Infrared spectra of mixtures of heated and unheated clay: Solving an interpretational conundrum

Isaac Ogloblin Ramirez*, Zachary C. Dunseth, Dina Shalem, Ruth Shahack-Gross

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review


Fourier transform infrared (FTIR) spectroscopy is frequently used for archaeological studies related to fire, allowing, among other things, researchers to distinguish between unheated and heated clay minerals. However, heat signatures are not always clear-cut in infrared spectra of bulk sediments, as spectra occasionally appear with ambiguous absorbance bands attributed to hydroxyl (OH) in clay minerals. This paper presents an experimental study addressing this interpretational problem by considering the effect of mixtures of heated and unheated clay, a phenomenon expected in archaeological sites. After creating experimental mixtures and testing them using bulk FTIR spectroscopy, our results indicate that even a relatively small amount of unheated clay—only ca. 5%–10% mixed into a fully heated deposit—will result in ambiguous infrared spectra that are difficult to interpret. For comparison, ambiguous bulk FTIR spectra from two archaeological contexts—an ashy fill within a pit installation and a hearth—were studied with FTIR microspectroscopy, which demonstrated the presence of unheated clay within a largely heated deposit. Micromorphological observations explain the mixed nature of the investigated archaeological contexts, in this case, primarily via bioturbation. Our results thus emphasize the importance of microcontextual analysis of clay minerals. Furthermore, these results indicate that heated deposits are likely missed altogether in some archaeological contexts where only bulk FTIR analyses have been conducted.

Original languageEnglish
JournalGeoarchaeology - An International Journal
StateAccepted/In press - 2023
Externally publishedYes


  • bulk FTIR
  • clay alteration
  • FTIR microspectroscopy
  • postdepositional processes
  • spectrum interpretation


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