INTRODUCTION
The Early and Middle Bronze Ages of the Southern Levant are characterized traditionally in terms of early urbanism, its abandonment and redevelopment, between about 3500 and 1500 BC. Incipient walled settlements emerged in Early Bronze I (Joffe Reference Joffe1993; Gophna Reference Gophna1995; Philip Reference Philip2003), followed by larger and more numerous fortified towns in Early Bronze II–III, time periods often combined to reflect a lengthy initial era of Levantine urbanism (Greenberg Reference Greenberg2002, Reference Greenberg2014; Philip Reference Philip2008; de Miroschedji Reference de Miroschedji2009, Reference de Miroschedji2014). The ensuing Early Bronze IV Period (or Intermediate Bronze Age) witnessed the pervasive abandonment of these towns in the Southern Levant. Traditional social interpretations have emphasized seasonal transhumant pastoralism (e.g., between low elevation encampments and hill country cemeteries; Dever Reference Dever1980, Reference Dever2014), while more recent studies have elucidated a growing number of sedentary agrarian villages (Palumbo Reference Palumbo1991; Cohen Reference Cohen2009; Falconer and Fall Reference Falconer and Fall2009, Reference Falconer and Fall2019; Richard et al. Reference Richard, Long, Holdorf and Peterman2010; Prag Reference Prag2001, Reference Prag2014; D’Andrea Reference D’Andrea2014). The subsequent Middle Bronze Age has long been celebrated as the apex of pre-Roman urbanism in the Southern Levant (e.g., Dever Reference Dever1987; Ilan Reference Ilan1995). Walled cities reappeared rapidly in Middle Bronze I (known previously as Middle Bronze IIA) and grew in size, number, and fortification during Middle Bronze II and III (formerly Middle Bronze IIB and IIC) (Burke Reference Burke2008; Bourke Reference Bourke2014; Cohen Reference Cohen2014). In overview, Levantine urbanization has been viewed as a long-term social transformation that unfolded over most of the third and second millennia BC, aside from a brief punctuation during the abandonment of towns in Early Bronze IV (hence this period’s alternative “intermediate” nomenclature).
The relative chronology of the Southern Levantine Bronze Age traditionally derives from seriated material culture sequences and stylistic parallels (especially in pottery vessel morphology and metal weaponry) with Syria and Lebanon (Cohen Reference Cohen2002, Reference Cohen2014; Bourke Reference Bourke2014; de Miroschedji Reference de Miroschedji2014; Prag Reference Prag2014; Richard Reference Richard2014). Major junctures in Levantine absolute chronology and their associated socio-political interpretations have relied on correlations with Egyptian dynastic history: (1) Early Bronze II–III town life roughly paralleled the rise of the Egyptian Old Kingdom (Stager Reference Stager and Ehrich1992; Bruins and van der Plicht Reference Bruins and van der Plicht2001; Sowada Reference Sowada2009); (2) Early Bronze IV town abandonment is correlated with political decentralization during the Egyptian First Intermediate Period ca. 2300/2200 to 2000 BC (Stager Reference Stager and Ehrich1992; Dever Reference Dever and Levy1995; Prag Reference Prag2014); (3) the rapid reestablishment of Middle Bronze Age towns is both inferred and explained as a response to political reunification starting with the ascension of the Egyptian 12th Dynasty ca. 2000 BC (Dever Reference Dever1987; Stager Reference Stager and Ehrich1992; Cohen Reference Cohen2016; see critique in Bruins Reference Bruins2007); and (4) the apex of Middle Bronze urbanism (MB III) is correlated with Hyksos rule in Egypt, ending with the Hyksos “expulsion” ca. 1550/1500 BC (Bietak Reference Bietak2013; Burke Reference Burke2014; Sharon 2014; see discussion in Höflmayer Reference Höflmayer2019).
