Using a biographic-like approach, this article presents the initial results of the study of an el... more Using a biographic-like approach, this article presents the initial results of the study of an elite Iron Age house at Tel 'Eton, from its conception, through its birth and life, to its death and decomposition. Massive preparations preceded the construction of the house, and the latter incorporated continuous foundations, and quality building materials, including ashlar stones. The building was pre-planned, and some of the original rooms had two doorways leading to them, in order to enable easy future subdivision , without endangering the structure's physical integrity. The house evolved over the years, and its inner division changed overtime, reflecting the changes in the life-cycle of the extended family that lived in it. The house was destroyed in heavy conflagration in the late 8th century BC; hundreds of artifacts and complete vessels were unearthed below and within the debris, allowing for a detailed reconstruction of the use of space within the building on the eve of its destruction and the processes that accompanied its destruction (perhaps even 'execution'), and subsequent collapse.
The first encounter between archaeologists and the sites or areas of their study is the topsoil. ... more The first encounter between archaeologists and the sites or areas of their study is the topsoil. Still, very little attention is paid to the processes that create the matrix of the topsoil and the archaeological assemblage contained within it, and hence to what data can be obtained from it. This paper, which is part of a larger study on the formation of the archaeological record at Tel 'Eton, aims to reconstruct the way the topsoil was formed. For this purpose, we studied not only the mound's topsoil and archaeological layers below it, but also the site's environment, in terms of texture (sedimentation/decantation method), color (Munsell charts), phosphate concentration (Olsen method) and vegetation (aboveground plant biomass). Results showed differentiation between the sampling groups and geographical settings in all the measured parameters-in both values and variance. The data imply that the mound's topsoil was created by an upward movement of materials and their homogenization in the topsoil. Our results strongly suggest that these processes are likely to be more frequent on mounds, compared to their uninhabited environment. Beyond new insights on the processes of archaeological soil formation, this study has implications for both chemical and archaeological phenomena, such as the presence of artifacts on the surface, the color of archaeological soils, the widespread use of archaeological sites for agriculture (from antiquity to the 20 th century), and the provenance of mud-brick material.
The "governor's residency" at Tel 'Eton was destroyed in the late 8th century BCE in an Assyrian ... more The "governor's residency" at Tel 'Eton was destroyed in the late 8th century BCE in an Assyrian military campaign. While the numerous finds enable a detailed reconstruction of life on the eve of the destruction, this elite house was cleaned continuously, and since no floor raisings were identified, little was known of the building's period of use. Radiocarbon (14 C) samples taken from within a foundation deposit and from the floor make-up, however, indicate that the earliest phase of the residency was built in the late 11th-10th century BCE. This has bearings on the date in which social complexity evolved in Judah, on the debate regarding the historicity of the kingdom of David and Solomon, and it also provides the earliest date for the use of ashlar stones in Judah. Finally, the long life of the "governor's residency" exemplifies a little addressed phenomenon-the old-house effect-in which buildings and settlements existed for a few centuries, but only left significant remains from their last phase. The earlier phases are hardly represented in the finds, barely studied, and rarely published. We suggest that the old-house effect influences archaeological interpretations worldwide , and is also responsible for recent attempts to down-date social complexity in Judah.
Over the last century, crosstalk between archaeologists and botanists had focused on the identifi... more Over the last century, crosstalk between archaeologists and botanists had focused on the identification of plants remnants, such as charcoal or seeds found in archaeological inventory. Here we demonstrate how botany can play a fundamental role in identifying ancient landscape by using current vegetation. Identifying the loci of ancient human activity is the initial step of any archaeological study, enabling analyses such as settlement patterns, economic structures and land use, as well as devising excavations strategy. While mounds (tells) are standing out of their surroundings and are easily detected, other sites are hidden underground, and require various methods for detection. The cost and intensity of these methods vary, but most are time-consuming, require a team of specialists, and show somewhat limited success, leading archaeologists to seek new methods of site detection. Here, we describe a study of vegetational parameters at Tel ‘Eton (Israel), located in a semi-arid climatic region, where vegetation is mostly herbaceous, mainly comprised of annual plants. We compared above ground biomass, species richness and species composition among four plots in Tel ‘Eton and its surrounding. Two plots were located where ancient settlement found in a previous study, one on top of the mound and one below, where a “lower city” was previously identified. The other two plots were located in similar topographies, namely one on a hill and the other below, but in never-settled areas. While above ground biomass was similar between settled and not-settled plots, species richness was significantly higher in settled plots (40 and 32 species in settled plots, versus 28 and 9 species in non-settled) and species composition was significantly different between them. Our results demonstrate that loci of buried remains of human activity significantly differ from non-settled ones, hence providing the basis for an above ground indirect method of identification of human remains. We propose that floristic sampling of ground-level vegetation may allow archaeologists to identify buried sites, and hence increase the validity of various types of archaeological analyses, such as creating maps of settlements, which rely on the identification of sites without excavating them.
