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Anatomical and functional changes between terrestrial varanoid lizards and aquatic mosasaursDebraga, Michael January 1990 (has links)
The transition between terrestrial varanoid lizards and aquatic mosasaurs through the intermediate, semi-aquatic aigialosaurs is fully documented. Aigialosaurs are shown to possess a mosaic of mosasaurian (configuration of the skull, jaw and tail) and terrestrial varanoid characters (appendicular skeleton and trunk). / The taxonomic position of the Aigialosauridae within the superfamily Varanoidea is evaluated. Based on character states previously used to define the Varanoidea, neither the specific affinities of aigialosaurs nor the sister-group relationships of earlier members of the terrestrial varanoid assemblage can be securely established. For this reason, the specific character states involved have been reexamined and alternative hypotheses of relationship have been considered.
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Anatomical and functional changes between terrestrial varanoid lizards and aquatic mosasaursDebraga, Michael January 1990 (has links)
No description available.
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Evolution of locomotion in Australian Varanid lizards (Reptilia: Squamata: Varanidae) : ecomorphological and ecophysiological considerationsClemente, Christofer January 2006 (has links)
[Truncated abstract] In ecomorphological or ecophysiological studies, variation in `design? traits (e.g. size, morphology and physiology) is thought to determine variation in ecologically-relevant performance traits, which in turn determines fitness in a particular habitat (Arnold 1983). Thus, natural selection is thought to act most directly on intermediate traits such as measures of locomotory performance. This thesis examined this process in the closely related group of Australian varanids lizards (Squamata: Varanidae). Phylogenetically, varanids are divided into three major clades. Size (mass and snout-to-vent length) is strongly correlated with these three clades. Two clades, (Gouldii and Komodoensis) are large, while the third clade (Odatria) has a smaller body size. Thus, there is considerable variation in size for various species. Size varied for species by three orders of magnitude. Size is also related to two ecological characteristics, foraging mode and habitat openness. Widely-foraging species were larger than sit-and-wait strategists, while species from open habitats were larger than species from semi-open or closed habitats. However, given the tight link between size and phylogeny we cannot separate adaptation of size to ecological traits from that of phylogenetic patterns. Of interest throughout this thesis was how variations in design (e.g. morphology and physiology) were related to ecological characteristics. Since body size also influences many of these morphological and physiological characteristics it is often necessary to remove the effects of size. Three design traits were examined in detail: body dimensions, vertebral number and metabolic rates. …Curiously, no performance variable linked differences in size-free body dimensions to retreat sites. This suggests that there is either a direct link between design and ecology (e.g. dorso-ventral compression), or some unmeasured performance variable related to retreat site. Given that most performance traits are thought to involve kinematic movements of the hindlimb limb and pelvis, and these were not best related to retreat site, then a direct link between design and ecology with respect to retreat site seems possible. In summary, this thesis provides evidence not only for links between design and ecology mediated by locomotory performance traits, but also direct links between design and ecology, for Australian varanid lizards.
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Beyond fragmentation : lizard distribution patterns in two production landscapes and their implications for conceptual landscape models /Fischer, Joern. January 2004 (has links)
Thesis (Ph.D.)--Australian National University, 2004.
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Comparative studies in the functional morphology of lizard feeding kinematics, behavior, and biomechanics /McBrayer, Lance D. January 2002 (has links)
Thesis (Ph.D.)--Ohio University, August, 2002. / Title from PDF t.p. Includes bibliographical references.