As a result of an ongoing radiocarbon revolution (e.g., see Manning et al. Reference Manning, Höflmayer, Moeller, Dee, Bronk Ramsey, Fleitmann, Higham, Kutschera and Wild2014) involving site-specific and regional Bayesian radiocarbon modeling (Bronk Ramsey Reference Bronk Ramsey2009a), the chronology and interpretation of early Levantine urban growth and abandonment are undergoing substantial revision. Critical examination of Levantine radiocarbon chronologies now reveals that former correlations with, and interpretations based on, Egyptian dynastic history may no longer be assumed axiomatically (Kutschera et al. Reference Kutschera, Bietak, Wild, Bronk Ramsey, Dee, Golser, Kopetsky, Stadler, Steier, Thanheiser and Weninger2012), whereas the Egyptian historical chronology itself has proven to be compatible with radiocarbon dating (Bronk Ramsey et al. Reference Bronk Ramsey, Dee, Rowland, Higham, Harris, Brock, Quiles, Wild, Marcus and Shortland2010). For example, earlier beginning and end dates have been proposed for Early Bronze II and III as part of an emerging “high” Early Bronze chronology (e.g., Bruins and van der Plicht Reference Bruins and van der Plicht2001; Golani and Segal Reference Golani and Segal2002; Bourke et al. Reference Bourke, Zoppi, Hua, Meadows and Gibbins2009; Regev et al. Reference Regev, de Miroschedji, Greenberg, Braun, Greenhut and Boaretto2012a, 2014; Höflmayer et al. Reference Höflmayer, Dee, Genz and Riehl2014; Falconer and Fall Reference Falconer and Fall2016), while a shortened duration has been suggested for the Middle Bronze Age (e.g., Höflmayer et al. Reference Höflmayer, Yasur-Landau, Cline, Dee, Lorentzen and Riehl2016a; Falconer and Fall Reference Falconer and Fall2016, Reference Falconer and Fall2017).
At the heart of these revisions lie three crucial temporal junctures: the earliest evidence for Early Bronze IV village settlements, the Early Bronze IV/Middle Bronze Age interface between eras of town abandonment and rejuvenation, and the end of the Middle Bronze Age II–III apex of town life. Excavations at the village sites of Tell Abu en-Ni‘aj and Tell el-Hayyat, located in close proximity in the northern Jordan Valley (Figure 1), provide detailed stratified settlement histories and fine grained radiocarbon chronologies through Early Bronze IV and the Middle Bronze Age. New Bayesian models based on expanded suites of seed ages from both sites illuminate these junctures in the northern Jordan Valley, as well as their larger implications for independent explanation of Bronze Age societal dynamics in the Southern Levant.
SITE DESCRIPTIONS
Tell Abu en-Ni‘aj
Tell Abu en-Ni‘aj (32º24′52″N; 35º34′6″E) incorporates the remains of an Early Bronze IV agrarian village in the northern Jordan Valley, Jordan. This mound sits at about 250 m below sea level (bsl) overlooking the zor, the active floodplain of the Jordan River, from its position near the edge of the ghor, the terrace of agricultural lands to the east. This site’s size of about 2.5 ha suggests a likely Bronze Age population of 500–600 people (Falconer and Fall Reference Falconer and Fall2019), based on analogies with the population densities of ethnographically documented traditional farming villages in southwestern Asia (e.g., Kramer Reference Kramer1982). Tell Abu en-Ni‘aj rises 3.30 m above the surrounding landscape, which consisted of agricultural fields during the site’s excavation. Today, the tell is fenced amid the roads and warehouses of the Jordan Gateway industrial park. The site was reported originally by the East Jordan Valley Survey as being relatively large with predominantly “EB-MB” surface ceramics (Ibrahim et al. Reference Ibrahim, Sauer and Yassine1976: 49, 51; site 64). Tell Abu en-Ni‘aj, occupied solely during the EB IV Period, is particularly significant as an uncommon example of a sedentary, continuously occupied, agriculturally dedicated settlement in a time period traditionally interpreted by archaeologists in terms of non-sedentary pastoral society.
