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Distribution and characterization of marine iron-rich particlesVon Der Heyden, Bjorn Phillip 12 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: This thesis investigates questions surrounding the role that iron-rich colloids (nominally sized
between 0.02 μm and 0.2 μm) and particulates (>0.2-0.45 μm) play in the context of the greater iron
biogeochemical cycle. To this end, this study complements a review of reported size-fractionated
iron (Fe) measurements with chemical and mineralogical data derived from synchrotron-based xray
measurements. From an extensive literature review, the global surface ocean colloidal iron (cFe)
pool is found to be highly dynamic, frequently exhibiting seasonal trends and nutrient-like
behaviour. Spatial variability in surface ocean colloidal iron concentration is primarily a function of
total iron supply, although the concentration and strength of iron-binding ligands, and inorganic
thermodynamic constraints are additional influential factors. The size-fractionated study of colloidal
Fe has rendered considerable evidence pointing towards direct or indirect biological utilization of
this cFe pool; however, a more complete understanding of cFe-biological interaction necessarily
requires better knowledge of cFe chemistry and mineralogy.
To address these issues, this thesis documents the development of a novel x-ray microscopy and
spectroscopy technique for determining the Fe speciation of individual Fe-rich particles under
environmental conditions. Variations in the peak splitting in iron L3-edge XANES (X-ray
Absorption Near-Edge Structure) spectra reflect changes in the local coordination environment
surrounding the metal centre. Specifically, the energy splitting ( ΔeV) and intensity ratio of the split
peaks at the L3-edge vary as a function of the Fe valence state, the number and chemistry of
coordinating ligands and polyhedral distortion effects; and combinations of the two parameters are
found to be characteristic of individual Fe minerals. To understand Fe speciation, the Δ eV versus intensity ratio plot was successfully applied to a variety of environmental Fe particles (greater than 20 nm diameter) collected from two ocean
basins; the Southern Ocean and the south western Pacific Ocean. Speciation differences in Fe
particles collected from the Southern Ocean show distinct compositional trends between the coasts
of South Africa and Antarctica, with different Fe pools associated with the different oceanographic
frontal zones. Despite the oxygenated nature of the seawater sampled, the presence of significant
particle-hosted Fe(II) was observed in both the Southern Ocean at high latitudes, and at sampling
sites proximal to the Kermadec Ridge in the Pacific Ocean. Ferrous iron particles at the latter study
area were shown to be strongly associated with carbon functional groups, notably alcohol and
carboxamine moieties. These findings, relating to particle chemical differences and associations with organic matter, have significant implications for our understanding of particle behaviour, their
surface interactions and the role that they play in primary productivity and global elemental cycles. / AFRIKAANSE OPSOMMING: Hierdie tesis ondersoek kwessies met betrekking tot die rol wat ysterryke kolloïede (van nominale
groottes tussen 0.02 μm en 0.2 μm) en partikels (>0.2-0.45 μm) in die konteks van die groter
ysterbiogeochemiese siklus speel. Vir hierdie doel bou die studie voort op ’n oorsig van aangemelde
grootte-gefraksioneerde yster- (Fe-)metings met behulp van chemiese en mineralogiese data wat uit
sinchrotrongebaseerde x-straalmetings verkry is. Na aanleiding van ’n uitvoerige literatuurstudie,
blyk die globale poel kolloïdale yster (cFe) op die see-oppervlak hoogs dinamies te wees en toon dit
dikwels seisoenale tendense en voedingstofagtige gedrag. Ruimtelike veranderlikheid in die cFekonsentrasie
op die see-oppervlak is hoofsaaklik ’n funksie van totale ystervoorsiening, hoewel die
konsentrasie en sterkte van ysterbindende ligande sowel as anorganiese termodinamiese beperkings
ook ’n invloed kan hê. Die grootte-gefraksioneerde studie van kolloïdale Fe het beduidende bewyse
opgelewer wat op die direkte of indirekte biologiese benutting van hierdie cFe-poel dui. Tog verg ’n
vollediger begrip van cFe- biologiese interaksie noodwendig meer kennis van die chemie en
mineralogie van cFe.
Om hierdie kwessies te ondersoek, dokumenteer hierdie tesis die ontwikkeling van ’n innoverende
X-straalmikroskopie- en X-straalspektroskopietegniek om die Fe-soortvorming van individuele Feryke
partikels in omgewingsomstandighede te bepaal. Variasies in die pieksplitsing van yster-L3
rand-XANES- (“X-ray absorption near-edge structure”-)spektra weerspieël veranderlikheid in die
lokale koördinasie-omgewing rondom die metaalkern. In die besonder wissel die energiesplitsing
( eV) en intensiteitsverhouding van die splitsingspieke by die L3-rand na gelang van die Fevalensietoestand,
die getal en chemie van koördinasie-ligande, en poliëdriese distorsie-effekte, en
kombinasies van die twee parameters blyk kenmerkend van individuele Fe-minerale te wees. Om Fe-soortvorming te verstaan, is die stipping van Δ eV versus intensiteitsverhouding suksesvol
toegepas op ’n verskeidenheid Fe-omgewingspartikels (groter as 20 nm in deursnee) wat uit twee
oseaankomme – die Suidelike Yssee en die suidwestelike Stille Oseaan – bekom is. Soortverskille
in Fe-partikels wat uit die Suidelike Yssee bekom is, toon kenmerkende samestellingspatrone tussen
die kus van Suid-Afrika en Antarktika, en verskillende Fe-poele word met die verskillende
oseanografiese frontsones verbind. Ondanks die suurstofhoudende aard van die seewatermonsters,
is beduidende Fe(II) in partikels opgemerk in die Suidelike Yssee by hoë breedteliggings sowel as
op studieterreine naby die Kermadec-rif in die Stille Oseaan. Ysterhoudende partikels van
laasgenoemde studieterrein het ’n sterk verband met koolstof- funksionele groepe, veral alkohol en karboksamien, getoon. Hierdie bevindinge met betrekking tot die chemiese verskille tussen
partikels en die verband met organiese materie het beduidende implikasies vir ons begrip van
partikelgedrag, die oppervlak-interaksies van partikels, en die rol wat dit in primêre produktiwiteit
en globale elementsiklusse speel.
