organic residue analysis (Other Keyword)

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Melissa K. Logan.

Residue from a tubular pipe associated with a human burial from the Falls Creek Rockshelter site (5LP1434) was examined for pollen, starch grains, phytoliths, and organic residues, the latter using Fourier Transform Infrared Spectrometry (FTIR). These analyses are used to detect microscopic and molecular remains from plant and animal resources that might have been smoked and/or packed in the pipe for burial.

DOCUMENT Full-Text Melissa K. Logan. Linda Scott Cummings. Chad Yost.

Residue from a stone pipe associated with a human burial at the Darkmold Site near Durango, Colorado was examined for pollen, starch, and phytolith remains, as well as organic residues using Fourier Transform Infrared Spectrometry (FTIR). Organic residue analysis is used to detect molecular remains from plant and animal resources that might have been smoked and/or packed in the pipe for burial.

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Melissa K. Logan. Kathryn Puseman.

Six ceramic sherds from the Levee (12D363) and Keller (12D509) sites in Dearborn County, Indiana, were submitted for ceramic and organic residue analyses. Also submitted for phytolith, starch, and organic residue analyses were fill samples recovered from multiple layers of nine thermal features at the sites, including pit hearths and hearth dumps. Control samples associated with each feature also were examined for phytoliths and organic residues. In addition, charred parenchymous tissue samples...

DOCUMENT Full-Text Chad Yost. Melissa K. Logan. Linda Scott Cummings.

A pestle from the High Bar Cache site (10IH3488) in Hells Canyon, Idaho, was submitted for pollen, starch, phytolith, protein, and organic residue analyses. The sample was tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR). An AMS radiocarbon date of 525 ± 15 RCYBP had previously been obtained for fragments of inner cedar bark from a woven mat and a large bundle of bark included with this cache (Puseman 2010). Pollen, starch, phytolith, protein, and organic residue...

DOCUMENT Full-Text Chad Yost. Linda Scott Cummings.

A total of 37 stone artifacts from sites HhOu 70, HhOu 94, HhOu 95, HhOv 378, HhOv 380, HhOv 381, HhOv 384, HhOv 385, HhOv 387, HhOv 431, and HhOv 432 of the FMA 145503S MI07 Project located in northeastern Alberta, Canada, were submitted for analysis. These artifacts were subjected to pollen, starch, phytolith, protein residue, and organic residue (FTIR) analysis, depending on their likely function. The goal of this study is to better understand possible plant and animal remains that may have...

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Melissa K. Logan.

Groundstone, utilized flakes, and sediment samples from sites FB 223 and FB 9153 on the Fort Bliss Military Installation in Dona Ana County, El Paso, Texas were submitted for pollen, starch, phytolith, protein, and organic residue analysis. Organic residues are identified using Fourier Transform Infrared Spectroscopy (FTIR). The primary goal for analyzing these artifacts is recovery of evidence of food processing.

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost.

Two possible groundstone tools and three fire-cracked rocks (FCR) were submitted for pollen, starch grain, protein residue and/or organic residue (FTIR) analysis from site 24HL1085, located in the Bear’s Paw Mountains of north-central Montana. This site is situated on a low and narrow terrace overlooking the East Fork of Beaver Creek in Hill County, and the samples submitted are part of on-going work in the area. The goal of the current analysis is to determine what animals and plants might have...

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Melissa K. Logan.

Two fire broken rock fragments and an associated sediment sample were submitted for organic residue analysis, along with three bison bone fragments for AMS radiocarbon dating, and a single lithic tool for protein analysis from site FjPi-162, Alberta, Canada. Fourier Transform Infrared Spectroscopy (FTIR) was used to examine organic residues from the fire broken rock and sediment samples. Organic residue analysis was performed first on the two fire broken rock samples to determine if they were...

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Melissa K. Logan.

Sherds from seven handmade ceramic vessels used to cook squash, corn, wild rice, ramps, beans, and venison in water independently, and a mixture of corn, beans, squash, ramps, venison, and salt were submitted as an experimental study for the recovery of organic residues and their analysis using Fourier Transform Infrared Spectroscopy (FTIR). Upon receipt and examination of the sherds, personnel at PaleoResearch Institute decided to add analysis of pollen, starch, and phytoliths to gain...

DOCUMENT Full-Text Chad Yost. Melissa K. Logan. Linda Scott Cummings.

Originally, two obsidian bifacial scrapers were submitted for protein residue analysis using CIEP from the Yearling Spring Obsidian Biface Cache, located in Park County, Montana. An obsidian biface reduction flake coated with ochre residue was submitted in March 2012. A portion of the ochre residue was removed from the obsidian biface and tested for protein residues. In addition, a piece of ochre/soil matrix recovered from close proximity to the ochre coated tool was tested for protein residues...

DOCUMENT Full-Text Melissa K. Logan. Chad Yost.

A granite pestle and an associated soil control sample recovered from Feature 2, an exposed, low-lying granite bedrock milling station at Site CA-TUO-4818 in Yosemite National Park, California, were submitted for protein and organic residue analysis. The pestle was tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR), and for protein residue using cross-over immunoelectrophoresis (CIEP).

DOCUMENT Full-Text Melissa K. Logan. Chad Yost.

A granite pestle and an associated soil control sample recovered from Feature 2, an exposed, low-lying granite bedrock milling station at Site CA-TUO-4818 in Yosemite National Park, California, were submitted for protein and organic residue analysis. The pestle was tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR), and for protein residue using cross-over immunoelectrophoresis (CIEP). Following completion of this analysis, three additional residue samples and...

DOCUMENT Full-Text Chad Yost. Melissa K. Logan.

Lithic tools recovered from sites HhOv 87 and HhOv 200, Alberta, Canada were submitted for protein and organic residue analysis. Samples were tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR), and protein residues using cross-over immunoelectrophoresis.

