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Remote sensing driven lithological discrimination within nappes of the Naukluft Nappe Complex, Namibia

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Geological remote sensing is a powerful tool for lithological discrimination, especially in arid regions with
minimal vegetative cover to obscure rock exposures. Commercial multispectral imaging satellites provide a
broad spectral range with which to target specific rock types. Landsat ETM+ (7), ASTER, and SPOT 5
multispectral images were acquired and digitally processed: band ratioing, principle components analysis,
and maximum likelihood supervised classification. The sensors were evaluated on the ability to discriminate
between sedimentary rocks in a structurally complex setting. The study focusses on the formations of the
Naukluft Nappe Complex, Namibia.
Previous work of the area had to be consulted in order to identify the main target rock types. Dolomite,
limestone, quartzite, and shale were determined to make up the majority of rock types in the area. Landsat,
ASTER, and SPOT 5 imagery were acquired and pre-processed. Each was subjected to transform
techniques: band ratios and PCA. Band ratios were tailored to highlighted target rock types as well as a
number of control ratios to ensure the integrity of important ratios. PCA components were inspected to find
the most useful ones which were combined into FCCs. Transform results, expert knowledge, and a
geological map were consulted to identify training and accuracy samples for the supervised classifications.
All three classifications made use of the same set of training and accuracy samples to facilitate useful
comparisons.
Transform results were promising for Landsat and ASTER images, while SPOT 5 struggled. The limited
spectral resolution of SPOT 5 limited its use for identifying target rock types, with the superior spatial
resolution contributing very little. Landsat benefitted from good spectral resolution. This allowed for good
performance with highlighting limestone and dolomite, while being less successful with shale. Quartzite was
a real problem as the spectral resolution of Landsat could not cover this range as well. ASTER, having the
highest spectral resolution, could distinguish between all four target rock types. Landsat and ASTER results
suffered in areas where formations were relatively thin (smaller than sensor spatial resolution).
The supervised classification results were similar to the transforms in that both Landsat and ASTER provided
useful results, while SPOT 5 failed to yield definitive results. Accuracy assessment determined that ASTER
performed the best at 98.72%. Landsat produced an accuracy of 93.29% while SPOT 5 was 80.17%
accuracy. Landsat completely overestimated the amount of quartzite present, while all results classified
significant proportions Quaternary sediments as shale. Limestone was well represented in even the poorest
results, while dolomite usually struggled in areas where it was in close association with quartzite. Silica yields
relatively strong responses in the TIR spectrum which could lead to misclassification of dolomite, which also
has strong TIR signatures. / AFRIKAANSE OPSOMMING: Geologiese afstandswaarneming is 'n kragtige tegniek vir litologiese diskriminasie, veral in droë streke met
minimale plantbedekking om dagsome te verduister. Kommersiële multispektrale satelliete beelde bied 'n
breë spektrale reeks waarmee spesifieke gesteentetipes geteiken kan word. Landsat ETM + (7), ASTER, en
SPOT 5 multispektrale beelde was bekom en digitaal verwerk: bandverhoudings, hoofkomponente-ontleding,
en maksimum waarskynlikheid klassifikasie. Die sensors is geëvalueer op hul vermoë om te onderskei
tussen sedimentêre gesteentes in 'n struktureel komplekse omgewing. Die studie fokus op die formasies van
die Naukluft Dekblad Kompleks, Namibië.
Vorige werk van die area was geraadpleeg om die hoofgesteentetipes te identifiseer. Dit was bepaal dat
dolomiet, kalksteen, kwartsiet, en skalie die oorgrote meerderheid van kliptipes in area opgemaak het.
Landsat, ASTER, en SPOT 5 beelde is verkry en voorverwerk. Elke beeld was onderwerp aan
transformasietegnieke: bandverhoudings en hoofkomponente-ontleding. Bandverhoudings is aangepas om
teiken rotstipes uit te lig asook 'n aantal kontrole bandverhoudings om die integriteit van belangrike
verhoudings te verseker. Hoofkomponente-ontleding komponente is ondersoek om die mees bruikbares te
vind en dié was gekombineer in valse kleur samestellings. Transformasie resultate, deskundige kennis, en 'n
geologiese kaart was geraadpleeg om opleidings- en verwysingsmonsters was verkry vanaf die beelde vir
die klassifikasies. Al drie klassifikasies gebruik gemaak van dieselfde stel van die opleiding- en
akkuraatheidsmonsters om sodoende betekenisvolle vergelykings te verseker.
Transformasie resultate is belowend vir Landsat en ASTER beelde, terwyl SPOT 5 minder bruikbaar was.
Die noue spektrale resolusie van SPOT 5 beperk die gebruik daarvan vir die identifisering van teiken
gesteentetipes terwyl die hoë ruimtelike resolusie baie min bydra. Landsat het voordeel getrek uit goeie
spektrale resolusie. Dit goeie resultate opgelwer met die klem op kalksteen en dolomiet, terwyl skalie
aansienlik swakker resultate opgelewer het. Kwartsiet was 'n werklike probleem omdat die spektrale
resolusie van Landsat nie breed genoeg was om hierdie kliptipe te onderskei nie. ASTER, met die hoogste
spektrale resolusie, kon onderskei tussen al vier teiken rotstipes. Landsat en ASTER resultate was baie
negatief beïnvloed in gebiede waar formasies relatief dun was (kleiner as sensor ruimtelike resolusie).
Die klassifikasie resultate was soortgelyk aan die transformasies in dat beide Landsat en ASTER nuttige
resultate opgelewer het, terwyl SPOT 5 misluk het. Akkuraatheids assessering het bepaal dat ASTER die
beste gevaar het met 98,72%. Landsat het 'n akkuraatheid van 93,29% opgelewer, terwyl SPOT 5 80,17%
akkuraat was. Landsat het die hoeveelheid kwartsiet heeltemal oorskat, terwyl al die resultate groot
hoeveelhede Kwaternêre sedimente as skalie geklassifiseer het. Kalksteen is goed verteenwoordig in tot die
armste resultate, terwyl resultate gewoonlik afgeneem het waar dolomiet in noue verband met kwartsiet was.
Dit is moontlik asgevolg van silika se relatiewe sterk reaksies in die termiese infra-rooi spektrum wat kan lei
tot die foutiewe klassifisering met dolomiet (wat ook sterk reageer in die TIR spektrum).

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:sun/oai:scholar.sun.ac.za:10019.1/97147
Date04 1900
CreatorsVan der Merwe, Hendrik Naude
ContributorsMiller, Jodie Anne, Kemp, Jacobus Nicholas, Stellenbosch University. Faculty of Science. Dept. of Earth Sciences.
PublisherStellenbosch : Stellenbosch University
Source SetsSouth African National ETD Portal
Languageen_ZA
Detected LanguageUnknown
TypeThesis
RightsStellenbosch University

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