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The alluvial diamond deposits of the lower Vaal river between Barkly West and the Vaal-Harts confluence in the Northern Cape province, South AfricaMatheys, Fabrice Gilbert January 1991 (has links)
The alluvial diamond deposits along the Vaal River, between Barkly West and the Vaal-Harts confluence, have been worked for more than one century by thousands of private diggers. The diamonds are recovered from two sedimentary units of Cenozoic age, the Older Gravels and the Younger Gravels. These rest on a basement of Ventersdorp Supergroup andesites and Karoo Sequence sediments, which have been intruded by Cretaceous kimberlites. The gravels are, in turn, overlain by the Riverton Formation and the Hutton Sand. On a large scale, tectonic setting, geomorphology and palaeoclimate have played a major role in the formation of diamondiferous placers in the area under investigation. A study of the sedimentology of the Younger Gravels was carried out with the aim of acquiring an understanding of the processes responsible for the economic concentration of high quality diamonds. An investigation of facies assemblages, clast composition, clast size, palaeocurrent directions external geometry, particle morphology and led to the conclusion that the Younger Gravels were deposited in a proximal braided stream environment during high discharge. A small-scale experiment was carried out to test the efficiency of different sedimentological trap sites in concentrating kimberlite indicator minerals. The results show that the concentration of indicator minerals is dependent on the size fraction chosen, bed roughness and gravel calibre. The examination of surface features on pyrope, picroilmenite and chrome diopside from kimberlite led to the conclusion that most of these minerals are locally derived. Diamond grade variations within the Younger Gravels are influenced by a combination of factors, including bed roughness, channel width and sorting process from the source. Alluvial diamond exploration programmes must take into account the tectonic setting, the palaeoclimate, the level of erosion, the stability of the drainage system in the area as well as the presence of local trap sites in the river profile. It is concluded that the diamonds are the product of a long and complex process of erosion, reworking and concentration and are derived from Cretaceous kimberlites in the area.
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Contextualized risk mitigation based on geological proxies in alluvial diamond mining using geostatistical techniquesJacob, Jana January 2016 (has links)
A thesis submitted to the Faculty of Engineering and the Built Environment, University of the Witwatersrand, Johannesburg, in fulfillment of the requirements for the degree of Doctor of Philosophy.
Johannesburg 2016 / Quantifying risk in the absence of hard data presents a significant challenge. Onshore mining of the diamondiferous linear beach deposit along the south western coast of Namibia has been ongoing for more than 80 years. A historical delineated campaign from the 1930s to 1960s used coast perpendicular trenches spaced 500 m apart, comprising a total of 26 000 individual samples, to identify 6 onshore raised beaches. These linear beaches extend offshore and are successfully mined in water depths deeper than 30 m. There is, however, a roughly 4 km wide submerged coast parallel strip adjacent to the mostly mined out onshore beaches for which no real hard data is available at present. The submerged beaches within the 4 km coast parallel strip hold great potential for being highly diamondiferous. To date hard data is not yet available to quantify or validate this potential. The question is how to obtain sufficient hard data within the techno economic constraints to enable a resource with an acceptable level of confidence to be developed. The work presented in this thesis illustrates how virtual orebodies (VOBs) are created based on geological proxies in order to have a basis to assess and rank different sampling and drilling strategies.
Overview of 4 papers
Paper I demonstrates the challenge of obtaining a realistic variogram that can be used in variogram-based geostatistical simulations. Simulated annealing is used to unfold the coastline and improve the detectable variography for a number of the beaches. Paper II shows how expert opinion interpretation is used to supplement sparse data that is utilised to create an indicator simulation to study the presence and absence of diamondiferous gravel. When only the sparse data is used the resultant simulation is unsuitable as a VOB upon which drilling strategies can be assessed. Paper III outlines how expert opinion hand sketches are used to create a VOB. The composite probability map based on geological proxies is adjusted using a grade profile based on adjacent onshore data before it is seeded with stones and used as a VOB for strategy testing. Paper IV illustrates how the Nachman model based on a Negative Binomial Distribution (NBD) is used to predict a minimum background grade by considering only the zero proportions (Zp) of the grade data.