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Cloacal glands of the group-living lizard, Cordylus cataphractus (Sauria: Cordylidae)Alblas, Amanda January 2004 (has links)
Thesis (MSc) -- Stellenbosch University, 2004. / ENGLISH ABSTRACT: Standard histological procedures revealed that there are two types of glands in the
cloacal complex of the viviparous Cordylus cataphractus. These occur in the urodeal
region of the complex (called urodeal glands), and in the posterior proctodeum region
(called proctodeal glands). Urodeal glands are found in females only and differentiate at
sexual maturity. Proctodeal glands occur in both sexes and the dorsal and ventral
proctodeal glands are identical in structure. Seasonal activity in cloacal gland structure
and secretory was studied. Urodeal glands show distinct seasonal variation in
development and secretory activity, they become enlarged in vitellogenic females, remain
active during pregnancy, with glandular activity peaking around parturition. Proctodeal
glands, in contrast, show little or no seasonal variation in development or secretory
activity in both sexes. Secretion quantity, however, is highly variable among individuals
of the same sex, time of year, as well as reproductive stage, but evidently much less in
females than in males. Although the possible functions of the cloacal glands are still
unclear, two main functions are suggested: a) mechanical function such as lubrication or
a substrate for genital products and b) pheromonal communication. I propose that urodeal
glands are involved in some reproductive function rather than in social communication,
because very little secretion is found during the mating season and peak glandular activity
are evident around parturition. The opposite may be true for proctodeal glands, but
further investigation is needed, particularly chemical analysis of secretion and
behavioural manipulation, to determine the role of these glands in social communication. / AFRIKAANSE OPSOMMING: Standaard histologiese tegnieke dui aan dat daar twee tipes kliere voorkom in die
kloakale kompleks van die lewendbarende akkedis, Cordylus cataphractus. Die een
kliertipe word in die urodeale omgewing aangetref en staan bekend as die urodeaalkliere,
terwyl die ander groep in die posterior area van die proktodeum voorkom en
proktodeaalkliere heet. Urodeaalkliere word slegs in wyfies aangetref en ontwikkel eers
na volwassenheid bereik is. Proktodeaalkliere kom in albei geslagte voor en dorsale en
ventrale aspekte van hierdie kliere is identies aan mekaar. Die seisoenale aktiwiteit in
struktuur en sekresie-aktiwiteit van hierdie kloakale kliere is ondersoek in mannetjies en
wyfies wat gedurende verskillende maande van die jaar versamel is en dus in verskillende
voorplantingstadia was. Urodeaalkliere het duidelike seisoenale variasie vertoon wat
beide ontwikkeling van die klier en sekretoriese aktiwiteite betref. Die klier vergroot
tydens vitellogenese, bly aktief tydens swangerskap en bereik maksimale
aktiwiteitsvlakke rondom geboorte. In teenstelling hiermee het die proktodeaalkiere van
beide geslagte weinig of self geen seisonale variasie in hul ontwikkeling of sekretoriese
aktiwiteit getoon nie. Die hoeveelheid sekreet vrygestel was merkbaar minder in wyfies
as in mannetjies, maar hoogs veranderlik tussen individue van dieselfde geslag of
voortplantingstadium; of wat in dieselfde tydperk van die jaar versamel is. Alhoewel
funksies van kloakale kliere steeds onduidelik bly, word twee hooffunksies voorgestel: a)
‘n meganiese funksie, byvoorbeeld as smeermiddel of as ‘n substraat vir geslagsprodukte
en b) ‘n kommunikasie funksie, byvoorbeeld in die vrystelling van feromone. Ek stel voor dat die urodeaalkliere eerder by ‘n voortplantingsfunksie betrokke is, aangesien baie
min sekreet gedurende die paarseisoen vervaardig word terwyl klieraktiwiteit rondom
geboorte ‘n piek bereik. Die teenoorgestelde mag geld vir proktodeaalkliere, maar vereis
verdere ondersoek. Veral ‘n chemiese analise van die sekresie en gedragsmanipulasie sal
nuttig wees om ‘n moontlike rol van hierdie kliere in sosiale kommunikasie te bepaal.
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Social structure of the lizard, Cordylus giganteusRuddock, Lanral 12 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2000. / ENGLISH ABSTRACT: Cordylus giganteus is the largest lizard species of the family Cordylidae and is restricted in
distribution to the highveld grasslands of the Free State, South Africa. Previous work on life
history and physiological ecology suggested the need for further investigation into the social
structure of C. giganteus, with the aim of improving knowledge on South African
herpetofauna and contributing towards better conservation plans. Observations, recaptures,
behavioural experiments and chemical analyses were made to investigate chemical
communication, movements around and between burrows, spatial distribution and response to
intruders. Sexual variation was found in both femoral gland proteins and lipids, while
seasonal variation was found in lipids. Femoral gland proteins do not vary intra-individually.