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Geology and emplacement controls of the Stinkbank granite in the south Central Zone of the Pan-African Damara Belt, NamibiaVietze, Martin Ernst 03 1900 (has links)
Thesis (MSc (Earth Sciences))--University of Stellenbosch, 2010. / ENGLISH SUMMARY: Regional mapping of the Stinkbank granite in the south Central Zone of the Damara Belt, focused on an area of ca. 150 km2 in the SW parts of the granite along well exposed sections of the Khan River to the SW of the town of Usakos. The granite forms part of the regionally widespread granite suite of Salem-type granites that intruded at ca. 550-540 Ma into amphibolite-facies rocks of the Damara Supergroup. The Stinkbank granite is intrusive into the regional-scale, NE-trending D2 Kransberg syncline, cored by schists of the Kuiseb Formation and surrounded by marble units of the Karibib Formation.
The granite comprises three major lithotypes that have intruded in sequence. The earliest granites are represented by biotite-rich megacrystic granites, followed by leucocratic megacrystic granites and a final stage of voluminous, garnetiferous and tourmaline-bearing, medium-grained leucogranites. Contact relationships with the wall rocks are, for the most part, concordant, documenting the largely sheet-like geometry of the granites. Internal contacts between different granite phases are well preserved and indicate that the granites have intruded as shallowly-dipping, largely concordant sheets. Intrusive contact relationships and petrographic and geochemical characteristics indicate that each of the three major granite phases represented a distinct emplacement pulse. Successive emplacement of the granite sheets point to the assembly of the Stinkbank granite from the top down, with younger sheets intruding structurally below earlier emplaced granite sheets. This has created a pseudostratigraphy within the Stinkbank granite. The mapping of the internal contacts shows that the granite sheets were progressively folded into NE-trending, upright folds, parallel to D2 folds in the surrounding wall rocks. NE-trending magmatic and solid-state foliations in all granite phases are axial planar to the folds and underline the syntectonic emplacement of the Stinkbank granite during the D2 NW-SE subhorizontal shortening.
Based on the intrusive relationships and the progressive deformation of granite phases, an intrusive sequence can be developed for the Stinkbank granite. The earliest granite phases were emplaced during the onset of the regional D2 deformation, parallel to the subhorizontal bedding. Continued granite sheeting led to the vertical growth of the sheet-like granite and bending of the wall rocks above the inflating granite sheets, leading to the laccolithic geometry of the SW parts
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of the Stinkbank granite. Progressive deformation, folding of the granite sheets and fold amplification resulted in fold interference patterns in the SW parts of the Stinkbank granite.
The Stinkbank granite represents a mid-crustal granite with well-preserved granite sheeting that was assembled during regional deformation. Granite sheeting and progressive deformation illustrate the interplay between (1) regional strains, and (2) the orientation and presence of pre-existing wall-rock anisotropies (bedding) and their significance for the magmatic assembly and progressive deformation of the granite. / AFRIKAANSE OPSOMMING: Regionale kartering van die Stinkbank graniet in die suidelike Sentrale Sone (sSS) van die Damara Gordel. Die studie fokus op die area van ongeveer 150 km2 in die SW dele van die graniet, langs n goed blootgestelde seksie van die Khan Rivier, SW van Usakos. Die graniet vorm deel van n wydverspreide suite van Salem- tipe graniete wat tussen 550-540 Ma in die amfiboliet fasies gesteentes van die Damara Supregroep ingedring het. Die Stinkbank graniet kom voor in regionale –skaal , NE – neigende D2 Kransberg Sinklinorium, wat bestaan uit skis van die Kuiseb Formasie en marmer van die Karibib Formasie.
Die graniet bestaan uit drie hoof fases wat in volgorde ingedring het. Die oudste graniet is die biotiet-ryke megakristiese graniet, gevolg deur die leukokratiese megakristiese graniet en laastens die leukograniet. Kontak verhoudings met die wandgesteentes is grootendeels konkordant en dit dui op die feit dat die graniet uit lae bestaan. Die interne kontakte tussen die verskillende graniete is goed preserveer en dui aan dat die graniete voorkom as vlak lêende lae. Kontakverhoudings, petrografie en geochemiese karakteristieke dui aan dat elk van die die drie tiepes graniet uniek is. Die volgorde van intrusie van die Stinkbank graniet het voorgekom van bo na onder. Dit het n “skyn-stratigrafie” tot gevolg gehad. Kartering van die interne kontakte tussen die graniete het getoon dat die graniet lae is deurentyds gevou na NE- neigende, regop voue, parallel aan die D2 voue in die omringende wandegesteentes. NE- neigende magmatiese en soliede stadium foliasies in al die graniete is asvlak planêr aan die voue en dui ook op die syn-tektoniese intrusie van die Stinkbank graniet gedurende die D2 , NW-SE subhorisontale verkorting.
Intrusiewe verhoudings en die progressiewe deformasie van die graniet, dui dat n volgorde verkry kan word vir die Stinkbank graniet. Die oudste graniet fase het ingedring gedurende die begin van die streekse D2 deformasie, parallel aan die subhorisontale gelaagdheid. Aanhoudende graniet-lae intrusies het gely tot die groei van n laag-ryke graniet en die buiging van die omliggende wangesteentes om dit n lakoliet vorm te gee in die SW dele van die Stinkbank graniet. Progressiewe deformasie, vouing van graniet lae en vergroting van voue het tot vou-interferensie patrone in die SW dele van die Stinkbank graniet tot gevolg gehad.
