incision are absent. The Snake River is the only regional river that crosses the uplifting Yellowstone Plateau and flows into the subsiding eastern Snake River Plain (SRP), and provides an opportunity to investigate both ends of the phenomenon on the tailing margin of the Yellowstone region.
This thesis consists of two related studies conducted in Alpine Canyon of the Snake River. The first is a study of fluvial terraces and steepness patterns along the Snake River considering the spatial distribution of bedrock or varying hardness and resistance to erosion and in the context of regional tectonics. This study uses surficial mapping, optically stimulated luminescence (OSL) dating, bedrock strength measurements, and steepness analyses of the mainstem Snake River and tributary drainages. Results include the first incision rate estimates for the southwestern part of the Yellowstone hotspot region and a discussion of the possible sources of baselevel fall along the Snake River.
The second study documents the transitions between bedrock and alluvial channels in the study area and evaluates morphometric and transport capacity thresholds between these reaches. Alluvial bed-cover mapping with a side-scan sonar along with channel morphometric data, clast-counts, and sediment transport estimates allow us to explore what controls these two fundamental channel types.
Results confirm that the Snake River has relatively fast incision rates for the interior western U.S. and that the Snake River is adjusting to an actively deforming landscape. Additionally, our dataset provides field documentation of the magnitude of bedrock-alluvial transitions and may be valuable for parameterizing landscape evolution models or assisting in the restoration of reaches that are in disequilibrium due to changes in land use or climate. This study will hopefully inspire future studies of tectonism and landscape evolution of the Yellowstone hotspot region.
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Genetic Status of Isolated Populations of Colorado River Cutthroat Trout (Oncorhynchus clarkii pleuriticus) in the North Fork Little Snake River Drainage, WyomingVan Horne, Rachel 01 December 2011 (has links)
Accidental conservation isolation characterizes a situation when a barrier created for a non-conservation purpose happens to fragment a population that now holds conservation value. This study established baseline genetic structure for the isolated populations of Colorado River cutthroat trout in the North Fork Little Snake River drainage, Wyoming. In many cases of accidental isolation, the populations above the barriers have limited habitat and small population sizes that make them vulnerable to extinction and may hold evolutionary value to the species as a whole. All the isolated populations in the drainage currently have high genetic differentiation among tributaries, low genetic diversity within each tributary, a suggestion of isolation by distance, and effective population sizes that are below the recommendation for long- term persistence. This structure represents natural and anthropogenic influences, but the presence of the human-constructed barriers in the headwater tributaries puts the larger core conservation group at risk into the future. Although the genetic diversities within the populations are low, the high genetic differentiations among populations suggest that each population may have its own unique contribution to the evolutionary value to the drainage as a whole and each is important to conserve into the future.
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Plant Demographics Studies of Tall Threetip Sagebrush-Grass Vegetation on the Eastern Snake River Plains, IdahoRea, Kenneth Harold 01 May 1976 (has links)
It has commonly been assumed that grazing decreases the longevity of plants, however, very few studies address this question. Knowledge of mean age, longevity and other aspects of population dynamics would help improve estimates of productivity and nutrient cycling and aid understanding of range condition and trend. These data would also aid in developing a theory of community organization and control.
As a step toward these ends, pantograph records from twelve 1 m2 plots established at the U. S. Sheep Station on the Snake River Plains of southeastern Idaho between 1923 and ' l935 were examined. The plots were mapped almost yearly until 1956. These records were analyzed for establishment and survival of populations of major vascular, perennial plant species of the tall threetip sagebrush-grass vegetation type.
Average longevities of the grazed plants were significantly different from ungrazed populations for some species. For the pastures grazed by sheep in the fall the average longevities of the dominant grass and two subdominant grasses were increased whereas the average longevity of tall threetip sagebrush was reduced by grazing. The differences in average longevity due to grazing are thought due to alteration of competitive relationships. The photosynthetically active sagebrush is sensitive to grazing in the fall whereas the grasses are dormant. A slight reduction in the total volume of the sagebrush apparently releases resources to the grasses the following spring.
The greatest mortality was observed during the first year of life for all species . Survivorship curves for the first eleven years of life of most species could be linearized by logarithmic transformations on both axes indicating that the chance for survival improved with age, up to the physiological maximum.
No linear relationships of increasing size to age were found in these plants. This indicates a considerable plasticity in the growth characteristics of these plants, where in poor years negative growth can occur by the reduction of unsupportable biomass. This all ows plant size to fluctuate with fluctuating environment, and allows for stands of even sized plants with great age differences.
Labeling recruitment to these plant populations as "pulse" phenomena becomes a matter of definition. If a log-normal distribution is expected, as indicated by some researchers, outliers are not present and "pulse" regeneration does not occur in this system. However, if recruitment is expected to follow a normal distribution then the years with high numbers of seedlings become "pulses," by definition.