These results suggest alternate roles in communication for femoral gland proteins and lipids.
Female C. giganteus showed a possible discriminatory ability between their own femoral
gland secretion and that of other individuals. Burrow movements were characterised by very
little time spent between burrows, high burrow fidelity and limited dispersal during seasons,
other than movements associated with mating activity. Lizards remained in very close
proximity to burrows. Male and female burrows were distributed in a clumped fashion, while
male burrows were distributed randomly and female burrows were distributed randomly with
respect to one another. There was a high degree of spatial association of male and female
burrows. Male and female resident lizards responded aggressively to experimentally
introduced conspecifics of the same sex, but exhibited no differential response towards
neighbours or non-neighbours. Males and females exhibited similar levels of aggression
towards intruders. The social system of C. giganteus can be defined as site defence, with very
low frequencies of agonistic interactions. The social system of C. giganteus seems to be well
suited to other aspects of its life history. / AFRIKAANSE OPSOMMING: Cordylus giganteus is die grootste akkedis spesie van die familie Cordylidae en is beperk in
verspreiding tot die hoeveld graslande van die Vrystaat, Suid Afrika. Vorige werk oor die
lewensgeskiedenis en fisiologiese ekologie het aangedui dat verdere inligting oor die sosiale
struktuur van C. giganteus nodig is, met die doelom kennis oor Suid-Afrikaanse herpetofauna
te verbeter, en om beter bewaringsstrategieë daar te stel. Observasies, hervangs,
gedragseksperimente en chemise analyses was uitgevoer om aspekte oor kommunikasie,
bewegings tussen en om gate, gat verspreiding en reaksie teenoor indringer akkedisse, te
bestudeer. Femorale klier afskeidings het seksuele variasie in beide die proteiene en die
lipiede getoon, terwyl net die lipide seisoenale variasie getoon het. Femoral klier proteiene
het nie seisoenale variasie binne individue getoon nie. Hierdie resultate dui op alternatiewe
funksies vir die femoral klier proteiene en lipiede. Wyfie C. giganteus het moontlik tussen
hule eie femoral klier sekreet en die van ander wyfies onderskei. Baie min tyd tussen gate,
hoë lojaliteit teenoor gate en beperkte bewegings weg van gate het gat bewegings
gekarakteriseer. Net gedurende die paarseisoen was daar meer bewegings tussen gate.
Andersins, het akkedisse baie naby hul eie gate gebly. Mannetjie en wyfie gate was naby
mekaar versprei, terwyl mannetjies ewekansig teenoor mekaar versprei was, en wyfies
ewekansig teenoor mekaar versprei was. Die verspreiding van mannetjies en wyfies het baie
van die verspreiding van die ander geslag afgehang, sodat daar 'n groot assosiasie tussen hulle
was. Akkedisse wat gate bewoon het, was baie aggressief teenoor indringer akkedisse, maar
het geen verskil in reaksie teenoor naburige akkedisse of nie-naburige akkedisse getoon nie.
Mannetjies en wyfies het dieselfde aggressiwiteit teenoor indringers getoon. Die sosiale
struktuur van C. giganteus kan geklassifiseer word as skuilings-beskerming, maar met baie
lae frekwensies van sosiale interaksies. Dit blyk dat die sosiale struktuur van C. giganteus
baie goed pas by ander aspekte van sy lewensstyl.
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Grouping behaviour in the armadillo girdled lizard, Cordylus cataphractusVisagie, Louise 12 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: Cordy/
us cataphractus and C macropholis naturally occur in groups on a year round
basis. I examined whether limited shelter availability might be responsible for this
phenomenon. Individuals were provided with an excess of shelter sites and the observed
pattern of shelter occupation was contrasted to that obtained for the solitary living species C
polyzonus. Cordy/us cataphractus consistently occupied fewer shelters than its two
congeners. Results suggest that grouping behaviour in this species is not the result of a
limitation in refuge sites. In contrast, the pattern of shelter occupation by C macropholis did
not differ significantly from that of C polyzonus, thus the aggregative behaviour observed in
the former species may partially be attributed to limited shelter availability in its natural
habitat.