Die Stinkbank graniet stel n middel- kors graniet met goed gepreserveerde gelaagdheid, wat gedurende regional deformasie ingedring het, voor. Graniet lae en progressiewe deformasie illustreer die verhouding tussen (1) regionale spanning en (2) die orientasie en teenwoordigheid van voorafbestaande wandgesteente anisotropie (gelaagdheid) en hulle belangrikheid vir die opbou en deformasie van die graniet.
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Die geologie van 'n gebied in Noord-Oos Transvaal met spesiale verwysing na die verspreiding en petrografie van die rotssoorte van die Palabora-stollings-kompleksBrandt, J. W.(Jacobus W.) 12 1900 (has links)
Thesis (DSc (Geology))--Stellenbosch University, 1948. / 375 leaves printed on single pages, preliminary pages and numbered pages1-312. Includes bibliography, figures and photos. / Digitized at 330 dpi color PDF format (OCR), using KODAK i 1220 PLUS scanner.
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The low-pressure partial-melting behaviour of natural boron-bearing metapelites from the Mt Stafford area, Central AustraliaSpicer, Esme Marelien 12 1900 (has links)
Thesis (DSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: This study has examined the 3 kbar partial melting behaviour of 4 metapelites collected from the highest grade rocks occurring below the anatectic zone of the Mt Stafford area, Arunta Inlier, central Australia. In this area, metasediments are interpreted to have undergone partial melting within the andalusite stability field, possibly as a result of a lowering of the metapelite solidus by the presence of boron in the rocks. Two of the samples were two mica metapelites (MTS70 and MTS71) that both contained significant quantities of tourmaline and were thus boron enriched. The other two samples were biotite metapelites. One of these rocks contains only a trace of tourmaline (MTS8) and the other is tourmaline free (MTS7). Despite expectations that muscovite in the two mica samples would break down via a subsolidus reaction, muscovite was stable to above 750 C due to the incorporation of Ti, phengitic and possibly F components into its structure. Between 750 and 800 C, muscovite melted out completely via a coupled muscovite + biotite fluid-absent incongruent reaction. In the most mica-rich sample this reaction produced ~ 60 % melt at 800 C. In the biotite metapelites, biotite melting began at a temperature below 800 C and was accompanied by very modest melt production at this low temperature. In contrast to the two mica metapelites, the main pulse of melt production in these samples occurred at a temperature between 850 and 950 C. In both these samples biotite + melt coexistence persisted for a temperature range in excess of 150 C, and in MTS8, biotite was still in the run products at 950 C. The very refractory nature of these evolved biotite compositions is most likely a consequence of both the presence of a Ti buffering phase in the assemblage (ilmenite) and the essentially plagioclase-free nature of the starting compositions. Under the fluid-absent conditions of this study tourmaline is clearly a reactant in the partial melting process, but does not appear to shift the fluid-absent incongruent melting reactions markedly. Neither quartz, nor andalusite was completely consumed in the melting reactions, indicating the metastable persistence of andalusite to higher than the wet solidus temperatures. The assemblages do not change much with increasing temperature and mimic the field relationships. The fluid-absent melting experiments indicated that the main pulse of melting occurred between 850 and 950 °C, significantly higher than indicated by the field evidence of 600 to 675 °C, therefor disequilibrium in the experiments can not be ruled out. The presence of a fluid during partial melting at Mt Stafford provides therefor an explanation of the low temperatures at which melting occurred. / AFRIKAANSE OPSOMMING: Die 3 Mpa vloeistof-vrye gedeeltelike smelting van 4 metapeliete, gekollekteer van die hoogste graad rotse net onder die anatektiese sone van die Mt Stafford area, Arunta inlêer, sentraal Australië, is bestudeer. Die metapeliete van hierdie area word geinterpreteer dat hulle gedeeltelike smelting in die andalusiet stabiliteitsveld ondergaan het, moontlik as 'n resultaat van die verlaging van die metapeliet solidus as gevolg van die teenwoordigheid van boor. Twee van die monsters bestudeer was twee-mika metapeliete (MTS70 en MTS71) met beduidende hoeveelhede toermalyn en is dus boor-verryk. Die ander twee monsters was biotiet metapeliete, waarvan een spoorhoeveelhede toermalyn (MTS8) bevat het en die ander toermalyn vry was (MTS7). Ten spyte van verwagtinge dat muskoviet in die twee mika monsters sou afbreek via 'n subsolidus reaksie, was dit stabiel tot bo 750°C as gevolg van die vervanging van Ti, fengitiese en moontlik F komponente in die muskoviet struktuur. Tussen 750 en 800°C het muskoviet heeltemal gesmelt deur die vloeistof-vrye gekoppelde muskoviet+biotiet reaksie. In die monster met die meeste mika het hierdie reaksie ~ 60 % gesmelt by 80°C en lae hoeveelhede smelt is by hierdie lae temperature geproduseer. In kontras met die twee-mika metapeliete het die hoof puls van smeltproduksie in hierdie monsters plaasgevind tussen 850 en 950°C. In beide hierdie monsters het biotiet+smelt 150°C. Biotiet was steeds ongesmelt in MTS8 by 950°. Die hoë refraktoriese natuur van hierdie biotiet samestellings is hoogs waarskynlik 'n gevolg van die teenwoordigheid van 'n Ti-bufferende fase (ilmenite) en die afwesigheid van plagioklaas in die begin samestellings. Toermalyn is duidelik 'n reaktant in hierdie vloeistof-vrye gedeeltelike smelting studie, maar dra nie beduidend by tot die verlaging van die inkongruente smeltingsreaksies nie. Nie kwarts of andalusiet het heeltemal gesmelt oor die temperatuurreeks nie, wat aandui dat die andalusiet stabiel is by temperature hoër as die nat solidus. Die mineraalverspreidings verander nie veel met verhoging in temperatuur nie en mimiek dus die veld verwantskappe. Die vloeistof-vrye smeltings eksperimente het aangedui dat die hoofpuls van smelting tussen 850 en 950°C geskied het, wat aansienlik hoër is soos aangedui uit die veldgetuienis van 600 tot 675°C, dus is die moontlikheid van disekwilibrium gedurende die eksperimente 'n moontlikheid. Die moontlikheid dat vloeistof teenwoordig was tydens die smeltproses by Mt Stafford verskaf dus 'n oplossing vir die lae temperature wat tydens smelting bereik is.