Using a biographic-like approach, this article presents the initial results of the study of an el... more Using a biographic-like approach, this article presents the initial results of the study of an elite Iron Age house at Tel 'Eton, from its conception, through its birth and life, to its death and decomposition. Massive preparations preceded the construction of the house, and the latter incorporated continuous foundations, and quality building materials, including ashlar stones. The building was pre-planned, and some of the original rooms had two doorways leading to them, in order to enable easy future subdivision, without endangering the structure's physical integrity. The house evolved over the years, and its inner division changed overtime, reflecting the changes in the life-cycle of the extended family that lived in it. The house was destroyed in heavy conflagration in the late eighth century BCE, and hundreds of artifacts and complete vessels were unearthed below and within the debris, allowing for a detailed reconstruction of the use of space within the building on the eve of its destruction, and the processes that accompanied its destruction (perhaps even "execution"), and subsequent collapse.
The eighth century BCE city at Tel 'Eton (Israel) was destroyed by the Assyrian army, probably du... more The eighth century BCE city at Tel 'Eton (Israel) was destroyed by the Assyrian army, probably during Sennacherib's campaign of 701. Building 101, sealed within the heavy conflagration caused by this destruction, was uncovered almost in its entirety on the top of the mound. From the beginning it was apparent that the structure had two major building phases, and while its initial construction was of high quality, later additions were much inferior. Analyses of mud-brick walls for firing temperatures, texture, carbonate content, color and dimensions, approved the observation regarding the differences between the two phases, but consistently pointed out that one wall, initially attributed to the first phase, was analytically different, comprising an intermediate phase. This conclusion not only altered our understanding of the building construction, adding heretofore unknown building phase, but also gave us insights into the pre-planning of Building 101, indicating that some rooms had originally two doorways. Such a configuration allowed easy sub-division of spaces according to needs, without harming the overall structural stability. Differences in inner division of similar Iron Age houses were identified in the past and were attributed to differences in the life-cycles of families. The evidence from Tel 'Eton suggests that such future changes were taken into considerations when the structures were built.
Identifying previously unknown sites is a fundamental goal of the archaeological inquiry. In this... more Identifying previously unknown sites is a fundamental goal of the archaeological inquiry. In this article, after reporting the results of our work at Tel 'Eton (Israel), we propose a new method that can increase the effectiveness of surveys. As part of a study of site formation processes, molehills (mole-rat back-dirt hills) were systematically sifted at Tel 'Eton and its surroundings. It was apparent that the number and size of sherds in molehills on the mound greatly exceeded those found in its surroundings. The incidental identification of many sherds in molehills northwest of the mound, therefore, led us to suspect that this area was settled. This was tested by transecting the area. The finds, along with discoveries in the wadis cutting the plain, support this suggestion and allowed us to detect the lower city's boundary. An examination of the site's environments, moreover, enabled us to identify additional anomalies, like the co-occurrence of concentrations of sherds, red-soiled molehills, and slags, which might indicate an extramural workshop. Consequently, we suggest that a systematic examination of rodents' back-dirt mounds can be an effective method—faster, cheaper, and more efficient than pedestrian surveys or shovel tests—of discovering unknown sites even in regions with good visibility.
A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San... more A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San Diego.
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general. The full (and updated) paper is now online: Sapir Y, Avraham A, and Faust A, Mud-brick Composition, Archaeological Phasing and Pre-Planning in Iron Age Structures: Tel 'Eton (Israel) as a Test-Case. Archaeological and Anthropological Sciences. DOI: 10.1007/s12520-016-0350-z. link: http://link.springer.com/article/10.1007/s12520-016-0350-z
A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San... more A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San Diego.
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general. The full (and updated) paper will be published soon in Archaeological and Anthropological Sciences.
Using a biographic-like approach, this article presents the initial results of the study of an el... more Using a biographic-like approach, this article presents the initial results of the study of an elite Iron Age house at Tel 'Eton, from its conception, through its birth and life, to its death and decomposition. Massive preparations preceded the construction of the house, and the latter incorporated continuous foundations, and quality building materials, including ashlar stones. The building was pre-planned, and some of the original rooms had two doorways leading to them, in order to enable easy future subdivision , without endangering the structure's physical integrity. The house evolved over the years, and its inner division changed overtime, reflecting the changes in the life-cycle of the extended family that lived in it. The house was destroyed in heavy conflagration in the late 8th century BC; hundreds of artifacts and complete vessels were unearthed below and within the debris, allowing for a detailed reconstruction of the use of space within the building on the eve of its destruction and the processes that accompanied its destruction (perhaps even 'execution'), and subsequent collapse.
