Lead-Antimony Mineralization at Bwlch Mine, Deganwy, Wales

Bevins, R. E.; Alderton, D. H. M.; Horák, Jana

doi:10.1180/minmag.1988.052.366.11

Cited by 1 publication

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“…It is notable that the veins of more variable trend are those developed south of the Iapetus Suture. Indeed, once we are as far south as the extensive Central Wales lead-zinc-silver district and the West Shropshire Orefield in England, most of the richer veins run EN-E, and N-S veins are absent (Jones 1922;Dines, 1958;Hughes, 1959;Fletcher et al, 1993;Bevins et al, 2010;Wilson et al, 2016;cf. the Rathdowney trend in Ireland: Torremans et al, 2018;Turner et al, 2019).…”

Section: Downward Excavating Cracking Engines and Their Approximate L...mentioning

confidence: 99%

On Irish bacteriometallogenesis and its wider connotations

Russell

2023

Irish-Type Zn-Pb Deposits Around the World

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Rapid and widespread access of surface waters to jostling segments of the upper crust marks the first step to metallogenesis in the Irish early Carboniferous. Overall, siting of these ore-forming systems involves two types of fluid-charged autocatalytic cracking engines. The more obvious is a province-wide diffuse type, excavating downward from the generally submarine surface to where waters are heated, dissolve metals and become buoyant enough to exploit channel ways back to the surface. Another, rather more obscure engine, starts near the mantle-crust boundary and either produces a through-going crustal structure to vectorially guide pressurized mantle volatiles and perhaps accompanying magma toward the surface, or it autonomously drills its way through the entire crust by penetrative convection, as in a diatreme. Either way ore-forming solutions are perhaps best incubated where both engines interact within the crust. But precipitation of minable metal requires structural down warp basins and associated saline, sulphate-reducing microbiome traps. So, whilst there is no unique ex-planation for the distribution of the orebodies, the Navan orebody, its southwest extension (SWEX) and its neigh-bour to the south, Tara Deep, do fall on a putative N-S Geofracture (Gf 3) first proposed in 1968/1969. But the N-S Geofracture hypothesis runs strongly against the “academic” grain! Moreover, no further discoveries can be unequivocally assigned to the hypothesis. So why persist with the notion at all? Well, there have been some other indications of such structures in adjacent countries and, most notably and farthest afield, on Mars which acts as a time machine for our planet! There the seismically active Cerberus Fossae structures have similar crustal joint aspect ratios of 40 to 55km, as with the putative Irish (and Scottish) examples. And five cold springs, sequentially younger to the east, happen to lie well-spaced along a 250km stretch of the northernmost Fossa. Yet there are no signs of mineral sulphide accumulations on Mars. Perhaps lacking there were sulphate-reducing bacteria required for the deposition of economic ores as in Ireland. Indeed, it was the discovery of light sulphate sulphur in the Irish ores, along with lithochemical and geological evidence for an exhalative aspect to them, that inspired the submarine alkaline vent theory (AVT) for the emergence of life. In this theory exothermic serpentinization drives hydrothermal convection cells to produce the exhalations into the Hadean Ocean. Here the free-energy convert-ing iron minerals (oxyhydroxides and sulphides) act as nano-engines in spontaneously precipitated membranes to generate the appropriate organic molecules required for life’s onset from volatile and hydrothermal delivery of CO2, H2, CH4 and the trace elements. These prebiotic nanoengines are powered by the electrical and pH disequilibria focused across the mineral membranes amounting to ~1 volt.

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Section: Downward Excavating Cracking Engines and Their Approximate L...mentioning

confidence: 99%

On Irish bacteriometallogenesis and its wider connotations

Russell

2023

Irish-Type Zn-Pb Deposits Around the World

View full text Add to dashboard Cite

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Lead-Antimony Mineralization at Bwlch Mine, Deganwy, Wales

Cited by 1 publication

References 9 publications

On Irish bacteriometallogenesis and its wider connotations

On Irish bacteriometallogenesis and its wider connotations

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