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Conclusions and future work
In the realm of creating spatial simulations that can serve as VOBs it is very difficult to attempt to quantify uncertainty when no hard data is available. In the absence of hard data, geological proxies and expert opinion are the only inputs that can be used to create VOBs. Subsequently these VOBs are used as a base to be analysed in order to evaluate and rank different sampling and drilling strategies based on techno economic constraints. VOBs must be updated and reviewed as hard data becomes available after which sampling strategies should be reassessed. During early stage exploration projects the Zp of sample results can be used to predict a minimum background grade and rank different targets for further sampling and valuation. The research highlights the possibility that multi point statistics (MPS) can be used. Higher order MPS should be further investigated as an additional method for creating VOBs upon which sampling strategies can be assessed. / MT2017
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Provenance of alluvial diamonds in Southern Africa : a morphological and mineral chemistry study of diamonds and related heavy minerals from the Vaalorange system and the West CoastVan Der Westhuizen, Asriel 03 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The discovery of lucrative diamond deposits along the west coast of Southern Africa
about 1200 kilometres from the Kimberley region during the period 1908 to 1927,
gave rise to a number of different theories with respect to their possible provenance.
These included the transportation of diamonds from unknown sources in southern
Namibia by south-flowing rivers, hidden on- and off-shore kimberlites along the coast,
and transportation by west-bound rivers from the hinterland. Subsequent research
has shown that the latter is the only plausible theory.
The discovery of marine and coastal diamond deposits as far south as the Olifants
River estuary showed that the Vaal-Orange drainage in its current form could not
have been the only conduit for diamonds to the coast, and the drainage evolution
of southern Africa was interpreted as comprising essentially the following two main
palaeo-fluvial systems active in the formation of the world's only known diamond
mega-placer deposit:
The Karoo River with its headwaters similar to those of the modern Orange and
Vaal Rivers and entering the Atlantic Ocean via the present-day Olifants River;
The Kalahari River that drained southern Botswana and followed the route of the
modern-day Molopo River, entering the Atlantic Ocean in the vicinity of the
present Orange River mouth.
An important shortcoming of the above model is that it could not account for the
fact that diamond distribution along the west coast shows a marked increase in
grade and average stone size at the estuaries of all the major rivers draining from the
escarpment to the Atlantic between the Olifants and the Orange Rivers. The
presence of fluvial diamond deposits along the courses of the Buffels, Swartlintjies,
Spoeg, Horees and Groen Rivers confirms that the increased grade and diamond
size at their estuaries is not a function of large bays and rougher bottom topography
associated with the rivers, although these could have contributed to this
phenomenon. This proves that the catchments of the rivers between the Olifants and Orange Rivers also had access to diamondiferous debris, although they were
not in contact with these two major drainages.
A number of researchers proposed that diamonds liberated from pre-Karoo
kimberlites were moved from their primary hosts to the south-western parts of the
subcontinent by Dwyka glacials.
From the above it is clear that nearly a century after the discovery of diamonds
along the west coast of southern Africa consensus regarding their origin had not
been reached. The aim of this study was therefore to establish a model explaining
the most likely sources and distribution history of the more important alluvial diamond
deposits in southern Africa.
The methodology comprised a study of 1878 diamonds collected from 25 alluvial
and two kimberlitic sources for comparison with known similar data from 12
kimberlitic populations in southern Africa. The diamond study was supplemented by
a study of sedimentary clasts from bulk gravel samples taken along the Middle and
Lower Orange River as well as Scanning Electron-microscope (SEM) Analyses of
garnet grains and zircon geochronology.