The first encounter between archaeologists and the sites or areas of their study is the topsoil. ... more The first encounter between archaeologists and the sites or areas of their study is the topsoil. Still, very little attention is paid to the processes that create the matrix of the topsoil and the archaeological assemblage contained within it, and hence to what data can be obtained from it. This paper, which is part of a larger study on the formation of the archaeological record at Tel 'Eton, aims to reconstruct the way the topsoil was formed. For this purpose, we studied not only the mound's topsoil and archaeological layers below it, but also the site's environment, in terms of texture (sedimentation/decantation method), color (Munsell charts), phosphate concentration (Olsen method) and vegetation (aboveground plant biomass). Results showed differentiation between the sampling groups and geographical settings in all the measured parameters-in both values and variance. The data imply that the mound's topsoil was created by an upward movement of materials and their homogenization in the topsoil. Our results strongly suggest that these processes are likely to be more frequent on mounds, compared to their uninhabited environment. Beyond new insights on the processes of archaeological soil formation, this study has implications for both chemical and archaeological phenomena, such as the presence of artifacts on the surface, the color of archaeological soils, the widespread use of archaeological sites for agriculture (from antiquity to the 20 th century), and the provenance of mud-brick material.
The "governor's residency" at Tel 'Eton was destroyed in the late 8th century BCE in an Assyrian ... more The "governor's residency" at Tel 'Eton was destroyed in the late 8th century BCE in an Assyrian military campaign. While the numerous finds enable a detailed reconstruction of life on the eve of the destruction, this elite house was cleaned continuously, and since no floor raisings were identified, little was known of the building's period of use. Radiocarbon (14 C) samples taken from within a foundation deposit and from the floor make-up, however, indicate that the earliest phase of the residency was built in the late 11th-10th century BCE. This has bearings on the date in which social complexity evolved in Judah, on the debate regarding the historicity of the kingdom of David and Solomon, and it also provides the earliest date for the use of ashlar stones in Judah. Finally, the long life of the "governor's residency" exemplifies a little addressed phenomenon-the old-house effect-in which buildings and settlements existed for a few centuries, but only left significant remains from their last phase. The earlier phases are hardly represented in the finds, barely studied, and rarely published. We suggest that the old-house effect influences archaeological interpretations worldwide , and is also responsible for recent attempts to down-date social complexity in Judah.
Over the last century, crosstalk between archaeologists and botanists had focused on the identifi... more Over the last century, crosstalk between archaeologists and botanists had focused on the identification of plants remnants, such as charcoal or seeds found in archaeological inventory. Here we demonstrate how botany can play a fundamental role in identifying ancient landscape by using current vegetation. Identifying the loci of ancient human activity is the initial step of any archaeological study, enabling analyses such as settlement patterns, economic structures and land use, as well as devising excavations strategy. While mounds (tells) are standing out of their surroundings and are easily detected, other sites are hidden underground, and require various methods for detection. The cost and intensity of these methods vary, but most are time-consuming, require a team of specialists, and show somewhat limited success, leading archaeologists to seek new methods of site detection. Here, we describe a study of vegetational parameters at Tel ‘Eton (Israel), located in a semi-arid climatic region, where vegetation is mostly herbaceous, mainly comprised of annual plants. We compared above ground biomass, species richness and species composition among four plots in Tel ‘Eton and its surrounding. Two plots were located where ancient settlement found in a previous study, one on top of the mound and one below, where a “lower city” was previously identified. The other two plots were located in similar topographies, namely one on a hill and the other below, but in never-settled areas. While above ground biomass was similar between settled and not-settled plots, species richness was significantly higher in settled plots (40 and 32 species in settled plots, versus 28 and 9 species in non-settled) and species composition was significantly different between them. Our results demonstrate that loci of buried remains of human activity significantly differ from non-settled ones, hence providing the basis for an above ground indirect method of identification of human remains. We propose that floristic sampling of ground-level vegetation may allow archaeologists to identify buried sites, and hence increase the validity of various types of archaeological analyses, such as creating maps of settlements, which rely on the identification of sites without excavating them.
Using a biographic-like approach, this article presents the initial results of the study of an el... more Using a biographic-like approach, this article presents the initial results of the study of an elite Iron Age house at Tel 'Eton, from its conception, through its birth and life, to its death and decomposition. Massive preparations preceded the construction of the house, and the latter incorporated continuous foundations, and quality building materials, including ashlar stones. The building was pre-planned, and some of the original rooms had two doorways leading to them, in order to enable easy future subdivision, without endangering the structure's physical integrity. The house evolved over the years, and its inner division changed overtime, reflecting the changes in the life-cycle of the extended family that lived in it. The house was destroyed in heavy conflagration in the late eighth century BCE, and hundreds of artifacts and complete vessels were unearthed below and within the debris, allowing for a detailed reconstruction of the use of space within the building on the eve of its destruction, and the processes that accompanied its destruction (perhaps even "execution"), and subsequent collapse.
