• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 9
  • 2
  • Tagged with
  • 14
  • 14
  • 14
  • 5
  • 5
  • 4
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Análise Morfológica e Ultra-estrutural do Coração do Lobo-Marinho-do-Sul (Arctocephus australis, Zimmermann, 1783) / Morphological and Ultrastructural Analysis of the Heart of the Southern-Fur-Seal (Arctocephalus australis, Zimmermamm, 1783)

Guimarães, Juliana Plácido 15 December 2009 (has links)
O lobo-marinho-do-sul pertencente à ordem Carnivora, subordem Pinnipedia e família Otariidae habita ambientes aquáticos e terrestres e, desta forma, apresentando alterações morfofisiológicas adaptativas importantes, entre elas o sistema cardíaco. O coração é o órgão muscular central do sistema circulatório que tem como função o transporte de oxigênio e nutrientes para os tecidos, assim como o transporte de dióxido de carbono. Considerando a importância deste órgão para o funcionamento geral dos demais sistemas corpóreos, este trabalho teve por objetivo descrever a morfologia e aspectos morfométricos do coração a fim de estabelecer comparações entre o coração do lobo-marinho-do-sul com outros pinípedes e carnívoros terrestres. Para tanto, foram utilizados corações de lobo-marinho-do-sul (Arctocephalus australis) que vierem a óbito por causas naturais. Após análise macroscópica e realização de mensurações, os corações foram analisados em nível de microscopia de luz, microscopia eletrônica de varredura, por meio de crio fratura em nitrogênio líquido, e microscopia eletrônica de transmissão. As características topográficas e morfológicas do coração do lobo-marinho-do-sul são descritas. O órgão é quase totalmente envolto pelo pulmão e revestido pelo pericárdio tendo uma forma alongada e achatada. Os aspectos ultra-estruturais apresentaram a disposição de fibras musculares dos átrios e ventrículos com as características típicas de fibras cardíacas revelando os feixes de miofibrilas, mitocôndrias com as cristas mitocondriais nítidas, junções em forma de placas, anastosmoses entre os feixes de miofibrilas e grânulos elétron-densos, nátrio-uréticos, próximo ao núcleo das células musculares ou ao longo da disposição de mitocôndrias das fibras musculares de átrios. / The southern-fur-seal belongs to the order Carnivora, suborder Pinnipedia and Otariidae family lives in aquatic and terrestrial environments and thus presenting important adaptive morpho-physiological changes, between then the cardiovascular system. The heart is the central muscular organ of the circulatory system whose function is to transport oxygen and nutrients to tissues, as well as the transport of carbon dioxide. Considering the importance of this organ to the overall functioning of other body systems, this study was to aim to describe the morphology and morphometric aspects of the heart in order to establish comparisons between the heart of the southern-fur-seals with other pinnipeds and terrestrial carnivores. Therefore, hearts of southern-fur-seals (Arctocephalus australis) were used that come to death by natural pathologies. After macroscopic analysis and execution of measurements, the hearts were analyzed at the level of light microscopy, scanning electron microscopy, using cryo fracture in liquid nitrogen, and transmission electron microscopy. The heart of the fur seal-of-south is surrounded almost entirely by the lung and covered by the pericardium, having long, flat in shape. The ultrastructural aspects presented the dispositive of muscle fibers of the atrium and ventricles under the typical cardiac fibers revelry the myofibrils bundles, mitochondria with mitochondrial cristal, junction in form of plates, anastomosis between the myofibrils bundles, and electron dense granules like natriun-uretriz near to nuclear of muscle cells or along the disposal of mitochondria of the muscle fibers of atrium.
12

Análise Morfológica e Ultra-estrutural do Coração do Lobo-Marinho-do-Sul (Arctocephus australis, Zimmermann, 1783) / Morphological and Ultrastructural Analysis of the Heart of the Southern-Fur-Seal (Arctocephalus australis, Zimmermamm, 1783)

Juliana Plácido Guimarães 15 December 2009 (has links)
O lobo-marinho-do-sul pertencente à ordem Carnivora, subordem Pinnipedia e família Otariidae habita ambientes aquáticos e terrestres e, desta forma, apresentando alterações morfofisiológicas adaptativas importantes, entre elas o sistema cardíaco. O coração é o órgão muscular central do sistema circulatório que tem como função o transporte de oxigênio e nutrientes para os tecidos, assim como o transporte de dióxido de carbono. Considerando a importância deste órgão para o funcionamento geral dos demais sistemas corpóreos, este trabalho teve por objetivo descrever a morfologia e aspectos morfométricos do coração a fim de estabelecer comparações entre o coração do lobo-marinho-do-sul com outros pinípedes e carnívoros terrestres. Para tanto, foram utilizados corações de lobo-marinho-do-sul (Arctocephalus australis) que vierem a óbito por causas naturais. Após análise macroscópica e realização de mensurações, os corações foram analisados em nível de microscopia de luz, microscopia eletrônica de varredura, por meio de crio fratura em nitrogênio líquido, e microscopia eletrônica de transmissão. As características topográficas e morfológicas do coração do lobo-marinho-do-sul são descritas. O órgão é quase totalmente envolto pelo pulmão e revestido pelo pericárdio tendo uma forma alongada e achatada. Os aspectos ultra-estruturais apresentaram a disposição de fibras musculares dos átrios e ventrículos com as características típicas de fibras cardíacas revelando os feixes de miofibrilas, mitocôndrias com as cristas mitocondriais nítidas, junções em forma de placas, anastosmoses entre os feixes de miofibrilas e grânulos elétron-densos, nátrio-uréticos, próximo ao núcleo das células musculares ou ao longo da disposição de mitocôndrias das fibras musculares de átrios. / The southern-fur-seal belongs to the order Carnivora, suborder Pinnipedia and Otariidae family lives in aquatic and terrestrial environments and thus presenting important adaptive morpho-physiological changes, between then the cardiovascular system. The heart is the central muscular organ of the circulatory system whose function is to transport oxygen and nutrients to tissues, as well as the transport of carbon dioxide. Considering the importance of this organ to the overall functioning of other body systems, this study was to aim to describe the morphology and morphometric aspects of the heart in order to establish comparisons between the heart of the southern-fur-seals with other pinnipeds and terrestrial carnivores. Therefore, hearts of southern-fur-seals (Arctocephalus australis) were used that come to death by natural pathologies. After macroscopic analysis and execution of measurements, the hearts were analyzed at the level of light microscopy, scanning electron microscopy, using cryo fracture in liquid nitrogen, and transmission electron microscopy. The heart of the fur seal-of-south is surrounded almost entirely by the lung and covered by the pericardium, having long, flat in shape. The ultrastructural aspects presented the dispositive of muscle fibers of the atrium and ventricles under the typical cardiac fibers revelry the myofibrils bundles, mitochondria with mitochondrial cristal, junction in form of plates, anastomosis between the myofibrils bundles, and electron dense granules like natriun-uretriz near to nuclear of muscle cells or along the disposal of mitochondria of the muscle fibers of atrium.
13