The evidence from the study does not support the postulated existence of a former
Karoo River. The surface features of diamonds, notably brown spots indicating – in
the context of southern Africa - liberation from pre-Karoo kimberlites, as well as the
results of Fourier Transform Infrared analyses revealed that the populations at
Kwaggaskop along the Sout River, previously considered an erosion remnant of the
Lower Karoo River and those occurring south of Brandvlei and Van Wyksvlei in the
valley of the Sak River, previously considered to have been reworked from the
Middle Karoo River, differ profoundly from each other. In addition, the surface
feature studies and Fourier Transform Infrared Analyses clearly show major distinctions
between the diamond populations from the Sout River-Olifants River estuary and
those from the Kimberley kimberlite province which was said to have supplied diamonds in large quantities to the Olifants River estuary via the postulated Karoo
River. Furthermore the idea of a palaeo-Gamoep River playing a significant role in
the transportation of diamonds to the west coast is favoured by the presence of
brown-spotted diamonds and diamonds with Platelet Preservation Indices revealing
severe platelet destruction that could be traced through Bosluispan in the Koa River
valley, the Buffels River valley, the Buffels River estuary and to the shallow marine
environment north of the Buffels River.
Zircon geochronology confirmed the role of the Orange River in the denudation of
the sub-continent.
With respect to the drainage evolution and diamond distribution in southern Africa
the results of this study indicate a complex diamond dispersal model that differs in
some respects from prevailing theories. It shows that diamonds liberated from pre-
Karoo kimberlites in the north-eastern part of the sub-continent were initially moved in
a south-westerly direction by pre-Karoo drainages, then by Dwyka glaciers and ice
sheets. Ultimately, after liberation from exhumed glacial and fluvial deposits and
together with diamonds subsequently liberated from Jurassic and Cretaceous
kimberlites, Cretaceous and younger drainages provided the transport toward the
Atlantic Ocean where the diamonds were concentrated along shorelines and in
bedrock trap sites. Significant quantities did not reach the coast, but were locked
up in fluvial sediments in erosion remnants like terraces, karstic depressions and other
segments of palaeo-channels along the way.
The presence of diamonds with FTIR characteristics reminiscent of those from Orapa
and Jwaneng in the Orange River deposits as well as in a raised marine terrace in
southern Namaqualand and in marine deposits north of Concession 12A, also
negates the possible existence of a palaeo-Kalahari River, unless it was a very young
system that did not interrupt the south-bound dispersal of Botswana diamonds during
the Late Oligocene-Early Miocene. The study also included microscopic examination of a parcel of diamonds from the
enigmatic Skeleton Coast deposits, north-western Namibia. These results confirmed
the conclusion based on geological and geomorphic grounds that these diamonds
cannot be linked to the Oranjemund deposits, while their surface features showed
that pre-Karoo sources comprise the most likely provenance for the Skeleton Coast
diamonds.
Thus the combination of FTIR analyses and surface feature studies of diamonds,
zircon geochronology and SEM analyses of garnets allowed the formulation of a
revised model for the distribution of alluvial diamonds and the drainage history of the
sub-continent since the Middle Cretaceous, while the study of sedimentary clasts
confirmed the repeated occurrence of high energy fluvial conditions – especially
evident in the palaeo-Orange River sediments – that contributed to the high
percentage of gem stones in the surviving alluvial diamond populations due to the
destruction of poor quality diamonds. / AFRIKAANSE OPSOMMING: Die ontdekking van ryk alluviale diamantafsettings aan die suider-Afrikaanse weskus,
meer as 1200 kilometer van die Kimberley-omgewing af tussen 1908 en 1927, het 'n
aantal teorieë omtrent moontlike provenansgebiede vir hierdie afsettings tot gevolg
gehad. Dit het gewissel van die suidwaartse vervoer van diamante vanaf bronne in
suidelike Namibië, diamantdraende kimberliete in die kusvlaktes of op die
vastelandstoep onder huidige seevlak, tot die vervoer van diamante deur
weswaarts-vloeiende riviere vanuit die binneland.
Geen ontdekkings wat eersgenoemde teorie kon ondersteun is in Namibië gemaak
nie. Verder, namate meer gevorderde navorsingsresultate aan die lig gekom het,
het dit duidelik geword dat kimberliete wat weg van 'n antieke kraton geleë is,
grootliks sonder diamante is, en gevolglik het die idee van nabygeleë diamantdraende
kimberliete in die kusvlakte of op die seebodem as bron, onaanvaarbaar
geword. Grootskaalse wes- tot suidweswaartse vervoer van diamante het gevolglik
die enigste aanvaarbare alternatief gebied.
