Paleomagnetismo de rochas vulvânicas do Nordeste do Brasil e a época da abertura do Oceano Atlântico Sul

Na primeira parte deste trabalho foram desenvolvidos estudos de magnetismo de rochas e paleomagnetismo em amostras de rochas vulcânicas do Nordeste brasileiro. As idades das amostras compreende os períodos Jurássico e Cretáceo. Com este objetivo foram amostradas quatro áreas tendo sido estudado um total de 496 amostras em 55 sítios. Para a coleta foi utilizada uma perfuradora portátil que extrai amostras de 2.5 cm de diâmetro. A orientação das amostras foi feita por meio de uma bússola magnética e de um clinômetro. Os espécimes foram submetidos a desmagnetizações por campo magnético alternado e em alguns poucos casos foi empregada a desmagnetização térmica. Atribuindo-se peso unitário a cada sítio foi determinada a direção média da magnetização remanescente característica de cada uma das áreas estudadas. As rochas vulcânicas do período Jurássico, localizadas na borda oeste da Bacia do Maranhão (Porto Franco-Estreito), apresentaram uma direção media em que D= 3.9°, I= -17.9° com α₉₅= 9.3°, k= 17.9, N= 15 e todos os sítios apresentaram polaridade normal. Para esta área foi determinado o polo paleomagnético de coordenadas 85.3°N, 82.5°E (A₉₅= 6.9º) que se localiza próximo a outros polos paleomagnéticos conhecidos para esse período. As rochas da borda leste da Bacia do Maranhão (Teresina-Picos-Floriano) de idade cretácica inferior apresentaram uma direção média de magnetização remanescente característica tal que D= 174.7°, I= +6.0º com α₉₅= 2.8º, k= 122, N= 21 e todos os sítios apresentaram polaridade reversa. O polo paleomagnético associado a elas apresentou por coordenadas 83.6°N, 261.0°E (A₉₅=1.9°) e mostrou concordância com outros polos sul americanos de mesma idade. No Rio Grande do Norte foi estudado um enxame de diques toleíticos também de idade cretácica inferior, cuja direção média da magnetização remanescente característica encontrada foi D= 186.6º, I= +20.6º com α₉₅= 14.0° e k= 12.9, N= 10. Os sítios desta área apresentaram magnetizações com polaridades normal a reversa. O polo paleomagnético obtido se localiza em 80.6°N e 94.8°E com A₉₅= 9.5°. O estudo das rochas vulcânicas da província magnética do Cabo de Santo Agostinho indicou para a região um valor de D= 0.4º, I= -20.6º com α₉₅= 4.8° e k= 114, N= 9 para a magnetização remanescente característica. Todos os sítios apresentaram polaridade normal e o polo paleomagnético determinado apresentou as seguintes coordenadas: 87.6ºN, 135ºE com A₉₅= 4.5º. Foi discutida a eliminação da variação secular das direções obtidas, de forma que cada polo apresentado nesta dissertação é verdadeiramente um polo paleomagnético. A análise dos minerais magnéticos portadores da remanência, efetuada por curvas termomagnéticas ou por difração de Raio-X, indicou na maior parte das ocorrências, a presença de titanomagnetita pobre em titânio. A presença de maguemita e algumas vezes hematita, na maior parte das vezes resultado de intemperismo, não anulou a magnetização termoremanente associada à época de formação da rocha, que foi determinada após a aplicação de técnicas de desmagnetização aos espécimes. Pelas curvas termomagnéticas obteve-se, para a maioria das amostras, uma temperatura de Curie entre 500 e 600ºC. Os casos mais freqüentes indicaram a ocorrência de titanomagnetita exsolvida, em que foram observadas a presença de uma fase próxima à magnetita e outra fase rica em titânio, próxima à ilmenita, resultado de oxidação de alta temperatura. A segunda parte do trabalho diz respeito à determinação da época de abertura do oceano Atlântico Sul por meio de dados paleomagnéticos. Entretanto ao invés de se utilizar o procedimento comumente encontrado na literatura, e que se baseia nas curvas de deriva polar aparente de cada continente, foi aplicado um teste estatístico que avalia a probabilidade de determinada posição relativa entre os continentes ser válida ou não, para determinado período em estudo. Assim foi aplicado um teste F a polos paleomagnéticos da África e da América do Sul, dos períodos Triássico, Jurássico, Cretáceo Inferior e Cretáceo Médio-Superior, tendo sido estudadas situações que reconstituem a posição pré-deriva dos continentes e configurações que simulem um afastamento entre eles. Os resultados dos testes estatísticos indicaram, dentro de uma probabilidade de erro de menos de 5%, que a configuração pré-deriva de Martin et al (1981) é compatível com os dados paleomagnéticos do Triássico, mas apresenta uma diferença significativa para os paleopolos de Jurássico, Cretáceo Inferior, Cretáceo Médio-Superior. Outras reconstruções pré-deriva testadas apresentaram o mesmo resultado. A comparação entre os polos paleomagnéticos da América do Sul e da África, segundo uma reconstrução que admite uma pequena abertura entre os continentes, como a proposta por Sclater et al (1977) para 110 m.a. atrás, indicou que os dados do Triássico não são compatíveis com este afastamento. Por outro lado os paleopolos do Jurássico e do Cretáceo Inferior, embora mais antigos que a data sugerida pela reconstrução, são consistentes com esta separação dentro de uma probabilidade de erro de menos de 5%. Os dados do Cretáceo Médio-Superior se mostraram consistentes com a reconstrução sugerida para 80 m.a. atrás por Francheteau (1973) e que propõe uma separação maior entre os continentes. Com base na premissa de deslocamentos de blocos continentais rígidos a análise dos resultados obtidos indicou que América do Sul e África estavam unidas por suas margens continentais opostas no período Triássico e que uma pequena separação entre estes continentes, provavelmente devida a uma rutura inicial, ocorreu no Jurássico e se manteve, então, aproximadamente estacionária até o início do Cretáceo Inferior. Esta conclusão difere da maior parte dos trabalhos que discutem a abertura do oceano Atlântico Sul. Os dados do Cretáceo Médio-Superior são compatíveis com um afastamento rápido e significativo entre os continentes naquele período.