Niche partitioning among fur seals

Page, Brad, page.bradley@saugov.sa.gov.au January 2005 (has links)
At Cape Gantheaume, Kangaroo Island (South Australia), adult male, lactating female and juvenile New Zealand (NZ) and Australian fur seals regularly return to the same colony, creating the potential for intra- and inter-specific foraging competition in nearby waters. I hypothesised that these demographic groups would exhibit distinct foraging strategies, which reduce competition and facilitate their coexistence. I analysed the diet of adult male, adult female and juvenile NZ fur seals and adult male Australian fur seals and studied the diving behaviour of adult male and lactating female NZ fur seals and the at-sea movements of juvenile, adult male and lactating female NZ fur seals. Female diet reflected that of a generalist predator, influenced by prey availability and their dependant pups� fasting abilities. In contrast, adult male NZ and Australian fur seals used larger and more energy-rich prey, most likely because they could more efficiently access and handle such prey. Juvenile fur seals primarily utilised small lantern fish, which occur south of the shelf break, in pelagic waters. Juveniles undertook the longest foraging trips and adult males conducted more lengthy trips than lactating females, which perform relatively brief trips in order to regularly nurse their pups. Unlike lactating females, some adult males appeared to rest underwater by performing dives that were characterised by a period of passive drifting through the water column. The large body sizes of adult males and lactating females facilitated the use of both benthic and pelagic habitats, but adult males dived deeper and for longer than lactating females, facilitating vertical separation of their foraging habitats. Spatial overlap in foraging habitats among the age/sex groups was minimal, because lactating females typically utilised continental shelf waters and males used deeper water over the shelf break, beyond female foraging grounds. Furthermore, juveniles used pelagic waters, up to 1000 km south of the regions used by lactating females and adult males. The age and sex groups in this study employed dramatically different strategies to maximise their survival and reproductive success. Their prey and foraging habitats are likely to be shaped by body size differences, which determine their different physiological constraints and metabolic requirements. I suggest that these physiological constraints and the lactation constraints on females are the primary factors that reduce competition, thereby facilitating niche partitioning.
14

Niche partitioning among fur seals

Page, Brad, page.bradley@saugov.sa.gov.au January 2005 (has links)
At Cape Gantheaume, Kangaroo Island (South Australia), adult male, lactating female and juvenile New Zealand (NZ) and Australian fur seals regularly return to the same colony, creating the potential for intra- and inter-specific foraging competition in nearby waters. I hypothesised that these demographic groups would exhibit distinct foraging strategies, which reduce competition and facilitate their coexistence. I analysed the diet of adult male, adult female and juvenile NZ fur seals and adult male Australian fur seals and studied the diving behaviour of adult male and lactating female NZ fur seals and the at-sea movements of juvenile, adult male and lactating female NZ fur seals. Female diet reflected that of a generalist predator, influenced by prey availability and their dependant pups� fasting abilities. In contrast, adult male NZ and Australian fur seals used larger and more energy-rich prey, most likely because they could more efficiently access and handle such prey. Juvenile fur seals primarily utilised small lantern fish, which occur south of the shelf break, in pelagic waters. Juveniles undertook the longest foraging trips and adult males conducted more lengthy trips than lactating females, which perform relatively brief trips in order to regularly nurse their pups. Unlike lactating females, some adult males appeared to rest underwater by performing dives that were characterised by a period of passive drifting through the water column. The large body sizes of adult males and lactating females facilitated the use of both benthic and pelagic habitats, but adult males dived deeper and for longer than lactating females, facilitating vertical separation of their foraging habitats. Spatial overlap in foraging habitats among the age/sex groups was minimal, because lactating females typically utilised continental shelf waters and males used deeper water over the shelf break, beyond female foraging grounds. Furthermore, juveniles used pelagic waters, up to 1000 km south of the regions used by lactating females and adult males. The age and sex groups in this study employed dramatically different strategies to maximise their survival and reproductive success. Their prey and foraging habitats are likely to be shaped by body size differences, which determine their different physiological constraints and metabolic requirements. I suggest that these physiological constraints and the lactation constraints on females are the primary factors that reduce competition, thereby facilitating niche partitioning.

Page generated in 0.0702 seconds