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  • 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.
1

Caracterização dos ambientes deposicionais na bacia do Ribeirão Entupido, complexo alcalino do Passa Quatro, estado de São Paulo

Arruda, Emerson Martins [UNESP] 04 February 2004 (has links) (PDF)
Made available in DSpace on 2014-06-11T19:27:50Z (GMT). No. of bitstreams: 0 Previous issue date: 2004-02-04Bitstream added on 2014-06-13T18:56:34Z : No. of bitstreams: 1 arruda_em_me_rcla.pdf: 5956567 bytes, checksum: ed468990b15b939b7622d4e881ceacd3 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / O trabalho aqui apresentado se insere no contexto do projeto temático História da Exumação da Plataforma Sul-americana, o exemplo da região Sudeste brasileira: termocronologia por traços de fissão e sistemáticas Ar/Ar e Sm/Nd, e tem como coordenador geral, o Prof. Dr. Peter Christian Hackspacher do Departamento de Petrologia e Metalogenia do IGCE/UNESP-Rio Claro, sendo financiado pela FAPESP (Processo n.º 00/03960-5). Esta pesquisa teve como objetivo analisar os eventos deposicionais, esculturadores do relevo, na bacia do Ribeirão Entupido, Serra da Mantiqueira, Estado de São Paulo, a partir do estudo morfoestratigráfico dos depósitos recentes da área. As feições deposicionais registradas em campo foram analisadas visando à definição de áreas tipo para coleta de amostras. Análises de datação foram realizadas com o material amostrado. As relações de conectividade entre as unidades deposicionais foram testadas a partir dos resultados de análises sedimentológicas e granulométricas. As análises foram enriquecidas pela datação absoluta do material sedimentar por LOE (Luminescência Opticamente Estimulada) do quartzo e do feldspato. O cruzamento de dados relativos às diversas técnicas aplicadas forneceu subsídios para a compreensão dos mecanismos que comandam a morfogênese na bacia em foco ao longo do último milhão de anos. / The research presented here inserts in the context of the thematic project History of the Exhumation of the South American Platform in the southeastern Brazil: Thernochronology by Fission Track Analysis and Ar/Ar and Sr/Nd systematics, and it has as general co-ordinating Prof. Dc. Peter Christian Hackspcher from IGCE/Unesp - Rio Claro, at the Department of Petrology and Metallogy, being financed for FAPESP (Process nº 00/03960-5). This research had as objective to analyze the depositionals events, sculpture of the relief, at the River Entupido's basin, Mantiqueira's Sierra, State of São Paulo, from the morphostratigraphic study of the recent deposits of the area. The main found and registered in field had been analyzed aiming at to the definition of areas type for collection of samples. Analyses of dating were realized through the showed sample. The relations of connection among the main units had been tested from the results of sendimentological and granulometrics analyses. The analyses had been enriched by the absolute dating of the sedimentary material by OSL (Optically Stimulated Luminescence) of the quartz and the feldspar. The data were compared many ways of techniques and gave us subsidies to insight of the mechanisms that commands morphogenesy in the basin analyzed the last million of years.
2

Caracterização dos ambientes deposicionais na bacia do Ribeirão Entupido, complexo alcalino do Passa Quatro, estado de São Paulo /