Magnetostratigraphy and mid-palaeolatitude VGP dispersion during the Permo-Carboniferous Superchron: results from Parana Basin (Southern Brazil) rhythmites

A detailed magnetostratigraphic and rock-magnetism study of two Late Palaeozoic rhythmite exposures (Itu and Rio do Sul) from the Itarare Group (Parana Basin, Brazil) is presented in this paper. After stepwise alterning-field procedures and thermal cleaning were performed, samples from both collections show reversed characteristic magnetization components, which is expected for Late Palaeozoic rocks. However, the Itu rocks presented an odd, flat inclination pattern that could not be corrected with mathematical methods based on the virtual geomagnetic pole (VGP) distributions. Correlation tests between the maximum anisotropy of the magnetic susceptibility axis (K1) and the magnetic declination indicated a possible mechanical influence on the remanence acquisition. The Rio do Sul sequence displayed medium to high inclinations and provided a high-quality palaeomagnetic pole (after shallowing corrections of f = 0.8) of 347.5 degrees E 63.2 degrees S (N = 119; A95 = 3.3; K = 31), which is in accordance with the Palaeozoic apparent wander pole path of South America. The angular dispersion (Sb) for the distribution of the VGPs calculated on the basis of both the 45 degrees cut-off angle and Vandamme method was compared to the best-fit Model G for mid-latitudes. Both of the Sb results are in reasonable agreement with the predicted (palaeo) latitudinal S-? relationship during the Cretaceous Normal Superchron (CNS), although the Sb value after the Vandamme cut-off has been applied is a little lower than expected. This result, in addition to those for low palaeolatitudes during the Permo-Carboniferous Reversed Superchron (PCRS) previously reported, indicates that the low secular variation regime for the geodynamo that has already been discovered in the CNS might have also been predominant during the PCRS.

Magnetic fabrics and their relationship with the emplacement of the Piracaia pluton, SE Brazil

Magnetic fabric and rock-magnetism studies were performed on the four units of the 578 +/- 3-Ma-old Piracaia pluton (NW of Sao Paulo State, southern Brazil). This intrusion is roughly elliptical (similar to 32 km(2)), composed of (i) coarse-grained monzodiorite (MZD-c), (ii) fine-grained monzodiorite (MZD-f), which is predominant in the pluton, (iii) monzonite heterogeneous (MZN-het), and (iv) quartz syenite (Qz-Sy). Magnetic fabrics were determined by applying both anisotropy of low-field magnetic susceptibility (AMS) and anisotropy of anhysteretic remanent magnetization (AARM). The two fabrics are coaxial. The parallelism between AMS and AARM tensors excludes the presence of a single domain (SD) effect on the AMS fabric of the units. Several rock-magnetism experiments performed in one specimen from each sampled units show that for all of them, the magnetic susceptibility and magnetic fabrics are carried by magnetite grains, which was also observed in the thin sections. Foliations and lineations in the units were successfully determined by applying magnetic methods. Most of the magnetic foliations are steeply dipping or vertical in all units and are roughly parallel to the foliation measured in the field and in the country rocks. In contrast, the magnetic lineations present mostly low plunges for the whole pluton. However, for eight sites, they are steep up to vertical. Thin-section analyses show that rocks from the Piracaia pluton were affected by the regional strain during and after emplacement since magmatic foliation evolves to solid-state fabric in the north of the pluton, indicating that magnetic fabrics in this area of the pluton are related to this strain. Otherwise, the lack of solid-state deformation at outcrop scale and in thin sections precludes deformation in the SW of the pluton. This evidence allows us to interpret the observed magnetic fabrics as primary in origin (magmatic) acquired when the rocks were solidified as a result of magma flow, in which steeply plunging magnetic lineation suggests that a feeder zone could underlie this area.

