Charles Golden
This is my temporary bio
Phone: 781-736-2217
Address: Department of Anthropology
MS006
Brandeis University
415 South Street
Waltham, MA 02454
Phone: 781-736-2217
Address: Department of Anthropology
MS006
Brandeis University
415 South Street
Waltham, MA 02454
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Papers by Charles Golden
We present results from the archaeological analysis of 331 km2 of high-resolution airborne lidar data collected in the Upper Usumacinta River basin of Mexico and Guatemala. Multiple visualizations of the DEM and multi-spectral data from four lidar transects crossing the Classic period (AD 350–900) Maya kingdoms centered on the sites of Piedras Negras, La Mar, and Lacanja Tzeltal permitted the identification of ancient settlement and associated features of agricultural infrastructure. HDBSCAN (hierarchical density-based clustering of applications with noise) cluster analysis was applied to the distribution of ancient structures to define urban, peri-urban, sub-urban, and rural settlement zones. Interpretations of these remotely sensed data are informed by decades of ground-based archaeological survey and excavations, as well as a rich historical record drawn from inscribed stone monuments. Our results demonstrate that these neighboring kingdoms in three adjacent valleys exhibit divergent patterns of structure clustering and low-density urbanism, distributions of agricultural infrastructure, and economic practices during the Classic period. Beyond meeting basic subsistence needs, agricultural production in multiple areas permitted surpluses likely for the purposes of tribute, taxation, and marketing. More broadly, this research highlights the strengths of HDBSCAN to the archaeological study of settlement distributions when compared to more commonly applied methods of density-based cluster analysis.
In this article we analyze the content and form of 58 stone monuments at the archaeological site of Lacanjá Tzeltal, Chiapas, Mexico, which recent research confirms was a capital of the Classic Maya polity Sak Tz'i' (“White Dog”). Sak Tz'i' kings carried the title ajaw (“lord”) rather than the epithet k'uhul ajaw (“holy lord”) claimed by regional powers, implying that Sak Tz'i' was a lesser kingdom in terms of political authority. Lacanjá Tzeltal's corpus of sculptured stone, however, is explicitly divergent and indicates the community's marked cultural autonomy from other western Maya kingdoms. The sculptures demonstrate similarities with their neighbors in terms of form and iconographic and hieroglyphic content, underscoring Lacanjá Tzeltal artisans’ participation in the region's broader culture of monumental production. Nevertheless, sculptural experimentations demonstrate not only that lesser courts like Lacanjá Tzeltal were centers of innovation, but that the lords of Sak Tz'i' may have fostered such cultural distinction to underscore their independent political character. This study has broader implications for understanding interactions between major and secondary polities, artistic innovation, and the development of community identity in the Classic Maya world.
This paper presents the archaeological evaluation of 458 tiles of LiDAR collected by environmental scientists over southern Mexico using the G-LiHT system of NASA’s Goddard Space Flight Center. Specifically, this article describes the results of a full processing, inspection, and annotation of these data for the identification and baseline analysis of archaeological features. In this paper, we: 1) introduce the dataset and describe our efforts to systematically process and annotate archaeological features and 2) revisit the cultural and ecological context of the samples. The results presented here confirm some of the conclusions presented previously, including the benefit of mining large previously acquired digital data for archaeological information, the diversity of lowland settlement and features in between areas already well-documented, and the contribution to landscape archaeology of such transect samples when coupled to macro-environmental data sets. These data also fill in some details about the prehispanic Mesoamerican landscape, raising new questions about the relationship between past settlements and regional cultural, political, and ecological systems. Finally, these data offer important foundational inventories for discussing how to preserve and conserve archaeological resources across the lowlands, especially when these resources are not tied to monumental architecture.
ancient landscapes and settlement. Such an approach is adaptive to fieldwork and is cost effective but still requires planning and thoughtful evaluation of samples. Future studies will test and evaluate the methods and techniques for filtering and processing these data.
We present results from the archaeological analysis of 331 km2 of high-resolution airborne lidar data collected in the Upper Usumacinta River basin of Mexico and Guatemala. Multiple visualizations of the DEM and multi-spectral data from four lidar transects crossing the Classic period (AD 350–900) Maya kingdoms centered on the sites of Piedras Negras, La Mar, and Lacanja Tzeltal permitted the identification of ancient settlement and associated features of agricultural infrastructure. HDBSCAN (hierarchical density-based clustering of applications with noise) cluster analysis was applied to the distribution of ancient structures to define urban, peri-urban, sub-urban, and rural settlement zones. Interpretations of these remotely sensed data are informed by decades of ground-based archaeological survey and excavations, as well as a rich historical record drawn from inscribed stone monuments. Our results demonstrate that these neighboring kingdoms in three adjacent valleys exhibit divergent patterns of structure clustering and low-density urbanism, distributions of agricultural infrastructure, and economic practices during the Classic period. Beyond meeting basic subsistence needs, agricultural production in multiple areas permitted surpluses likely for the purposes of tribute, taxation, and marketing. More broadly, this research highlights the strengths of HDBSCAN to the archaeological study of settlement distributions when compared to more commonly applied methods of density-based cluster analysis.
In this article we analyze the content and form of 58 stone monuments at the archaeological site of Lacanjá Tzeltal, Chiapas, Mexico, which recent research confirms was a capital of the Classic Maya polity Sak Tz'i' (“White Dog”). Sak Tz'i' kings carried the title ajaw (“lord”) rather than the epithet k'uhul ajaw (“holy lord”) claimed by regional powers, implying that Sak Tz'i' was a lesser kingdom in terms of political authority. Lacanjá Tzeltal's corpus of sculptured stone, however, is explicitly divergent and indicates the community's marked cultural autonomy from other western Maya kingdoms. The sculptures demonstrate similarities with their neighbors in terms of form and iconographic and hieroglyphic content, underscoring Lacanjá Tzeltal artisans’ participation in the region's broader culture of monumental production. Nevertheless, sculptural experimentations demonstrate not only that lesser courts like Lacanjá Tzeltal were centers of innovation, but that the lords of Sak Tz'i' may have fostered such cultural distinction to underscore their independent political character. This study has broader implications for understanding interactions between major and secondary polities, artistic innovation, and the development of community identity in the Classic Maya world.
This paper presents the archaeological evaluation of 458 tiles of LiDAR collected by environmental scientists over southern Mexico using the G-LiHT system of NASA’s Goddard Space Flight Center. Specifically, this article describes the results of a full processing, inspection, and annotation of these data for the identification and baseline analysis of archaeological features. In this paper, we: 1) introduce the dataset and describe our efforts to systematically process and annotate archaeological features and 2) revisit the cultural and ecological context of the samples. The results presented here confirm some of the conclusions presented previously, including the benefit of mining large previously acquired digital data for archaeological information, the diversity of lowland settlement and features in between areas already well-documented, and the contribution to landscape archaeology of such transect samples when coupled to macro-environmental data sets. These data also fill in some details about the prehispanic Mesoamerican landscape, raising new questions about the relationship between past settlements and regional cultural, political, and ecological systems. Finally, these data offer important foundational inventories for discussing how to preserve and conserve archaeological resources across the lowlands, especially when these resources are not tied to monumental architecture.
ancient landscapes and settlement. Such an approach is adaptive to fieldwork and is cost effective but still requires planning and thoughtful evaluation of samples. Future studies will test and evaluate the methods and techniques for filtering and processing these data.