Tell el-Hayyat
Tell el-Hayyat (32º25′14″N; 35º34′36″E) lies approximately 1.5 km northeast of Tell Abu en-Ni‘aj at an elevation of about 240 m bsl in the midst of orchards and cultivated fields in the ghor. This 0.5 ha mound incorporates about 4.50 m of archaeological deposits and embodies the remains of a Bronze Age community of up to 200 inhabitants (Falconer and Fall Reference Falconer and Fall2006). Tell el-Hayyat was reported originally among the sites surveyed by Glueck (Reference Glueck1951: 259; site 154, “Tell abu Hayet”) and by Mellaart (Reference Mellart1962: 144–145; site 24, “Tell Abu Hayet”). The subsequent, more systematic East Jordan Valley Survey highlighted Tell el-Hayyat’s evidence for occupation during “EB-MB, MB IIA, MB IIB-C” (Ibrahim et al. Reference Ibrahim, Sauer and Yassine1976: 49; site 56) and therefore emphasized the site as having the potential to provide “a stratigraphically controlled sequence from EB-MB to MB IIB-C” (Ibrahim et al. Reference Ibrahim, Sauer and Yassine1976: 54). Indeed, a major part of Tell el-Hayyat’s significance lies in the chronological inferences we can draw from its rare stratigraphic sequence over the Early Bronze IV/Middle Bronze Age transition and its record of agrarian village life during Middle Bronze I-III.
METHODS
Field Excavations
Tell Abu en-Ni‘aj was excavated over three field seasons totaling 16 weeks in fall 1985, winter 1996/97 and winter/spring 2000 (Falconer and Fall Reference Falconer and Fall2019). Our initial field season involved two weeks of test excavations in ten 4 × 4 m units in Fields 1–3, primarily exposing Phases 3–2 with soundings to Phase 6 (Figure 2). Two subsequent seasons featured excavation of 27 contiguous 4 × 4 m units in Field 4 through seven stratified architectural phases of occupation, from uppermost Phase 1 to basal Phase 7. Fifteen units reached archaeologically sterile sediments underlying Phase 7. The cumulative area of the excavation units in all four fields represents about 2.5% of the site’s area.
Tell el-Hayyat was excavated in three field seasons totaling 24 weeks in 1982, 1983 and 1985 (Falconer and Fall Reference Falconer and Fall2006). Excavation of 16 4 × 4 m units and four 2 × 4 m units proceeded through six stratigraphic phases from uppermost Phase 1 to basal Phase 6 (Figure 3). Units A and B uncovered an intact pottery kiln and ceramic production debris on the south flank of the tell, while Units C-U revealed village remains centered around a remarkable stratified sequence of four Canaanite temples in antis (Magness-Gardiner and Falconer Reference Magness-Gardiner and Falconer1994; Falconer and Fall Reference Falconer and Fall2006). The aggregate excavated exposure of these 20 units represents about 8.0% of the site’s area.
Material Culture Recovery and Analysis
During the excavation of both sites, larger elements of material culture and animal bones were recovered in the course of excavation, and all excavated sediments (other than those processed by water flotation) were dry-sieved in the field through 0.5 cm wire mesh to insure maximum recovery of smaller sized ceramics, bones, metal and stone artifacts. All excavated remains, except metallurgical evidence, were washed and sorted by material type for preliminary descriptive analysis in our field quarters at the Deir Alla Archaeological Station. All sherds were counted, non-diagnostics were returned to the modern surface of the two sites, and diagnostic sherds were labeled. Following this preliminary assessment, the excavated collections were shipped to the University of Arizona (1982–1985 seasons) and Arizona State University (1996/97 and 2000 seasons) for further analyses.
We employed the same methods of ceramic collection, analysis and interpretation at both archaeological sites (Falconer and Fall Reference Falconer and Fall2006: 29–30, 44–64; Falconer and Fall Reference Falconer and Fall2019: 13, 75–102). During the excavations, all ceramic remains were washed and sorted to segregate diagnostic sherds, including rims, bases, handles, spouts and all decorated specimens, from non-diagnostic undecorated body sherds. During lab analysis, all diagnostic sherds were quantified according to vessel form and function, decorative techniques were coded and counted, sherd dimensions and rim and base diameters were measured. Vessel forms, and the relative frequencies of vessel sizes, morphologies and decorative techniques were calculated and compared through the stratigraphic sequence at each settlement and compared with evidence from assemblages at other sites to infer chronological relationships and geographical affinities with other Bronze Age settlements in the Southern Levant (see discussions in Falconer and Fall Reference Falconer and Fall2006: 44–64, 118–123, Reference Falconer and Fall2019: 75–114).
Botanical Analysis
All sediments with visible burned organic content excavated at Tell Abu en-Ni‘aj and Tell el-Hayyat were processed using water flotation to recover plant macrofossils (Fall et al. Reference Fall, