Cronologia e sedimentologia dos depósitos eólicos quaternários da Costa Leste maranhense

Carlos Conforti Ferreira Guedes

30 October 2012

Idades por luminescência opticamente estimulada foram obtidas nos depósitos eólicos do litoral leste maranhense. As datações permitiram reconhecer ao menos quatro gerações de dunas eólicas, incluindo a atual. As duas gerações mais antigas (G1/G0: idades LOE de 258,9±24,6 a 88,0±8,6 ka A.P.) não são distinguíveis por critérios de campo, somente por dados geocronológicos. A geração eólica 2 corresponde a feições eólicas estabilizadas pela vegetação que ocorrem a até 135 km da linha de costa atual. As idades LOE-SAR de estabilização obtidas para essas feições eólicas compreendem um intervalo estreito de tempo (19 a 14 ka A.P.) no Pleistoceno superior. Essa fase estabilização do sistema eólico é correlacionada com o evento climático HS-1. Durante esse período no leste maranhense, sob maior influência da Zona de Convergência Intertropical pelo seu deslocamento para sul, ocorreu diminuição da intensidade dos ventos alísios e aumento da precipitação. Essas variações climáticas diminuíram a capacidade de transporte eólico e levou o sistema à estabilização. A análise de proveniência sedimentar com base em minerais pesado identificou como principal fonte sedimentar do litoral leste maranhense a plataforma continental localizada a leste da foz do rio Parnaíba, alimentada via deriva litorânea longitudinal para oeste. O rio Parnaíba aparentemente tem contribuição minoritária como fonte sedimentar, tanto para o sistema atual como para as gerações eólicas pretéritas. A dinâmica sedimentar do sistema eólico atual, evidenciada por minerais pesados, granulometria e parâmetros morfoplanimétricos, aponta para intenso retrabalhamento por rios que o limitam parcialmente ao interior e por drenagens intermitentes, de caráter entrelaçado, que o atravessam. O estudo do método de datação LOE e as características LOE dos sedimentos de diferentes localidades do Brasil permitiu identificar a boa aplicabilidade do método vista a alta sensibilidade LOE do quartzo e bom desempenho nos testes aplicados. A sensibilidade LOE do quartzo foi identificada como a principal característica determinante da qualidade da datação LOE. A proposição da razão de sensibilidade Quartzo-\"Al IND.2\'\'O IND.3\':C (\'delta\'\'POTs\' Q) permitiu tanto a padronização do cálculo da sensibilidade LOE como a comparação de medidas interlaboratoriais. A observação de grandes variações nos valores de sensibilidade LOE de quartzo para sedimentos de diferentes localidades são resultado tanto das rochas fonte como dos ciclos de sedimentação e retrabalhamento. A identificação de diferentes proveniências sedimentares com base no uso da sensibilidade LOE foi aplicada, com sucesso, na análise de variações climáticas baseada em mudanças de proveniência sedimentar na Ilha Comprida -SP. / Optically stimulated luminescence (OSL) ages were obtained in eolian deposits from the east coast of Maranhão, Brazil. OSL dating allowed the identification of at least four generations of eolian dunes, including the active dunefields. The two oldest generations (G1/G0: OSL ages 258.9±24.6 to 88.0±8.6 ky B.P.) are not distinguishable by field criteria, only geochronological data. Generation 2 corresponds to eolian features stabilized by vegetation that occurs up to 135 km from the current coast line. OSL-SAR ages of stabilization of these features are between 19 and 14 ky B.P., a narrow time interval during Pleistocene. This event is related to the climatic event HS-1. During this period the intensity of trade winds decreased and precipitation increased in the area due to a greater influence of the Intertropical Covergence Zone, which was shifting south. These climatic variations reduced the capacity of eolian transportation and the led system to to stabilization. Provenance analyzes by heavy minerals identified the continental shelf located east of the Parnaiba river mouth as sedimentary source for the east coast of Maranhão, which is fed by longitudinal litoral drift to west. Parnaiba river apparently has a minor contribution as sedimentary source for recent and past eolian generations. Sedimentary dynamic of the recent eolian system, as indicated by heavy minerals analyzes, grain size analyzes and morphoplanimetric parameters, is characterized by strong reworking by rivers, braided intermittent drainages, that cross the dunefield. All analyzed Brazilian sediments presented relatively high OSL sensitivity and good behavior regarding their luminescence characteristics relevant for radiation dose estimation. The OSL sensitivity of quartz was identified as the main characteristic interfering the OSL dating quality. We propose to standardize the definition of quartz OSL sensitivity using the Quartz-to-\'Al IND.2\'\'O IND.3\':C sensitivity ratio (\'delta\'\'POT.s\'Q). The standardization is a prerequisite to compare data obtained under different measurement conditions and to investigate and develop geological applications of quartz OSL sensitivity. We observed that the major factor controlling the OSL sensitivity is the sedimentary history of the sediment. Longer sedimentary transport provided by huge drainage systems and long-distance littoral drift increases the OSL sensitivity. The use of OSL sensitivity as provenance proxy was successfully applied at Ilha Comprida-SP to analyze climate variations.