Complex, 3D strain patterns in a synkinematic tonalite batholith from the Aracuai Neoproterozoic orogen (Eastern Brazil): Evidence from combined magnetic and isotopic chronology studies

This work combines structural and geochronological data to improve our understanding of the mechanical behaviour of continental crust involving large amount of magma or partially melted material in an abnormally hot collisional belt. We performed a magnetic and geochronological (U/Pb) study on a huge tonalitic batholith from the Neoproterozoic Aracual belt of East Brazil to determine the strain distribution through space and time. Anisotropy of magnetic susceptibility, combined with rock magnetism investigations, supports that the magnetic fabric is a good proxy of the structural fabric. Field measurements together with the magnetic fabrics highlight the presence in the batholith of four domains characterized by contrasted magmatic flow patterns. The western part is characterized by a gently dipping, orogen-parallel (similar to NS) magmatic foliation that bears down-dip lineations, in agreement with westward thrusting onto the Sao Francisco craton. Eastward, the magmatic foliation progressively turns sub-vertical with a lineation that flips from sub-horizontal to sub-vertical over short distances. This latter domain involves an elongated corridor in which the magmatic foliation is sub-horizontal and bears an orogen-parallel lineation. Finally the fourth, narrow domain displays sub-horizontal lineations on a sub-vertical magmatic foliation oblique (similar to N150 degrees E) to the trend of the belt. U/Pb dating of zircons from the various domains revealed homogeneity in age for all samples. This, together with the lack of solid-state deformation suggests that: 1) the whole batholith emplaced during a magmatic event at similar to 580 Ma, 2) the deformation occurred before complete solidification. and 3) the various fabrics are roughly contemporaneous. The complex structural pattern mapped in the studied tonalitic batholith suggests a 3D deformation of a slowly cooling, large magmatic body and its country rock. We suggest that the development of the observed 3D flow field was promoted by the low viscosity of the middle crust that turned gravitational force as an active tectonic force combining with the East-West convergence between the Sao Francisco and Congo cratons. (C) 2012 Elsevier Ltd. All rights reserved.

Paleomagnetic Study of the Portage Lake Volcanics exposed in the Quincy Mine

A detailed paleomagnetic and rock-magnetic investigation was conducted on thirty six basaltic flows of the ~1095 Ma Portage Lake Volcanics. The flows were sampled along the East Adit of the Quincy Mine (Hancock, MI). Thirty two flows yielded well-defined primary magnetization directions carried by magnetite. A secondary magnetization component carried by hematite was also found in twenty nine flows. After correction for serial correlation between the flows, nineteen independent mean directions were calculated. The corresponding paleomagnetic pole is located at 25.5 °N, 182.1 °W (A95 = 3.5°). The new pole overlaps with the pole from the ~1087 Ma Lake Shore Traps suggesting a standstill of the North American plate during that time period. The low angular dispersion of virtual geomagnetic poles (S = 7.9°) suggests that the flows were erupted within a short time period, or that the strength of geomagnetic secular variation was lower than that of the recent field.

(Table T1) Magnetic properties of MORB from ODP Leg 187 sites

The core samples of mid-ocean-ridge basalts (including Indian and Pacific type) recovered from the Southeast Indian Ridge (SEIR) area near the Australian Antarctic Discordance during Ocean Drilling Program Leg 187 were studied using rock magnetism, mineralogy, and petrography methods. On the basis of thermomagnetic analyses and low-temperature magnetometry, the dominant magnetic carrier in most of the basalt samples (pillow basalts) is characterized as titanomaghemite, which presumably formed by low-temperature oxidation of primary titanomagnetite. Some samples from unaltered massive basalts contain nearly unoxidized titanomagnetite as the main magnetic mineral. A metadiabase sample showing greenschist facies metamorphism contains magnetic minerals dominated by magnetite. The pillow basalts contain titanomaghemite ranging from stable single-domain to pseudosingle-domain (PSD) grains, and the majority are characterized by a single stable component of remanence. The massive basalts show hysteresis features of larger PSD grains and contain a very low coercivity remanence. The values of natural remanent magnetization (NRM) of the samples in this SEIR area are on the same order as those of other oceanic ridge basalts. They show a general decreasing trend of NRM with increasing crust age. However, the values of NRM show no correlation either with the tectonic zonations (Zone A vs. Zone B) or with the mantle provinces (Pacific vs. Indian types).