From these analyses, it appears that these semi-desert communities are closed (the available resources are totally used) and replacement of individuals is somewhat random following more or less random death.
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On Green PythonsWilson, David John Dowling, david.wilson@aad.gov.au January 2007 (has links)
The green python Morelia viridis is a most striking animal. Individuals are born either brick red or bright yellow and both colours change to green as adults. These colours and the remarkable colour change have long made them of interest to biologists
and in demand for the pet trade. Despite this interest nothing is known of their distribution, biology or ecology in the wild. Here I address this knowledge gap by presenting results from the first detailed study of the species, at Iron Range on eastern Cape York Peninsula, Australia.¶
Individual growth was described by the von Bertalanffy growth curve, with a
maximum predicted size of 1.35 metres snout-vent length. Males matured at 2.4 years and females at 3.6 years, and growth was indeterminate after approximately 12 years. The colour change from yellow to green occurs at 55 centimetres, which corresponds to
individuals approximately a year old. There was no sexual dimorphism in adults,
however juvenile females had larger heads than juvenile males. Adult sized individuals
comprised ~50% of the population.¶ Females had a home range of 6.2 ± 1.9 ha (mean ± SE), which was positively correlated with their snout-vent length. Males adopted a roaming strategy through suitable habitat while juveniles were restricted to areas where more light reached the ground. There was overlap between multiple female home ranges, and between female home ranges and the movement paths of males. There were no differences in the distances moved by males and females of any size, although the variation in movement distances was greater in the dry season than the wet season.¶
Green pythons are obligate ambush predators which eat a variety of prey. They show an ontogenetic shift from invertebrates and terrestrial, diurnal reptiles to birds and terrestrial, nocturnal mammals. This diet change is concurrent with a shift in the time of hunting, and the location and characteristics of ambush sites. Yellow individuals were
usually found within ten metres of the ground, while green individuals used the full vegetation strata and were often found in the canopy.¶
The three colour morphs of the green python appear to be adaptive for
camouflage rather than intraspecific communication, as conspicuousness of each morph was always greater to a predator than to that of a conspecific. Using advanced light analysis techniques I show that each colour morph is adaptive for camouflage from visually orientated avian predators under different environmental conditions. Yellow and red morphs are half as conspicuous as green individuals would be in locations near the ground where juveniles hunt during the day. Green was the least conspicuous
morph in only the canopy, where it was half as conspicuous as either the red or yellow morph. In both leafy and non-leafy sub-canopy environments green individuals were more conspicuous than both yellow and red morphs. Red morphs were least conspicuous in only the non-leafy sub-canopy environment. The conspicuousness of green males decreased with age, but this was not the case with green females. Predation of plasticine models of the three colour morphs showed that red models were ten times more likely to be predated than either green or yellow morphs, however the model colours did not always match the real morph colours.¶
There is a large predicted global distribution in Papua New Guinea, including some offshore islands, however the Australian range is restricted to small areas of eastern Cape York Peninsula. In Australia green pythons occurred in nine regional ecosystems, with most records for the closed semi-deciduous mesophyll vine forest ecosystem. A mark-recapture study at Iron Range captured 101 individuals 147 times over two wet seasons, which equates to a population size of 227 ± 81 individuals in the study area of 51 hectares. Based on the known population structure at this site only 114
(or 50%) of these individuals are adult. Although green pythons have a high density at the one intensely studied site and are predicted to occur over a large geographic area, my data are insufficient to conclude that the species is not vulnerable.
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Airbag tracking with enhanced feature detection and an active contour / Airbagföljning med förbättrad egenskapsdetektering och en aktiv konturLarsson, Pär January 2003 (has links)
<p>This thesis develops an algorithm for tracking the boundary of an airbag throughout an image sequence. The algorithm is designed to work even if various problematic features, e.g. objects in the background, are present in the image. The work is built on an existing commercially available image processing and analysis suite targeted at the automotive industry. The software suite runs on standard PC hardware. </p><p>Firstly, improvements to the airbag tracking algorithm already available in the suite are considered. Testing reveals that these measures are not sufficient to overcome the problems posed by the problematic image sequences. </p><p>A new tracking algorithmis then proposed. It consists of a Canny edge detector, optional steps to enhance feature detection by removing edges in the background and edges interior to the boundary of the airbag and finally an active contour. The role of the active contour is to produce a closed curve while imposing smoothness constraints on the detected boundary. The active contour is in each frame initialized by linearly extrapolating the contour from previous frames. </p><p>The algorithm works very well and it is fast enough to run on slower machines than was initially targeted.</p>
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