Conspecific recognition by means of pheromonal detection has been reported in many
lizard families, but only for one member of Cordylidae, namely Cordy/us cordy/us. Cordylus
cataphractus individuals were exposed to ceramic tiles that had been labeled by conspecific
male and female substrate deposits. Labeling was achieved by using ceramic tiles as the
bottom half of a shelter in a lizard's home cage for ten consecutive days. Washed tiles were
used as controls. Labeled tiles did not elicit significantly more tongue-flicks than control tiles
from test specimens in a series of trials. The apparent lack of conspecific recognition via
pheromonal detection might be attributable to the group-living nature of this species, which
primarily use visual cues for identification purposes. Tongue-flicking is generally utilized in
C cataphractus in the detection of novel stimuli.
Spatial dynamics of the group-living cordylid, C cataphractus, were investigated by
studying patterns of intergroup movement. To date, literature has assumed that C
cataphractus groups represent family units, implying low or delayed dispersal rates and high
group fidelity. A mark-recapture experiment on six groups included three recaptures outside of and three recaptures within the mating season. High percentages of male, female and
juvenile lizards left their groups, but might be an artifact of microhabitat disturbance. High
proportions of males, females and juveniles entering the groups, both outside of mld within
the mating season, clearly implied a high rate of intergroup movement.
Activity and foraging patterns were studied in group-living C. cataphractus lizards by
conducting direct field observations between September 1998 and October 1999. The
influence of general weather patterns as well as the effect of group size on these patterns were
investigated by observing a small-sized, medium-sized and large group. Each group was
observed for a minimum of three sunny days per season, with scans conducted every 30
minutes between the hours of 08:00 and 20:00. There was a high rate of activity during the
mating season in spring (September). Activity declined sharply mld foraging ceased at the
onset of warm, dry conditions (February). Virtually no activity occurred just prior to the first
winter rains (July), after which the lizards emerged to forage and replenish energy stores
before onset of the next mating season. Selective inactivity might be employed to reduce
energy expenditure in this group-living lizard, where intraspecific competition is stringent.
Groups of different sizes display different thresholds at which it becomes energetically viable
for group members to emerge, as well as different patterns of spatial use around their
respective home crevices. Members of larger groups perched further from their crevices, ran
further to catch prey mld had less potential prey capture events per individual. Lizards in the
larger groups also displayed sporadic lengthy foraging excursions. Such movements might
explain the evolution of tail-biting behaviour and heavy armour, which are defensive
strategies associated with open areas. / AFRIKAANSE OPSOMMING: Cordylus
cataphractus en C. macropholis word dwarsdeur die jaar in groepe in hul
natuurlike habitat aangetref. Daar is nagevors of 'n beperking in aantal beskikbare
skuilplekke vir hierdie verskynsel verantwoordelik is. Individue is van 'n oormaat skuilings
voorsien en die waargenome patroon van skuilplekbesetting is gekontrasteer met dié verkry
vir '11 enkelwonende species, naamlik C. polyzonus. Cordylus cataphractus het voortdurend
minder skuilplekke beset as sy kongeneriese species. Groepsgedrag in C. cataphractus is dus
nie die resultaat van 'n tekort aan beskikbare skuilplekke nie. In teenstelling hiermee het die
patroon van skuilplekbesetting vertoon deur C. macropholis nie noemenswaardig verskil van
dié van C polyzonus nie. Dus mag die groepsgedrag wat gewoonlik in C. macropholis
waargeneem word 'n uitvloeisel wees van 'n beperking op die beskikbaarheid van skuilplekke
in sy natuurlike habitat.
Herkenning van speciesgenote deur waarneming van ferornone is vir verskeie
akkedisfamilies gerapporteer, maar slegs vir een lid van Cordylidae, naamlik C. cordylus.