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Petrogenesis of S-type granites : the example of the Cape Granite SuiteVillaros, Arnaud 03 1900 (has links)
Thesis (PhD (Earth Sciences))--University of Stellenbosch, 2010. / ENGLISH SUMMARY: S-type granite intrusions are extremely common in the continental crust and form
from the partial melting of metasediments. Compositions of S-type granite range
from leucogranite to granodiorite and have trace element contents that globally
increase with increasing maficity (Fe + Mg). Models proposed for the formation
of S-type granite do not answer satisfactorily all petrological and compositional
requirements. In this study, S-type granite of the Cape Granite Suite (CGS), South
Africa is used to discriminate between potential sources of compositional variation.
Experimental studies show that melt produced from the partial melting of sediment
is exclusively leucocratic. On this basis, the entrainment of up to 20 wt.% of
peritectic garnet within S-type melt can be established to produce the observed
major element variations. S-type CGS locally contains garnet. This garnet is in
equilibrium with granite composition at P-T conditions (5kb and 750 C for the
core of the garnet and 3kb and 720 C for the rim) well below conditions recorded
by xenoliths from the same granite (10 kb and 850 C from a metabasite). From
this result it seems that the originally entrained garnet no longer exists in the Stype
CGS and it have been replaced by newly formed minerals (garnet, cordierite
and biotite). Considering the short time necessary to emplace granites (about
100 000 years), it appears that garnet has been compositionnally re-equilibrated through a dissolution-precipitation process. The study of trace element variations
in S-type CGS shows that most leucocratic compositions are undersaturated in
Zr and Ce compared to predictions from experimental models for dissolution of
accessory zircon and monazite in their source regions. Thus, S-type melts are
likely to be formed in disequilibrium with respect to accessory phase stability. As
a result the observed increase in trace element content with increasing maficity
indicates that accessory minerals such as zircon and monazite are co-entrained
with peritectic garnet in melt to produce the observed trace element variation in
S-type granite. Trace element disequilibrium in the CGS S-type granitoids requires
particularly short times of residence of melt within the source region. Together,
these results provide for the first time, a fully comprehensive model for major
and trace elements variations. Compositional variation in CGS S-type granite
results from source processes by a selective entrainment of peritectic and accessory
minerals. After entrainment, these minerals are likely to be re-equilibrated within
the magma, through a dissolution-reprecipitation process. In addition, it appears
that the construction of large S-type granitic bodies occurs through successive
addition of magma batches of different composition that originates directly from
the source region. / AFRIKAANSE OPSOMMING: S-tipe granietinstrusies is baie algemeen in die kontinentale kors en vorm deur
die gedeeltelike smelting van metasedimente. Samestellings van S-tipe graniete
strek vanaf leukograniet tot granodioriet en het spoorelementsamestellings wat
global toeneem met ’n toenemende mafiese component (Fe + Mg). Modelle wat
voorgestel is vir die formasie van S-tipe graniete beantwoord nie bevredigend al
die petrologiese en komposisionele benodigdhede nie. In hierdie studie word S-tipe
graniete van die Kaapse Graniet Suite (CGS), Suid Afrika, gebruik om te diskrimineer
tussen potensiele bronne van komposisionele variasie. Eksperimentele studies
wys dat smelt, geproduseer van die gedeeltelike smelting van sedimente, uitsluitlik
leukokraties is. Op hierdie basis kan bewys word, dat die optel-en-meevoering van
tot 20 wt% van peritektiese granaat in S-tipe smelt, die waargeneemde hoofelement
variasies kan produseer. S-tipe CGS bevat lokale granaat. Hierdie granaat is in
ekwilibrium met die graniet samestelling by P-T kondisies (5kb en 750circC vir die
kern van die granaat en 3kb en 720circC vir die rand) ver onder kondisies waargeneem
by xenoliete van dieselfde granite (10kb en 850circC van ’n metabasiet). Van
hierdie resultaat kan afgelei word dat die oorspronklike opgetel-en-meegevoerde
graniet bestaan nie meer in die S-tipe CGS en dat dit vervang is deur nuutgevormde
minerale (granaat, kordieriet en biotiet). As in ag geneem word die kort tyd wat nodig is om graniete in te plaas (omtrent 100 000 jaar), wil dit voorkom dat
granaat se samestelling geherekwilibreer word deur ’n oplossings-presipitasie proses.
Die studie van spoorelement variasies in S-tipe CGS wys dat meeste leukokratiese
samestellings is onderversadig in Zr en Ce in vergelyking met voorspellings deur
eksperimentele modelle vir die oplossing van bykomstige zircon en monasiet in hulle
brongebiede. Dus is S-tipe smelte meer geneig om gevorm te word in disekwilibrium
in verhouding tot bykomstige mineraalstabilileit. Met die gevolg is dat die
waargenome toename in spoorelementinhoud met toename in mafiese component
wys dat bykomstige minerale, soos zirkoon en monasiet, word saam opgetel-enmeegevoer
met peritektiese granaat in smelt om die waargenome spoorelement
variasie in S-tipe graniete te verklaar. Spoorelement disekwilibrium in die CGS
S-tipe granitoide benodig veral kort tye van residensie van die smelt binne die
brongebied. Saam gee hierdie resultate vir die eerste keer ’n algehele antwoord vir
hoof- en spoorelement variasies. Variasie in samestelling in CGS S-tipe graniete is
die resultaat van bronprosesse deur ’n selektiewe optel-en-meevoer van peritektiese
en bykomstige minerale. Na die optel-en-meevoer van hierdie minerale word hulle
geherekwilibreer binne die magma deur ’n oplossings-presipitasie proses. Addisioneel
wil dit voorkom of die konstruksie van groot S-tipe granietliggame plaasvind
deur opeenvolgende toevoegings van magma lotte van verskillende samestellings wat
direk uit die brongebied kom.