The eighth century BCE city at Tel 'Eton (Israel) was destroyed by the Assyrian army, probably du... more The eighth century BCE city at Tel 'Eton (Israel) was destroyed by the Assyrian army, probably during Sennacherib's campaign of 701. Building 101, sealed within the heavy conflagration caused by this destruction, was uncovered almost in its entirety on the top of the mound. From the beginning it was apparent that the structure had two major building phases, and while its initial construction was of high quality, later additions were much inferior. Analyses of mud-brick walls for firing temperatures, texture, carbonate content, color and dimensions, approved the observation regarding the differences between the two phases, but consistently pointed out that one wall, initially attributed to the first phase, was analytically different, comprising an intermediate phase. This conclusion not only altered our understanding of the building construction, adding heretofore unknown building phase, but also gave us insights into the pre-planning of Building 101, indicating that some rooms had originally two doorways. Such a configuration allowed easy sub-division of spaces according to needs, without harming the overall structural stability. Differences in inner division of similar Iron Age houses were identified in the past and were attributed to differences in the life-cycles of families. The evidence from Tel 'Eton suggests that such future changes were taken into considerations when the structures were built.
Identifying previously unknown sites is a fundamental goal of the archaeological inquiry. In this... more Identifying previously unknown sites is a fundamental goal of the archaeological inquiry. In this article, after reporting the results of our work at Tel 'Eton (Israel), we propose a new method that can increase the effectiveness of surveys. As part of a study of site formation processes, molehills (mole-rat back-dirt hills) were systematically sifted at Tel 'Eton and its surroundings. It was apparent that the number and size of sherds in molehills on the mound greatly exceeded those found in its surroundings. The incidental identification of many sherds in molehills northwest of the mound, therefore, led us to suspect that this area was settled. This was tested by transecting the area. The finds, along with discoveries in the wadis cutting the plain, support this suggestion and allowed us to detect the lower city's boundary. An examination of the site's environments, moreover, enabled us to identify additional anomalies, like the co-occurrence of concentrations of sherds, red-soiled molehills, and slags, which might indicate an extramural workshop. Consequently, we suggest that a systematic examination of rodents' back-dirt mounds can be an effective method—faster, cheaper, and more efficient than pedestrian surveys or shovel tests—of discovering unknown sites even in regions with good visibility.
A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San... more A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San Diego.
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general. The full (and updated) paper is now online: Sapir Y, Avraham A, and Faust A, Mud-brick Composition, Archaeological Phasing and Pre-Planning in Iron Age Structures: Tel 'Eton (Israel) as a Test-Case. Archaeological and Anthropological Sciences. DOI: 10.1007/s12520-016-0350-z. link: http://link.springer.com/article/10.1007/s12520-016-0350-z
A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San... more A poster presented at the 2014 Annual Meeting of the American Schools of Oriental Research in San Diego.
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general. The full (and updated) paper will be published soon in Archaeological and Anthropological Sciences.
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Papers by Yair Sapir
Other by Yair Sapir
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general.
The full (and updated) paper is now online:
Sapir Y, Avraham A, and Faust A, Mud-brick Composition, Archaeological Phasing and Pre-Planning in Iron Age Structures: Tel 'Eton (Israel) as a Test-Case. Archaeological and Anthropological Sciences. DOI: 10.1007/s12520-016-0350-z.
link: http://link.springer.com/article/10.1007/s12520-016-0350-z
Talks by Yair Sapir
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general.
The full (and updated) paper will be published soon in Archaeological and Anthropological Sciences.
Thesis Chapters by Yair Sapir
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general.
The full (and updated) paper is now online:
Sapir Y, Avraham A, and Faust A, Mud-brick Composition, Archaeological Phasing and Pre-Planning in Iron Age Structures: Tel 'Eton (Israel) as a Test-Case. Archaeological and Anthropological Sciences. DOI: 10.1007/s12520-016-0350-z.
link: http://link.springer.com/article/10.1007/s12520-016-0350-z
The poster presents the results of a study on Iron Age buildings at Tel 'Eton, in which we were able to identify constructional phases on the basis of an analytical study of the mud-bricks (firing temperatures, texture, carbonate content, color and dimensions). We therefore suggest that such a study can be carried out in any site in which mud-bricks were a common construction material, helping the archaeologists in identifying subtle architectural phases (which sometimes do not leave any other traces). Additionally, understanding the development of the house allowed us to gain some insights into the cognitive processes involved in planning it, and into the use of Iron Age four room houses in general.
The full (and updated) paper will be published soon in Archaeological and Anthropological Sciences.