(Table 1) Magnetic properties and Curie temperatures of basalts from DSDP Leg 65 holes

During DSDP Leg 65, we achieved significant basement penetration at three sites (482, 483, and 485) in the mouth of the Gulf of California (Lewis and Robinson, 1983, doi:10.2973/dsdp.proc.65.1983). Since these holes were all drilled into extremely young crust near the crest of the East Pacific Rise, the rocks we recovered present an unusual opportunity to study the magnetic properties of submarine basalts before alteration has become pervasive. To take advantage of this opportunity and to complement the paleomagnetic studies conducted on these basalts by Day (1983, doi:10.2973/dsdp.proc.65.138.1983), we have studied, in the same samples, the following properties: saturation magnetization (Js); intensity and stability of isothermal remanent magnetization (IRM); hysteresis parameters, such as the coercive force (Hc), the remanent coercive force (HRC), and the ratio of saturation remanence (JRS) to saturation magnetization; susceptibility (x); and Curie temperature (Tc). In this chapter we will discuss the results of these studies in conjunction with the opaque mineralogy of the samples.

The 1998-2001 submarine lava balloon eruption at the Serreta Ridge (Azores archipelago): constraints from volcanic facies architecture, isotope geochemistry and magnetic data

The most recent submarine eruption observed offshore the Azores archipelago occurred between 1998-2001 along the submarine Serreta ridge (SSR), ~4-5 nautical miles WNW of Terceira Island. This submarine eruption delivered abundant basaltic lava balloons floating at the sea surface and significantly changed the bathymetry around the eruption area. Our work combines bathymetry, volcanic facies cartography, petrography, rock magnetism and geochemistry in order to (1) track the possible vent source at seabed, (2) better constrain the Azores magma source(s) sampled through the Serreta submarine volcanic event, and (3) interpret the data within the small-scale mantle source heterogeneity framework that has been demonstrated for the Azores archipelago. Lava balloons sampled at sea surface display a radiogenic signature, which is also correlated with relatively primitive (low) 4He/3He isotopic ratios. Conversely, SSR lavas are characterized by significantly lower radiogenic 87Sr/86Sr, 206Pb/204Pb and 208Pb/204Pb ratios than the lava balloons and the onshore lavas from the Terceira Island. SSR lavas are primitive, but incompatible trace-enriched. Apparent decoupling between the enriched incompatible trace element abundances and depleted radiogenic isotope ratios is best explained by binary mixing of a depleted MORB source and a HIMU­type component into magma batches that evolved by similar shallower processes in their travel to the surface. The collected data suggest that the freshest samples collected in the SSR may correspond to volcanic products of an unnoticed and more recent eruption than the 1998-2001 episode.

New rock salt-related oxides Li3M2RuO6 (M=Co, Ni): Synthesis, structure, magnetism and electrochemistry

We describe the synthesis, crystal structure, magnetic and electrochemical characterization of new rock salt-related oxides of formula, Li3M2RuO6 (M=Co, Ni). The M=Co oxide adopts the LiCoO2 (R-3m) structure, where sheets of LiO6 and (Co-2/Ru)O-6 octahedra are alternately stacked along the c-direction. The M=Ni oxide also adopts a similar layered structure related to Li2TiO3, where partial mixing of Li and Ni/Ru atoms lowers the symmetry to monoclinic (C2/c). Magnetic susceptibility measurements reveal that in Li3Co2RuO6, the oxidation states of transition metal ions are Co3+ (S=0), Co2+ (S=1/2) and Ru4+ (S=1), all of them in low-spin configuration and at 10 K, the material orders antiferromagnetically. Analogous Li3Ni2RuO6 presents a ferrimagnetic behavior with a Curie temperature of 100 K. The differences in the magnetic behavior have been explained in terms of differences in the crystal structure. Electrochemical studies correlate well with both magnetic properties and crystal structure. Li-transition metal intermixing may be at the origin of the more impeded oxidation of Li3Ni2RuO6 when compared to Li3CO2RuO6. Interestingly high first charge capacities (between ca. 160 and 180 mAh g(-1)) corresponding to ca. 2/3 of theoretical capacity are reached albeit, in both cases, capacity retention and cyclability are not satisfactory enough to consider these materials as alternatives to LiCoO2. (C) 2013 Elsevier Inc. All rights reserved.