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Morphological reconstruction of the Kimberley-Elsburg series, with special reference to the Kimberley group of sediments in the East Rand basinDe Jager, F. S. J January 1952 (has links)
Thesis (DSc.)--Stellenbosch University, 1952. / ENGLISH ABSTRACT: The ideal geological column of the Kimberley-Elsburg Series
in the East Rand Basin is described, with particular reference to
the IQrnberley group of sediments.
A system of nomenclature has been devised, and it is suggested
that it could'also be used in other parts of the large structural
basin, stretching from Johannesburg'in the north to near Theunissen
in the south,. and from .Klerksdorp in the west to Greylingstad in the
east.
The stratigraphy of individual areas in the East Rand Basin is
described in detail, and it is shown that certain stratigraphic.units
display a remarkable regularity, maintaining their lithologica~
characteristics bver large areas, persisting also into the Greylingstad-
Balfour district, the Central Rand, the West and Far West Rand, the
Klerksdorp area, and into the Orange Free State goid field.
In the East Rand Basin the May Reef is the principal gold
carrier, and is of economic importance in certain mines. In the
Orange Free State gold field the lowermost Kimberley reef is also of
economic importance.
Three regional unconformities have been recognised in the part
of the column extending from below the Kimberley Shales to above the
May Reef. The May Reef covers the upper one', and owes its existence
to this period of erosion. The history of this reef could be traced
back to its parent rock~ in this case, stratigraphically older
auriferous gravels. The author believes that the unconformity below
the May Reef developed as a result of sub-aqueous erosion. The. oldest
erosion surface probably developed in the same way. The middle one
developed largely on the land, but was subsequently submerged.
It is concluded that the sediments of the Kimberley-Elsburg
Series were deposited in the marine neritic environment, i.e. in
a sea of substantial but not excessive depth.
A few remarks have been added on the metamorphism of the
System. An interesting feature in this connection is the occurrence
of ubiquitous authigenic rutile in the form of minute needles and
knee-shaped twins. It appears that the rutile developed as a stress
mineral, ilmenite having been the original detrital constituent. / AFRIKAANSE OPSOMMING: geen opsomming
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Petrogenesis of the syntectonic Matok Pluton in the Limpopo Belt (South Africa) and its implications of the geodynamic environmentRapopo, Mafusi 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: The ~2.67 Ga Matok pluton comprises calc‐alkaline pyroxene (px)‐bearing and px‐free granitoids. The pluton was constructed by means of two episodes of intrusion each of which had co‐magmatic px‐bearing and px‐free granitoid groups. All the granitoid groups (px‐bearing and px‐free) are characterised by non‐porphyritic and porphyritic varieties. The phenocrysts in both episodes of intrusion are plagioclase ± alkali feldspar and are aligned parallel to the trend of the Limpopo Belt, attesting to a syntectonic emplacement. The time gap between the first and second intrusion is insignificant and magma was most likely stored in the chamber after the first intrusion. Petrography and geochemical signature of both px‐bearing and px‐free granitoid samples have been studied and a petrogenetic model which accounts for the coeval px‐bearing and px‐free granitoids is proposed. The relevance of the syntectonic emplacement of the Matok pluton ie
n the Limpopo Belt is also addrssed. Px‐bearing granitoids always have clinopyroxene but orthopyroxene is not always present. Magnetite and ilmenite are present in both px‐bearing and px‐free granitoids but are more abundant in the px‐bearing granitoids and subordinate in the px‐free granitoids. Plagioclase in both px‐bearing and px‐free granitoids is of oligoclase (An12‐30) composition but is relatively more calcic and increases in modal abundance in the px‐bearing granitoids. Alkali feldspar is more dominant in the px‐free granitoids. Hornblende is present in all the px‐bearing granitoids and the px‐free granitoids with ≤71 wt.% SiO2 but is absent in the px‐free granites with >71 wt.% SiO2. Both magmatic epidote and titanite occur exclusively in the px‐free granitoids with ≤71 wt.% SiO2 and are absent in all the px‐bearing granitoids as well as the px‐free gra
nites with >71 wt.% SiO2. Px‐bearing granitoids are mainly of dioritic and granodioritic and have subordinate granitic composition while px‐free granitoids are mainly of granitic and granodioritic and have subordinate dioritic composition. All the rocks define well correlated variation of SiO2 with the rest of the major elements. However, there is always a hiatus between the granites with >71 wt.% SiO2 and all other rocks. Px‐bearing and px‐free granitoids at the same SiO2 concentrations tend to have approximately equal concentrations of MgO, CaO and TiO2, whereas K2O concentration is distinctively higher for the px‐free granitoids. The distribution of the high field strength elements (HFSE; Nb, Ta, Zr and Hf) and rare earth elements (REE) is similar in both px‐bearing and px‐free granitoids. On contrary, Th, U, Cs and Rb are characteristically higher in the px‐free granitoids. All granitoids are characterised by negative anomalies of the HFSE (Nb, Ta and Ti) and the LILE (Th, U and Sr) on primitive mantle normalised diagrams. On the one hand, concentrations of compatible elements (Cr, Ni and Mg) in the Matok pluton granitoids are rather low for a mantle source. On the other hand, all the granitoids have superchondtritic Nb/Ta ratios that overlap with those of the Ventersdorp continental flood basalts which extruded in the Kaapvaal Craton at ~2.7 Ga. The continental crust typically has subchondritic Nb/Ta ratio, and superchondtritic Nb/Ta ratios are widely accepted to resemble a mantle source. The implication is that the Matok pluton granitoids had inherited the superchondtritic Nb/Ta ratio from their source; juvenile underplated mafic magmas that had ponded owing to the impact of the Ventersdorp mantle plume. The large volumes of ponded magma
s probably induced the high grade metamorphism in the Limpopo Belt. All the granitoids of the Matok pluton are probably products of one partial melting event. One possible way to account for the co‐existence of px‐bearing and px‐free granitoids in the Matok pluton is by means of, at least, two magma chambers; one which was filled with anhydrous magma and the other which was filled with hydrous magma. An alternative model would be that in which there was only one chamber. In the one chamber scenario, the magma was hydrodynamically sorted into zones that differed mostly in fH2O and concentrations of highly fluid‐mobile elements but conserved the uniformity in fluid immobile elements. Regardless of the number of chambers, magma batches intruded in the form of feeder dikes which minimally interacted, thus avoiding the hydration of pyroxene in the px‐bearing granitoids. / SELELEKELA: Plutone ya Matok e fumanehang profinsing ya Limpopo sebakeng seo ho digeologist se tsebahalang ka hore ke Lebanta la Limpopo e ile ya aheya dilemong tse 2.67 biliyone tse fetileng. Plutone ena eile ya aheya ka mekgahlelo e mmeli, mme mokgahlelo ka mong o ne o bopilwe ka majwe a nang le pyroxene le a senang yona. Majwe kaofela ke a mofuta wa calc‐alkaline. Phapang e kgolo dipakeng tsa mefuta ena e mmedi ya majwe ke boteng ba pyroxene le boteng ba epidote le titanite majweng a nang le pyroxene le a senang pyroxene ka ho latellana. Ha e le diminerale tse ding kaofela tsona ha likgethe mofuta wa lejwe; liteng mefuteng ya majwe ka bobedi.