Die ontdekkiing van aan- en aflandige mariene afsettings tot so ver as suid van die
Olifantrsrivier het getoon dat die Vaal-Oranjestelsel in sy huidige vorm nie die enigste
vervoerkanaal vir diamante na die weskus kon wees nie. Die dreineringsgeskiedenis
van suidelike Afrika was gevolglik vertolk aan die hand van twee voorgestelde groot
oer-rivierstelsels, naamlik:
- Die Karoorivier met sy bolope naastenby soortgelyk aan dié van die moderne
Oranje- en Vaalriviere, en wat langs die huidige Olifantsrivier uitgemond het;
- Die Kalaharirivier wat die suide van Botswana gedreineer het, en min of meer
die roete van die huidige Moloporivier gevolg het, met sy monding baie naby
aan dié van die moderne Oranjerivier.
'n Belangrike tekortkoming in bogenoemde model is die feit dat dit nie 'n
verduideliking bied vir die volgende feit nie: Diamant-produksiedata van die Suid-Afrikaanse weskus toon 'n skielike toename in graad (karaat per 100 ton) en
gemiddelde steengrootte van diamante by die monding van al die belangrike
riviere tussen die Olifants- en Oranjeriviere, wat vanaf die platorand na die Atlantiese
Oseaan dreineer. Die feit dat fluviale diamantvoorkomste in die valleie van die
Bufffels-, Swartlintjies-, Spoeg-, Horees- en Groenriviere aangetref word, bevestig dat
hierdie verskynsel nie net aan die teenwoordigheid van kus-inhamme en ruwer
vloertopografie wat met die riviermondings geassosiëer is, toegeskryf kan word nie,
alhoewel dit wel „n bydrae tot hierdie waarneming kon maak. Dit bevestig dat
hierdie riviere wel in hul opvang-gebiede ook toegang tot diamanthoudende puin
gehad het, sonder enige kontak met die Olifants- of Oranjeriviere.
'n Aantal navorsers het die gedagte geopper dat diamante wat uit voor-Karoo
kimberliete vrygestel was, deur bewegende ysplate en/of gletsers vanaf hul
provenansgebiede na die suidweste van die subkontinent vervoer is.
Uit die voorafgaande paragrawe is dit duidelik dat, ongeveer ʼn eeu ná die
ontdekking van diamante langs die suider-Afrikaanse weskus, daar nog nie
eenstemmigheid bereik is oor die oorsprong van hierdie diamante nie. Die doel van
hierdie studie was gevolglik die daarstelling van „n model wat „n aanvaarbare
verduideliking bied vir die verspreiding en afsetting van sommige voorkomste van
spoeldiamante in suidelike Afrika soos tans waargeneem.
Vir hierdie doel is 1878 diamante afkomstig vanuit 25 alluviale en twee
kimberlietvoorkomste ondersoek. Die resultate is vergelyk met soortgelyke inligting
wat bekend is vir diamantpopulasies vanuit 12 suider-Afrikaanse kimberliete. Die
diamantstudie is aangevul met die ondersoek van spoelklippe vanuit gruismonsters
wat langs die Middel- en Benede Oranjerivier versamel is asook Skanderings-elektron
Mikroskoop-analises (SEM) van granaatkorrels en sirkoon-geokronologie.
