124 research outputs found
Supplement 1
<p>Supplement 1 of "The contribution of Mediterranean connectivity to morphological variability in Iron Age sheep of the Eastern Mediterranean", by Sierra A. Harding, Angelos Hadjikoumis, Shyama Vermeersch, Roee Shafir, and Nimrod Marom </p>
Ein Gedi 2017-2019 Gideon Hadas: Faunal remains
An Excel worksheet with the archaeozoological data collected by Polina Naumova and Nimrod Marom of the Laboratory of Archaeozoology at the University of Haifa. The data include identification of faunal remains collected in the Gideon Hadas and Orit Peleg (HUJI) excavations at En Gedi, by the Dead Sea
nmar79/predator-prey_RCdates: v0.2
<p>Pre-release of the code for the pre-print "A note on predator prey dynamics in radiocarbon datasets" by Nimrod Marom & Uri Wolkowski. Information in the readme.txt file.</p>
<p>The 20231109_data.RData file contains data from</p>
<p>Fox-Dobbs, K., Leonard, J.A., Koch, P.L., 2008. Pleistocene megafauna from eastern Beringia: Paleoecological and paleoenvironmental interpretations of stable carbon and nitrogen isotope and radiocarbon records. Palaeogeogr. Palaeoclimatol. Palaeoecol. 261, 30–46.</p>
<p>Lazagabaster, I.A., Égüez, N., Ullman, M., Porat, R., Wachtel, I., Davidovich, U., Marom, N., 2022. Cave paleozoology in the Judean Desert: assembling records of Holocene wild mammal communities. J. Quat. Sci. 37, 651–663.</p>
Malka Marom in conversation with Dr Ruth Charnock [Court and Spark: An International Symposium on the Work of Joni Mitchell]
Malka Marom, author of 'Joni Mitchell: In Her Own Words' in conversation with Dr Ruth Charnock as part of Court and Spark: An International Symposium on the Work of Joni Mitchell, July 3rd, 2015. Thanks to Adam O'Meara for making this film.</p
Ein Gedi 2017-2019 Gideon Hadas: Faunal remains
An Excel worksheet with the archaeozoological data collected by Polina Naumova and Nimrod Marom of the Laboratory of Archaeozoology at the University of Haifa. The data include identification of faunal remains collected in the Gideon Hadas and Orit Peleg (HUJI) excavations at En Gedi, by the Dead Sea.THIS DATASET IS ARCHIVED AT DANS/EASY, BUT NOT ACCESSIBLE HERE. TO VIEW A LIST OF FILES AND ACCESS THE FILES IN THIS DATASET CLICK ON THE DOI-LINK ABOV
Ein Gedi 2017-2019 Gideon Hadas: Faunal remains
An Excel worksheet with the archaeozoological data collected by Polina Naumova and Nimrod Marom of the Laboratory of Archaeozoology at the University of Haifa. The data include identification of faunal remains collected in the Gideon Hadas and Orit Peleg (HUJI) excavations at En Gedi, by the Dead Sea.THIS DATASET IS ARCHIVED AT DANS/EASY, BUT NOT ACCESSIBLE HERE. TO VIEW A LIST OF FILES AND ACCESS THE FILES IN THIS DATASET CLICK ON THE DOI-LINK ABOV
Hoofprints in the Sand Supplement S5: LSI Summary Stats by Site, Period, Element
Table of summary statistics produced in the LSI analysis per site, period, and skeletal element, as demonstrated in Harding, S. et al. Hoofprints in the Sand: A Metric Study of Livestock on the Southern Phoenician Coast. In preparation for Quaternary International
Hoofprints in the Sand Graphics: Figs. 1-11
Figure 1. Map of sites included in the LSI analysis.
Figure 2. Landmark (red) and SSLM (blue) configuration used in the GMM study, after Pöllath et al.( 2019).
Figure 3. LSI values for length (left) and width (right) grouped by zone (Coast/Inland) and subset into era (Bronze Age/Iron Age).
Figure 4. Distributions of LSI length values per site and period. Sample size is represented on the y-axis, and LSI values are represented on the x-axis. Vertical black dashed line and text within the facets represent mean values.
Figure 5. Distributions of LSI width values per site and period. Sample size is represented on the y-axis, and LSI values are represented on the x-axis. Vertical black dashed line and text within the facets represent mean values.
Figure 6. A scatter diagram of the two ADI indexes, Bd/Dl and Dl/GLl, formulated from linear measurements taken on the N=130 astragali included in the GMM analysis, modified after Davis (2017a: 65, fig. 9.3) (used with permission).
Figure 7. Results of the log-transformed centroid size analysis. The median size of astragali increases in the Persian period in Tell Keisan.
Figure 8. Biplot of the first two principal components, points are color-coded by context and sized according to log centroid size value. Thin plate spline (TPS) warp grids visualize morphological change between the minimum and maximum shapes along PC1 (x-axis) and PC2 (y-axis).
Figure 9. Boxplots depicting the range of variation along PC1 (left) and PC2 (right).
Figure 10. 10-PC’s shape space volume occupied by the specimens from each context.
Figure 11. A: Outlier specimen from Persian period Tell Keisan (Cat. #588). B: Modern sheep (O. aries) comparative specimen from Israel (Cat. #596)
Hoofprints in the Sand Graphics: Figs. 1-11
Figure 1. Map of sites included in the LSI analysis. Locations utilized in the ADI & GMM analyses are demarcated with a black target. See Supplement S1 for detailed site descriptions. Throughout this work inland sites (ABM, HZR, RHV) are represented in a warm color palette and the coastal sites (AZV, KBR, KSN, SHK, DOR) are represented in a cool palette. Maps were created using ArcGIS® software by Esri. ArcGIS® and ArcMap™ are the intellectual property of Esri and are used herein under license. Copyright © Esri. All rights reserved. For more information about Esri® software, please visit www.esri.com. (ArcGIS Desktop, 2019).
Figure 2. Landmark (red) and SSLM (blue) configuration used in the GMM study, after Pöllath et al.( 2019).
Figure 3. LSI values for length (left) and width (right) grouped by zone (Coast/Inland) and subset into era (Bronze Age/Iron Age).
Figure 4. Distributions of LSI length values per site and period. Sample size is represented on the y-axis, and LSI values are represented on the x-axis. Vertical black dashed line and text within the facets represent mean values.
Figure 5. Distributions of LSI width values per site and period. Sample size is represented on the y-axis, and LSI values are represented on the x-axis. Vertical black dashed line and text within the facets represent mean values.
Figure 6. A scatter diagram of the two ADI indexes, Bd/Dl and Dl/GLl, formulated from linear measurements taken on the N=130 astragali included in the GMM analysis, modified after Davis (2017a: 65, fig. 9.3) (used with permission).
Figure 7. Results of the log-transformed centroid size analysis. The median size of astragali increases in the Persian period in Tell Keisan.
Figure 8. Biplot of the first two principal components, points are color-coded by context and sized according to log centroid size value. Thin plate spline (TPS) warp grids visualize morphological change between the minimum and maximum shapes along PC1 (x-axis) and PC2 (y-axis).
Figure 9. Boxplots depicting the range of variation along PC1 (left) and PC2 (right).
Figure 10. 10-PC’s shape space volume occupied by the specimens from each context.
Figure 11. A: Outlier specimen from Persian period Tell Keisan (Cat. #588). B: Modern sheep (O. aries) comparative specimen from Israel (Cat. #596)
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