THE CHEMISTRY OF DISCOLORATION PROCESS ON ROCK ART IN MAROS-PANGKEP AND LEMBATA
In this study, the chemical analyses were conducted to analyse the discoloration of rock art in Leang Tedongnge, Leang Lompoa and Leang Balangajia sites, Maros-Pangkep Region, South Sulawesi and the Nali Site and Tene Koro Site, Lembata Region, East Nusa Tenggara. The analytical methods applied i...
Saved in:
| Main Author: | |
|---|---|
| Format: | Dissertations |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/67178 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In this study, the chemical analyses were conducted to analyse the discoloration
of rock art in Leang Tedongnge, Leang Lompoa and Leang Balangajia sites,
Maros-Pangkep Region, South Sulawesi and the Nali Site and Tene Koro Site,
Lembata Region, East Nusa Tenggara. The analytical methods applied in this
research included the analysis of color index using the PERAHU scale and
Nixcolor pro instruments, morphological analysis using an optical microscope,
microstructure and elemental distribution using SEM-EDS, elemental composition
analysis using XRF, mineral content analysis using XRD and Raman
spectroscopy, as well as functional groups and chemical bonds analyses using
FTIR and XPS. The results of the study on the Leang Tedongnge showed that the
discoloration was due to the presence of a gypsum-based grayish deposit layer on
the surface of the rock art. This layer is formed by geological process of the
reaction between calcium ions from the rock art material and sulfate ions. This
layer lead to the declining of rock art chromaticity of especially on the T3, T1 and
T4 samples with chromaticity values of 26.9, 12,3 and 7.5, respectively. XRF
characterization results demonstrated that the deposit layer is composed of Ca
and S elements. Furthermore, the discoloration of rock art in Leang Lompoa is
thought to be attributed to the formation of a charcoal-based black deposit layer.
The deposit is derived from burning activities around the rock art site. This
finding is indicated by the presence of peaks of D and G Bands at Raman shifts of
1326 cm-1 and 1598 cm-1. Furthermore, in Leang Balangajia, the discoloration
process occurs due to a blackish deposit on the surface of the rock art. The layer
is composed of whewellite (calcium oxalate) which is demonstrated by Raman
peaks of oxalate ion at wavenumbers of 493, 598, and 670 cm-1. Whewellite is
formed due to the presence of microorganisms that grow on rock art. Meanwhile,
the discoloration on the rock art of the Lembata Region is due to the formation of
a yellowish deposit composed of Ca, S, Si, and Al on the surface of the pigment
layer. The presence of the elements was shown by XRF and SEM-EDS
characterizations. The elements possibly come from clay and gypsum minerals
that are geologically formed on the rock art surface. Based on these results, it can
be concluded that the causes of discoloration at each site are different and depend
on certain factors related to site conditions. |
|---|