DOCUMENT Full-Text Melissa K. Logan. Chad Yost.

Three projectile points and five feature fill samples were submitted for protein and organic residue analysis, respectively. The feature fill samples were tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR). Residue analysis should provide information on subsistence, including materials processed, and possible functions of the artifacts and features, as well as shed light on group mobility.

DOCUMENT Full-Text Melissa K. Logan. Chad Yost. Linda Scott Cummings.

Three tabular tools were submitted for protein residue analysis using cross-over immunoelectrophoresis. Five ceramic sherds were submitted for organic residue analysis using Fourier Transform Infrared Spectroscopy (FTIR). These artifacts were recovered from site AZ T:8:68 (ASM), located in Peoria, Arizona. The goal of these analyses was to detect and identify any plant and animal-based organic residues that may be present on the surfaces of these artifacts.

DOCUMENT Full-Text Chad Yost. Melissa K. Logan.

Two fire-broken rock samples were submitted for organic residue (FTIR) analysis and six lithic tools were submitted for protein residue (CIEP) analysis from site EaOh 23, located in southwestern Saskatchewan. These analyses are used to detect any animal and plant residues that may be present on the surfaces of these artifacts.

DOCUMENT Full-Text Melissa K. Logan. Chad Yost.

Site FdOt 32, situated near Hardisty, Alberta, Canada, was occupied approximately 1000 RCYBP, according to radiocarbon dates. A projectile point, three ceramic fragments, and one hearth fill sample were submitted for protein and organic residue analysis. Ceramics and hearth fill was tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR). A projectile point was tested for protein residue using cross-over immunoelectrophoresis (CIEP).

DOCUMENT Full-Text Melissa K. Logan. Chad Yost.

Hearth fill and fire-broken rock from sites EfOo 180, EfOo 134, and EjOp 29, Alberta, Canada, were submitted for organic residue analysis. Samples were tested for organic residues using Fourier Transform Infrared Spectroscopy (FTIR). Five lithic tools from these sites also were analyzed for protein residues. Protein and organic residue analysis provide information regarding diet, specifically materials processed using lithic tools and thermal features, respectively, at these sites.

DOCUMENT Full-Text Chad Yost. Melissa K. Logan.

Five lithic artifacts and three hearth fill samples from sites EfOo 146 and EgOp 5, discovered during the Keystone Pipeline Project in southern Alberta, Canada were submitted for protein and/or organic residue analyses (Table 1). A single hearth sample from site EfOo 146 was examined for organic residues using Fourier Transform Infrared Spectroscopy (FTIR), while ten samples were tested for organic residues and/or protein residues using immunoelectrophoresis.

DOCUMENT Full-Text Melissa K. Logan. Chad Yost. Linda Scott Cummings.

Lithics, fire-broken rock, and bone from sites EgPr 7, EgPr 8, EgPs 65, EgPs 66, EgPs 67, EgPs 68, EgPs 70, EgPs 87, EhPq 3, EhPr 4, EhPr 24, and EhPr 25 in Alberta, Canada, were submitted for protein and organic residue analysis, and AMS radiocarbon dating. These sites vary in cultural affiliation and occupation periods. AMS radiocarbon dating helps place the sites in an absolute chronological time frame, while protein and organic residue analysis provide information on the types of plants and...

DOCUMENT Full-Text Linda Scott Cummings. Caitlin A. Clark.

The Anzick Site (24PA506) is located in the intermontane Shields River Valley in Park County, Montana. This collapsed rockshelter contains burial features and an artifact assemblage. It was discovered by construction workers in 1968 (Stockton White, personal communication, October 17, 2018). The context of the site and burial and the original provenience of the artifacts are not known. Six lithics from the artifact assemblage were submitted for protein residue, and elemental composition (X-ray...

DOCUMENT Full-Text Chad Yost. Melissa K. Logan.

A single groundstone fragment with a utilized surface from site 46KA622 in Kanawha County, West Virginia, was submitted for organic residue analysis using Fourier Transform Infrared Spectroscopy (FTIR). Sixteen lithic tools and nine soil control samples also were submitted for protein residue analysis. These analyses will be used to determine possible materials processed with the artifacts.

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Melissa K. Logan.

Six chert projectile point fragments were submitted for protein residue analysis, along with two probable smoking pipe fragments for pollen, phytolith, starch, and organic residue analysis. As both pipe fragments belonged to the same pipe the fragment with the least naturally occurring asphaltum on the exterior was selected for organic residue analysis, and both fragments were used for pollen, phytolith, and starch analysis. The pipe fragment selected for organic residue analysis was tested...

DOCUMENT Full-Text Kathryn Puseman. Linda Scott Cummings. Chad Yost.

Protein residue analysis, organic residue analysis (FTIR), charcoal identification and/or AMS radiocarbon dating was conducted on several projectile points, ceramic, bone, and charcoal fragments from site GDON-18, near the eastern border of Alberta, Canada. The site is situated along the shore of Cold Lake, on a terrace of course sand. Vegetation in the area is generally comprised of boreal trees and shrubs, and associated understory plants. Residue analysis should provide some animal and plant...

DOCUMENT Full-Text Linda Scott Cummings. Chad Yost. Kathryn Puseman. Melissa K. Logan. R.A. Varney.

Samples from site 46BO419, Boone County, West Virginia were submitted for archaeobotanical and AMS radiocarbon dating analysis. Ceramic, lithic, and other stone tool artifacts were analyzed for protein residues (cross over immunoelectrophoresis) and organic residues (FTIR). Charred botanical remains were submitted for charcoal identification and AMS radiocarbon dating. Results of these analyses have the potential to increase the understanding of Early Archaic through Late Woodland periods in...