Cordylus cataphractus individue is blootgestel aan keramiekteëls wat gemerk is met
substraat-neerleggings van manlike en vroulike speciesgenote. Sodanige merking is uitgevoer
deur die keramiekteëls vir tien dae lank te gebruik as die onderste helfte van akkedisse se
skuilplekke in hul tuishokke. Gewaste teëls is as kontroles gebruile Gemerkte teëls het nie
statisties beduidend meer tongskiete van die akkedisse uitgelok as kontrole teëls in 'n reeks
toetse nie. Die klaarblyklike afwesigheid van speciesgenootherkenning deur middel van
feromoon waameming kan moontlik toegeskryf word aan die groeplewende gedrag van C.
cataphractus, wat primêr visuele informasie vir identifikasie gebruik. Cordylus cataphractus
gebruik tongskiete oor die algemeen vir die waarneming vannuwe omgewingsstimuli.
Die ruimtelike dinamika van 'n groeplewende gordelakkedis, C. cataphractus, is
ondersoek deur die patroon van intergroepbeweging na te vors en groepsgetrouheid te meet. Tot op datum is daar in die literatuur aanvaar dat C cataphractus groepe familie-eenhede
verteenwoordig, wat lae of vertraagde verpreidingstempo' sasook' n hoë mate van
groepsgetrouheid impliseer. 'n Merk-hervang eksperiment is op ses groepe uitgevoer,
insluitend drie hervang episodes buite en drie binne die paarseisoen. 'n Hoë persentasie
manlike, vroulike en onvolwasse akkedisse het hul groepe verlaat, maar dit mag bloot 'n
uitvloeisel van versteuring van die mikrohabitat wees. 'n Hoë proporsie mannetjies, wyfies
en onvolwassenes het egter by die groepe aangesluit, beide buite en binne die paarseisoen,
wat onteenseglik op 'n hoë mate van intergroep beweging dui. Daar kom derhalwe veel vryer
bewegingspatrone in hierdie species voor as voorheen vermoed en dit is hoogs onwaarskynlik
dat groepe familie-eenhede verteenwoordig.
Aktiwiteits- en voedingspatrone van die groeplewende akkedis, C cataphractus, is
bestudeer in 'n reeks veldobservasies tussen September 1998 en Oktober 1999. Afgesien van
die invloed van algemene weerspatrone. is die effek van groepgrootte op hierdie patrone
ondersoek deur 'n klein, medium en groot groep te observeer. Elke groep is waargeneem oor
. 'n minimum periode van drie dae per seisoen met opnames elke 30 minute, tussen 08:00 ten
20:00. 'n Hoë aktiwiteitsvlak is gedurende lente tydens die paarseisoen gehandhaaf
(September). Met die aanvang van warm en droë kondisies (Februarie) het aktiwiteitsvlakke
skerp begin daal en voedingsgedrag is gestaak. Feitlik geen aktiwiteit was waarneembaar kort
voor die eerste winterreëns (Julie) nie, waamá akkedisse intensiefbegin voed het om
energiestore op te bou voor die aanvang van paartyd. Selektiewe onaktiwiteit verminder
moontlik energieverbruik in hierdie groeplewende akkedis, waar intraspesifieke kompetisie
streng is. Verskillende groepgroottes beskik oor verskillende perke waar dit vir die individu
energeties voordelig sou wees om uit die skeur te kom, asook 'n variasie in ruimtelike gebruik
om die skeur. Individue van die twee groter groepe het nader aan hul rotsskeur gesit, het verder van
die skeur af prooi vang en het beduidend minder potensiële voedingskanse gehad. Akkedisse
in die groter groepe het voorts sporadiese lang voedingsekskursies getoon. Hierdie
bewegings mag die evolusie van stertbytgedrag en 'n swaar pantser, verdedigingstrategieë wat
met oop areas geassosieer word, verduidelik.
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Hormones and the sloughing process in the Tokay (Gekko gecko L.)趙錦威, Chiu, Kam-wai. January 1968 (has links)
published_or_final_version / Zoology / Doctoral / Doctor of Philosophy
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Studies on the developmental and regenerative histology of the tail ofHemidactylus bowringi (Gray)廖獻貞, Liu, Hin-ching. January 1968 (has links)
published_or_final_version / Anatomy / Doctoral / Doctor of Philosophy
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