Campo de dunas

Lençóis Maranhenses

Minerais pesados

Paleoclima

Sensibilidade LOE

Eolian dunefield

Heavy minerals

Lençóis Maranhenses

Optically stimulated luminescence dating

OSL sensitivity

Paleoclimate

Paleogeografický vývoj kenozoických říčních systémů ve středních a severních Čechách a jejich vztah ke klimatickým změnám a neotektonice / Paleogeographic development of the Cenozoic river systems in the central and northern Bohemia and its link to climatic changes and neotectonics

Štor, Tomáš

January 2018

The main aim of this thesis is to provide greater details on the timing of the fluvial river systems formation in the middle and the northern Bohemia. We focused on the Ploučnice River and Vltava River evolution. The river systems are very complex therefore we have used multiple approaches of the research with the disciplines range from geology, sedimentology, geomorphology, geochemistry, over different dating methods such as 10Be and 26Al isochron burial dating, optically stimulated luminescence dating and radiocarbon dating methods. Our results suggests that the terraces are significantly older than previously proposed. The fluvial style of the Ploučnice River system changes from high-energy braided to long-bend meandered river in the upper terrace levels (36 to 29 m above the modern river) and from high- to medium-energy braided river in the middle terrace levels (22-14 m). In the lower terrace levels (13 to 5 m) high-energy braided to long-bend meandered river environments were identified. Terraces were dating at 34 m, 29 m and 14 m above the modern floodplain with cosmogenic radionuclides while the 19 m, 12 m and 6 m above the modern floodplain terraces were dating with OSL. The time span represented by the river terraces remains unclear and varies from Eburonian to Eemian (1.68 to 0.056 Ma)....

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition

Irrigation and persistence in the dry zone of Sri Lanka : a geoarchaeological study

Gilliland, Krista

January 2011

This thesis presents an independent, sediment-based record of landscape change within an agricultural hinterland. Established historical and archaeological sequences document the primary occupation of Anuradhapura, Sri Lanka’s ancient capital, beginning ca. 400 BC and lasting until it was largely abandoned in AD 1017. Anuradhapura is located in the island’s dry zone, which depends almost completely on the unpredictable Northeastern Monsoon for water. Oral history and historical narratives have long held that large-scale irrigated rice cultivation took place in the hinterland to produce an agricultural surplus that sustained the urban and monastic populations. However, until the onset of the Anuradhapura Hinterland Project in 2005, the archaeological record of the hinterland was undocumented, leaving existing narratives untested. The geoarchaeological research presented here was undertaken as part of the Hinterland Project, in order to document the chronology and cultural and environmental processes that contributed to the formation of this irrigated landscape. Optical dating of sediments demonstrates that the onset of large-scale irrigation began ca. 400 BC, and the construction of new works continued until Anuradhapura’s late occupation period. Sampled reservoirs and channels began to infill, indicating widespread disuse, within ca. 100 years of Anuradhapura’s abandonment. Soil micromorphology and bulk sediment characterisation document hinterland habitation, water management, and cultivation activities prior to the establishment of large-scale irrigation. This work illustrates the coping strategies that people employed to deal with the vagaries of the dry zone environment and demonstrates that hinterland land use changed throughout the primary occupation period. Although largescale irrigation works infilled relatively rapidly, cultural activity and land use re-emerged following this period of disuse.

954.93

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition

The geomorphology of Southeast Australian mountain streams

Thompson, Chris J., Physical, Environmental & Mathematical Sciences, Australian Defence Force Academy, UNSW

January 2006

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.

Mountain streams

morpho-statistical classification

channels

bed material storage

morphologies

habitat diversity

catchment

bedload transport

monitoring

sediment

geomorphology

Southeast

Southeastern

river channels

sedimentation

deposition