Arruda, Emerson Martins. January 2004 (has links)
Resumo: O trabalho aqui apresentado se insere no contexto do projeto temático "História da Exumação da Plataforma Sul-americana, o exemplo da região Sudeste brasileira: termocronologia por traços de fissão e sistemáticas Ar/Ar e Sm/Nd", e tem como coordenador geral, o Prof. Dr. Peter Christian Hackspacher do Departamento de Petrologia e Metalogenia do IGCE/UNESP-Rio Claro, sendo financiado pela FAPESP (Processo n.º 00/03960-5). Esta pesquisa teve como objetivo analisar os eventos deposicionais, esculturadores do relevo, na bacia do Ribeirão Entupido, Serra da Mantiqueira, Estado de São Paulo, a partir do estudo morfoestratigráfico dos depósitos recentes da área. As feições deposicionais registradas em campo foram analisadas visando à definição de áreas tipo para coleta de amostras. Análises de datação foram realizadas com o material amostrado. As relações de conectividade entre as unidades deposicionais foram testadas a partir dos resultados de análises sedimentológicas e granulométricas. As análises foram enriquecidas pela datação absoluta do material sedimentar por LOE (Luminescência Opticamente Estimulada) do quartzo e do feldspato. O cruzamento de dados relativos às diversas técnicas aplicadas forneceu subsídios para a compreensão dos mecanismos que comandam a morfogênese na bacia em foco ao longo do último milhão de anos. / Abstract: The research presented here inserts in the context of the thematic project "History of the Exhumation of the South American Platform in the southeastern Brazil: Thernochronology by Fission Track Analysis and Ar/Ar and Sr/Nd systematics", and it has as general co-ordinating Prof. Dc. Peter Christian Hackspcher from IGCE/Unesp - Rio Claro, at the Department of Petrology and Metallogy, being financed for FAPESP (Process nº 00/03960-5). This research had as objective to analyze the depositionals events, sculpture of the relief, at the River Entupido's basin, Mantiqueira's Sierra, State of São Paulo, from the morphostratigraphic study of the recent deposits of the area. The main found and registered in field had been analyzed aiming at to the definition of areas type for collection of samples. Analyses of dating were realized through the showed sample. The relations of connection among the main units had been tested from the results of sendimentological and granulometrics analyses. The analyses had been enriched by the absolute dating of the sedimentary material by OSL (Optically Stimulated Luminescence) of the quartz and the feldspar. The data were compared many ways of techniques and gave us subsidies to insight of the mechanisms that commands morphogenesy in the basin analyzed the last million of years. / Orientador: Iandara Alves Mendes / Coorientador: Antônio Carlos de Barros Corrêa / Banca: Peter Christian Hackspacher / Banca: Cenira Maria Lupinacci da Cunha / Mestre
3

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
4

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
5

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
6

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
7

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
8

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
9

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.
10

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW January 2006 (has links)
This thesis is a study of the morphology and sediment transport dynamics of mountain streams in southeast Australia. Mountain streams represent important geomorphological and ecological systems in Australia which have hitherto been poorly studied. The variability of mountain stream reach morphology was investigated at the regional scale using topographical surveys and sediment sampling techniques. Study sites were stratified by slope and local lithology. Eight channel-morphologies including Bedrock, Cascade, Step-pool, Planebed, Pool-Riffle, Cascade-pool, Riffle-step and Infilled, were identified using an objective statistical approach. Overall, channel types were found to correspond to existing reach-scale mountain stream templates. Five morphologies were associated with a specific lithology type which controlled the size and shape of grains supplied to the channels. Differences in coarse sediment transport processes between morphologies were investigated using stream monitoring techniques and Optically Stimulated Luminescence (OSL) dating. Monitoring results from a 3 year period indicated that channel beds are resistant to entrainment with shear stress thresholds for bedload transport ranging between 64 to 74 N/m2. Transport of reach median grain sizes requires floods that exceed bankfull discharge. Existing competence equations were found to over-predict the hydraulic driving force and consequently, a modified entrainment model was used to account for the regional channel characteristics. OSL dating was investigated as a tool to provide data on long-term sediment transport processes. Minimum age model results from the OSL dates show overall agreement with a selected entrainment model, and indicate differences in sediment transport dynamics between some reach morphology types. A regime model was used to quantify the physical domains of different channel morphologies. Limitations of the model were overcome by modifying the sediment supply surrogate to better reflect the dominant transported bedload size. Morphology types were delineated according to different sediment transport capacity-sediment supply domains. The distribution of channel morphology types within a series of catchments in southeast Australia was modelled within a GIS platform using the diagnostics of reach morphology derived from this study. The model provides a conceptual framework to evaluate the potential link between channel form, potential habitat diversity and aquatic biodiversity within the channel network in mountain streams.

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