Kgonahalo ya hore plutone ya Matok e ahwe ka mefuta ena e mmedi (px‐bearing and px‐free) e tlile ka mekgoa e mmedi kapa o mong wa mekgwa ena yo ka bobedi e ka etsahalang. (1)Tlaase semelong sa lesheleshele moralla (magma) hone ho ena le didiba tse pedi, seseng se tshetse lesheleshele le chesang haholo ebile le le metsi a fokolang (anhydrous magma) ha se seng se ne se tshetse lesheleshele le metsi a mangata (hydrous magma). Ho tloheng moo didibeng tse pedi ho tla moo plutone ea Matok eleng teng kajeno masheleshele ana a ne a tla ka mokgwa wa di‐dike tseo kaofela phello ya tsona e neng e le sebakeng se le seng‐plutone ya
Matok. (2) Mokgwa wa bobedi ke haeba ho ne ho ena le sediba se le seng sa lesheleshele moralla, mme ka sedibeng ka moo ho ne ho ena le maqulwana (zones) a neng a fapane ka bongata ba metsi. Ho tloha sedibeng moo masheleshele ana a ne a tloha ka bona boqulwana boo entse ele ka mokhwa
wa di‐dike, mme kaofela phello ya di‐dike ene ele plutone ya Matok. Kaofela majwe a plutone ya Matok a na le feldspar eo boholo ba nako e patlameng ho ya nqa bophirimela‐bochabela (W‐E), e leng nqa eo Lebanta la Limpopo le phatlaletseng ka teng. Hona ho tiisa hore plutone ya Matok e aheile nakong yo Lebanta la Limpopo le neng le ntse le aheya le lona. Ke dilemong tse kabang 2.7 biliyone tse fetileng ha dikarolong tse ding tsa Cratone ya Kaapvaal ho ne ho aheya majwe a moralla a Ventersdorp. Majwe ana ke a hlahang tlaase botebong ba lefatshe (mantle), mme a susumeditswe ke plumo. Karolo boholo ya lesheleshele moralla hae ya ka ya nyoloha ho fihla hodimo lefatsheng. Empa mofuthu o mongata ho nyoloha leshelesheleng moo ke ona oileng wa 'pheha' majwe ho phatlalla le Lebanta la Limpopo. Ho nyoloha hona ha plumo ho etsahetse ka nako e lengwe le ho tsukutleha ho hoholo ho potapota le Cratone ya Kalahari, mme bobedi diketsahalo tsena diile tsa tswala Lebanta la Limpopo. Hobane plutone ya Matok e aheile hanghang ka mora hore lesheleshele la moralla le dule tlaase ho lekgapetla la lefatshe (crust), dielemente tse ratang haholo diminerale tsa ditemperetjha tse hodimo diile tsa feela jwalo di nkile lefa hotswa lesheleshele moralleng la Ventersdorp.
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Orthopyroxene stability within Kimberlite magma : an experimental investigationJacobs, Daniel A. B. 03 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The common presence of large volumes of coarse-grained olivine in kimberlite magmas has been proposed to attest to the volume of mantle xenolith material that has been disaggregated during the ascent of the magma. Orthopyroxene should constitute 10-50 vol% of mantle xenoliths in kimberlites, some of which must be disaggregated into the kimberlite, yet it is typically absent. This work tests the stability of orthopyroxene in ascending kimberlite magma by conducting experiments at pressures between 2.0 and 3.5 GPa and temperatures between 1100 and 1300°C. The starting material consisted of natural hypabyssal kimberlite that is close in composition to primary group I kimberlite magma with 5wt% orthopyroxene sourced from a natural peridotite added. At higher temperatures and pressures it is seen that orthopyroxene quantities exceed that of the starting material, but at lower temperatures and pressures it is absent. These results indicate that orthopyroxene is not stable in the magma composition investigated within the shallower part of the sub-continental lithospheric mantle. Based on increased olivine volumes in the experiments where orthopyroxene disappeared, as well as textural relationships between olivine and orthopyroxene, it is found that orthopyroxene dissolution is incongruent along the reaction Mg2Si2O6 (opx) = Mg2SiO4 (ol) + SiO2 (in the liquid). It is concluded that this reaction leads to a maximum addition of 5.5 vol% peritectic olivine to the kimberlite as it ascends through the depths equivalent to a pressure window of 2.0 to 3.5 GPa. / AFRIKAANSE OPSOMMING: The common presence of large volumes of coarse-grained olivine in kimberlite magmas has been proposed to attest to the volume of mantle xenolith material that has been disaggregated during the ascent of the magma. Orthopyroxene should constitute 10-50 vol% of mantle xenoliths in kimberlites, some of which must be disaggregated into the kimberlite, yet it is typically absent. This work tests the stability of orthopyroxene in ascending kimberlite magma by conducting experiments at pressures between 2.0 and 3.5 GPa and temperatures between 1100 and 1300°C. The starting material consisted of natural hypabyssal kimberlite that is close in composition to primary group I kimberlite magma with 5wt% orthopyroxene sourced from a natural peridotite added. At higher temperatures and pressures it is seen that orthopyroxene quantities exceed that of the starting material, but at lower temperatures and pressures it is absent. These results indicate that orthopyroxene is not stable in the magma composition investigated within the shallower part of the sub-continental lithospheric mantle. Based on increased olivine volumes in the experiments where orthopyroxene disappeared, as well as textural relationships between olivine and orthopyroxene, it is found that orthopyroxene dissolution is incongruent along the reaction Mg2Si2O6 (opx) = Mg2SiO4 (ol) + SiO2 (in the liquid). It is concluded that this reaction leads to a maximum addition of 5.5 vol% peritectic olivine to the kimberlite as it ascends through the depths equivalent to a pressure window of 2.0 to 3.5 GPa.