Die resultate van hierdie studie ondersteun nie die hipotese van „n eertydse
Karoorivier nie. Die teenwoordigheid van bruin spikkels op diamante wat – in die konteks van die geologiese geskiedenis van suidelike Afrika – vrystelling vanuit vóór-
Karoo kimberliete impliseer, asook die resultate van FTIR-analises dui op „n komplekse
model wat „n alternatief bied vir bestaande sienswyses. Dit toon dat die
diamantpopulasies by Kwaggaskop langs die Soutrivier wat veronderstel was om die
Benede Karoorivier te verteenwoordig, en dié wat suid van Brandvlei en Van
Wyksvlei in die vallei van die Sakrivier aangetref word en veronderstel was om
afkomstig te wees uit die Middel Karoorivier, drasties van mekaar verskil. Dit
openbaar ook beduidende verskille tussen die diamantpopulasies van die
Olifantsriviermonding en dié van die Kimberley-omgewing waarvandaan die
veronderstelde Karoorivier groot hoeveelhede diamante aan die Sout-Olifantsrivier
sou gelewer het. Verder verskaf die teenwoordigheid van diamante met bruin
spikkels en diamante met eienskappe wat toon dat hul stikstofplaatjies vernietig is, „n
skakel tussen Bosluispan in die vallei van die Koarivier en die seegebied noord van
die Buffelsrivier, via die Buffelsriviervallei en die Buffelsriviermonding, en hierdie feite
ondersteun gevolglik eerder die voorstel dat groot hoeveelhede diamante deur die
paleo-Gamoeprivier na die weskus vervoer is.
Die teenwoordigheid van diamante met FTIR-kenmerke soortgelyk aan dié van
Orapa en Jwaneng in die Mid-Oranje afsettings, 'n mariene terras in die suide van
Namakwaland en in mariene konsessies noord van Seegebied 12A, opponeer ook
die gedagte van 'n paleo-Kalaharirivier, tensy laasgenoemde 'n baie jong stelsel was
wat nie die suidwaartse beweging van Botswana-diamante gedurende die Laat
Oligoseen tot Vroeg Mioseen verhinder het nie.
Die resultate van die sirkoon-geokronologie het die rol van die Oranjerivier in die
afplatting van die subkontinent bevestig.
Die volgende model tree uit bogenoemde waarnemings na vore: diamante wat in
die noordooste van die subkontinent uit kimberliete met „n voor-Karoo
inplasingsouderdom vrygestel is, is aanvanklik suidweswaarts vervoer deur voor-Karoo
riviere. Daarna is die diamante deur gletsers en ysplate gedurende die Dwyka-tydperk, en uiteindelik ná vrystelling vanuit ontblote glasiale en paleo-fluviale
afsettings tesame met diamante wat intussen vanuit Jura- en Krytouderom
kimberliete vrygestel is, deur die dreineringstelsels in die Kryt-tydperk en later, verder
suidweswaarts vervoer. Sommige het onderweg in fluviale sedimente (terrasse,
karstholtes en ander reste van paleokanale) agtergebly, terwyl „n beduidende
hoeveelheid tot in die Atlantiese Oseaan vervoer is waar hulle deur mariene prosesse
in ou strandlyne en bodemrots opvangstrukture gekonsentreer is.
Die studie het ook die mikroskopiese ondersoek van 'n pakkie diamante afkomstig
vanuit die enigmatiese afsettings aan die noordelike Skedelkus van Namibië ingesluit.
Op grond van geologiese en geomorfologiese getuienis word die afleiding gemaak
dat die Skedelkusdiamante nie met die Oranjemund-afsettings verbind kan word nie,
terwyl die mikroskopiese oppervlakteksture toon dat bronne met 'n voor-Karoo
inplasingsouderdom die mees waarskynlike provenans vir hierdie diamante is.
Die kombinasie van FTIR-analises en oppervlaktekstuur-studies van diamante, sirkoongeokronologie
en SEM-analises van granate het die formulering van „n hersiene
model vir die subkontinent se dreineringsgeskiedenis sedert die Middel-Kryttydperk en
diamantverspreiding moontlik gemaak terwyl die studie van sedimentêre klaste
getoon het dat hoë-energietoestande, waardeur diamante van swak gehalte
vernietig sou word, herhaaldelik voorgekom het, veral in die paleo-Oranjerivier. Die
afleiding word gemaak dat hierdie aspek „n bydrae gelewer het tot die hoë
persentasie juweelstene in die oorblywende alluviale diamantpopulasies.
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