Estimates of heat flow and heat production and a thermal model of the São Francisco craton

Alexandrino, Carlos Henrique; Hamza, Valiya M.

doi:10.1007/s00531-007-0291-y

Cited by 38 publications

(18 citation statements)

References 31 publications

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“…Archean cratons are currently characterized by low heat flow, with an average of 41 mW/m 2 (Nyblade and Pollack, 1993), much less than the global continental average (65 mW/m 2 ) (Michaut et al, 2009;Davies, 2013). For example, the average heat flow value is 42 mW/m 2 in the Archean Superior Province (Jaupart and Mareschal, 1999;Rolandone et al, 2003), 46 mW/m 2 in the Canadian Shield (Mareschal et al, 2004), 36 mW/m 2 in the Archean Dharwar cratons of the Indian landmass (Gupta et al, 1991;Roy and Rao, 2000), 47 mW/m 2 in the Kalahari Craton, Southern Africa (Nyblade et al, 1990) and 28-53 mW/m 2 in the São Francisco Craton (Alexandrino and Hamza, 2008), respectively. Generally, a craton comprises a thick, cold, low-density, melt-depleted mantle keel (Menzies et al, 2007), which makes it buoyant, rigid, and stable.…”

Section: Introductionmentioning

confidence: 97%

Thermal regime of the North China Craton: Implications for craton destruction

He¹

2015

Earth-Science Reviews

118

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Section: Introductionmentioning

confidence: 97%

Thermal regime of the North China Craton: Implications for craton destruction

He¹

2015

Earth-Science Reviews

118

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“…On the other hand, unlike those derived from GDH reference models there are no discontinuities in the temperature field of the lithosphere (Hamza et al[16]). At this point it is convenient to consider the sensitivity of VBA model response to the values of the parameters listed inTable (1). For young ocean crust (with ages less than 55 Ma) the main parameter that controls bathymetry is δ , the best fit value of which is 0.6.…”

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confidence: 99%

A Magma Accretion Model for the Formation of Oceanic Lithosphere: Implications for Global Heat Loss

Hamza

Cardoso

Alexandrino

2010

International Journal of Geophysics

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A magma accretion model of oceanic lithosphere is proposed and its implications for understanding its thermal field examined. The new model (designated Variable Basal Accretion-VBA) assumes existence of lateral variations in magma accretion rates and temperatures at the boundary zone between the lithosphere and the asthenosphere. However, unlike the previous thermal models of the lithosphere, the ratio of advection to conduction heat transfer is considered a space dependent variable. The results of VBA model simulations reveal that the thickness of the young lithosphere increases with distance from the ridge axis, at rates faster than those predicted by Half-Space Cooling models. Another noteworthy feature of the new model is its ability to account for the main features in the thermal behavior of oceanic lithosphere. The improved fits to bathymetry have been achieved for the entire age range and without the need to invoke the ad-hoc hypothesis of large-scale hydrothermal circulation. Also, use of VBA model does not lead to artificial discontinuities in the temperature field of the lithosphere, as is the case with GDH (Global Depth Heat Flow) reference models. The results suggest that estimates of global heat loss need to be downsized by at least 25%.

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“…Also, "suture" techniques need to be employed in integration of data from several surveys in this area in obtaining a coherent analysis of the subsurface geological significance of the results and its correlations with structural features. Another parallel objective of this work has been comparison of maps of the residual anomalies of magnetic and the geothermal fields in the area of study as a means of obtaining complementary information on the thermal state of the upper crust in the study area [5].…”

Section: Introductionmentioning

confidence: 99%

Thermomagnetic Features of Crust in Southern Parts of the Structural Provinces of Tocantins and São Francisco, Brazil

Guimarães

Hamza

2013

ISRN Geophysics

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In the present work we report results of a regional scale investigation of the thermal and magnetic characteristics of the crust in the southern sector of the geologic provinces of Tocantins and São Francisco, Brazil. Updated compilations of aeromagnetic and geothermal data sets were employed for this purpose. Use of such techniques as vertical derivative, analytic signal, and Euler deconvolution in analysis of aeromagnetic data has allowed precise locations of the sources of magnetic anomalies and determination of their respective depths. The anomalies in the Tocantins province are considered as arising from variations in the magnetic susceptibilities and remnant magnetizations of alkaline magmatic intrusions of the Tertiary period. The lateral dimensions of the bodies are less than 10 km, and these are found to occur at shallow depths of less than 20 km. On the other hand, the anomalies in the cratonic areas are related to contrasts in magnetic properties of bodies situated at depths greater than 20 km and have spatial dimensions of more than 50 km. Analysis of geothermal data reveals that the cratonic area is characterized by geothermal gradients and heat flow values lower when compared with those of the Tocantins province.

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Estimates of heat flow and heat production and a thermal model of the São Francisco craton

Cited by 38 publications

References 31 publications

Thermal regime of the North China Craton: Implications for craton destruction

Thermal regime of the North China Craton: Implications for craton destruction

A Magma Accretion Model for the Formation of Oceanic Lithosphere: Implications for Global Heat Loss

Thermomagnetic Features of Crust in Southern Parts of the Structural Provinces of Tocantins and São Francisco, Brazil

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