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Structural controls of auriferous quartz veins in the Karibib Area, southern central zone of the Pan-African Damara Belt, NamibiaKitt, Shawn 12 1900 (has links)
Thesis (MSc (Earth Sciences))--Stellenbosch University, 2008. / Detailed geological mapping and a structural analysis of auriferous quartz veins were
undertaken in the Karibib region of the Pan-African Damara belt in central Namibia. The
study focuses on the formation and controls of quartz-vein sets and associated lodegold
mineralization in heterogeneous, siliciclastic- and marble- dominated amphibolitefacies
host rocks around the Navachab gold mine and adjacent areas. Two main arrays
of shallowly-dipping quartz veins can be distinguished that form a conjugate set. Steep,
bedding-parallel and high-angle cross-cutting veins also occur, but play a subordinate
role for mineralization. The orientation of the main conjugate set and progressive
deformation of these quartz veins indicate that veining occurred during the late stages
of the main phase of NW-SE directed, subhorizontal shortening (D2) and associated
NW-verging folding and top-to-the-NW thrusting. Cross-cutting relationships with
plutonic rocks indicate a timing of ca. 540 Ma for the mineralization.
The quartz veins sets show a consistent orientation irrespective of their location with
respect to NE-trending, NW-verging first-order fold structures that were previously
considered to be pertinent for the mineralization. The quartz vein sets also cross-cut
different lithologies at high angles. This suggests that the regional strain (D2) was the
first-order control of quartz vein formation. More localized lithological and/or
structural controls played, however, an important factor for the formation of economicgrade
mineralization. Thick and closely spaced quartz veins in steeply dipping rocks of
the Navachab open pit form a more than 150m thick economic-grade vein swarm. In
this structural situation and during layer-normal subhorizontal shortening, the host
rocks experienced high extensional strains in a vertical direction, favouring the
formation of subhorizontal extension fractures.
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The mid-crustal architecture of a continental arc - a transect through the South Central Zone of the Pan-African Damara Belt, NamibiaAnthonissen, Christoffel Jasper 03 1900 (has links)
Thesis (MSc (Earth Sciences))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: The NE-trending South Central Zone of the Pan-African (ca. 550-500) Damara orogen in central
Namibia exposes deeply eroded mid-crustal rocks, thought to represent the magmatic arc of the
Damara orogen. Above average exposure of outcrop left unmodified by subsequent post-orogenic
processes made it possible to study the internal architecture of a ca. 50km traverse, stretching from
the continental suture-zone (between the Congo craton in the NW and the underplating Kalahari
craton in the SE) at the Okahandja Lineament Zone, well into the leading edge of the Congo craton
and into the magmatic-arc, the South Central Zone. This study considers and characterises the
change in structural styles and strain intensities in rocks of the Damara Supergroup and intrusions,
across the traverse between the towns of Otjimbingwe in the SE and Karibib in the NW.
In the SE of the traverse in the Okahandja Lineament Zone, steep, upright, tightly folded D2 fabrics in
meta-turbidites of the Tinkas and Kuiseb Formations record bulk NW-SE shortening and steep SW
extrusion of rocks. Penetrative non-coaxial fabrics imply a high-angle collsion between the Congo
and Kalahari cratons. This is in contrast to oblique collision described by a number of previous
authors (e.g. Blaine (1977), Stanistreet et al. (1991), Tack & Bowden, 1999). A marked decrease in D2
strain, and the presence of the silisiclastic basal Nosib group suggests the presence of the underlying
basement rocks and thus the leading edge of the Congo craton only a few km NW of the Okahandja
lineament. 8km NW of the Okahandja lineament is a km-scale NW verging F1 nappe, cored by
basement gneisses and refolded into a series of bi-vergent, doubly-plunging F2 folds, the Audawib
fold complex. The nappe is interpreted to have formed along a retroshear during early continental
collision (syn-D1, early-D2). Tectonically overprinted basement rocks are indicative of thermal
weakening, that resulted in the development of thick-skinned tectonics. Intruded mainly to the NW
of and around the aforementioned nappe are the areally extensive syn-D2 Salem-type granites.
Salem-type granites are shallowly intruded below the nappe and have likely detached the F1 nappe
from its root. NW of the Salem-type granites lies a basement window of ca. 15km2 surrounded by
the lower formations of the Damara Supergroup. Sheared marbles and D1 (early D2) diorites along
the basement contact indicate a shallow sheared detachment occurring just above the basement.
Basement rocks (1) unaffected by Damaran (D1-D2) tectonism and (2) unconformably overlain by
the Damara Supergroup are indicative of thin skin tectonics in this part of the South Central Zone,
some 30km NW of the Okahandja Lineament zone. Intrusive rocks across the South Central Zone
suggest that deformation in the NW ceased by 540 Ma, while deformation along the Okahandja
Lineament continued until at least 520 Ma.
iii
Along the Okahandja lineament, high angle continental collision resulted in tight, co-axial folding and
lateral extrusion of rocks along the continental backstop. The introduction of numerous late-D2
granites around the Okahandja Lineament Zone (such as the massive Donkerhuk granite) resulted in
thermal weakening of the crust, helping to accommodate lateral extrusion. Thermal weakening of
the basement allowed the development of thick-skinned tectonics and the formation of the Audwib
nappe. In the NW, cooler, more rigid crust deformed very differently to those in the SE, through
shallow shearing, thin skinned tectonics. Diachronous timing of the deformation in rocks in the NW
and SE of the traverse is due in part to the rheologic difference between cooler rocks in the NW that
had locked up to deformation, much earlier than thermally weakened ones in the SE at the plate
collision margin, where tectonic stresses where greater. / AFRIKAANSE OPSOMMING: Die NE-strekkende Suid Sentral Sone van die Pan-Afikaanse (ca. 550-500) Damara gordel in sentraal
Namibië stel diep gëerodeerde gesteentes van die middelkors blood wat die magmaties boog van
die Damara orogeen verteenwoordig. Goeie dagsome, ongemodifiseer deur subsekwente naorogenises
prosesse het dit moontlik gemaak om ‘n studie aan te pak van die interne argitektuur van
‘n omenby 50km opname wat strek van die kontinentale skeidings sone (tussen die Congo kraton in
die NW en die onderplatende Kalahari kraton in die SE) by die Okahandja Lineament Sone, tot ver
oor die die voorste punt van die Congo kraton in die magmatiese-boog, die Suid Sentral Sone.
Hierdie studie neem in ag en karakteriseer die verandering in struktuur styl en drukvervormings
(strain) intensiteit in klippe van die Damara Supergroep, tussen die dorpies Otjimbingwe in die SE en
Karibib in die NW.
In die SE van die traverse in die Okahandja lineament zone vind ’n mens styl, regop, styf gevoude D2
maaksels in die Tinkas en Kuiseb Formasies, wat bulk NW-SE verkortende en styl SW ekstrusie van
rotse aandui. Deurdringende nie-coaksiale maaksels impliseer n hoë-hoek botsing tussen die Congo
en Kalahari kratons. Dit is in teenstryding met skeefhoekige botsing wat voorgestel is deur verskeie
vorige outeurs (e.g. Blaine (1977), Stanistreet et al. (1991), Tack & Bowden, 1999). ‘n Vermindering
in D2 drukvervorming (strain) en die teenwoordigheid van van die silisiklastiese basale Nosib groep,
stel die verteenwoordigehid van die onderliggende vloergesteentes voor en sodoende, dat die
voorste punt van die onderliggende Congo kraton net ‘n paar kilomeer NW van die Okahandja
Lineament onwikkel is. 8km NW van die Okahandja Lineamnet is daar ‘n km-skaalse NW neigende F1
dekbladvou gekern deur gneis van die vloer gesteentes en hervou is tot ‘n klomp, bi-neigende,
iv
dubbel duikende F2 plooie in wat vernoem word die Audawib vou kompleks. Die dekbladvou word
geinterpriteer om te gevorm het vooraan a retro-verkuiwing, gedurende vreeë kontinentale botsing
(syn-D1, vroeë-D2). Oorverskuifde en herververvormde vloer gesteentes is ‘n aanduideing van
termale verswakking in die aarkors, wat gelei het tot “thick-skinned” tektoniek. Intrusiewe
gesteenste om, en na die NW van die Audawib dekblad vou is die’ weidverspreide Salem-tipe graniet.
Syn-D2 Salem-tipe graniete is vlak intrusief to onder die dekblad vou en het waarskynlik die F1 vou
van sy wortel sone ontkoppel. NW van die Salem tipe graniete lê ‘n 15km2 groote venster in die vloer
gesteentes in omring deur die onderste formasies van die Damara Supergroep. Verskuifde marmer
sowel en D1 (vroee-D2) dioriet lae op die vloer gesteente se boonste kontak dui daarop dat hierdie
boonste kontak verskeurings losmaakpunt is, ‘n tektoniese kontak. Vloergesteentes (1)
ongeaffekteerde deur Damara (D1-D2) tektoniek en (2) onkonformeerbare kontak met oorliggende
klippe van die Damara Supergroep is ‘n aanduding van “thin-skinned” tektoniek in die gedeelte van
die Suid Sentral Sone 30km NW van die Okahandja Lineament Sone. Intrusiewe gesteentes gee
aanduidings dat deformasie in die NW reeds ge-eeindig teen 540 Ma, terwyl vervorming in die
Okahandja Lineament Sone nog aktief was tot minstens 520 Ma.
Oor die Okahandja Lineament het die hoe-hoekige kontinentale botsing gelei tot stywe ko-aksiale
plooing en laterale ekstrusie van gesteentes langs die kontinentale “backstop”. Die intrusie van
verskeie laat-D2 grantiete (soos die masiewe Donkerhuk graniet) in die Okahandja lineament sone
het gelei tot termale verswaking van die kors wat gehelp het om laterale ekstrusie van klippe te
akkomodeer. Termale verswakking van vloer gesteentes het gelei tot die onwikkeling van “thickskinned”
tektoniek en die vorming van die Audawib dekblad vou. In die NW, het koeler, stewiger
gesteentes anders vervorm as daardies verder suid, deur vlak skeur-verkuiwings, “thin-skinned”
tectonics. Nie-samelopende vervorming in gesteentes in die NW en SE van die opname is die gevolg
van die rheologiese verskil tuseen die koeler gesteentes in die NW wat vroeer bestand geraak het
teen vervorm as warmer gesteentes in die SE teenaan die botsings sone, waar tektoniese druk
boonop groter was.
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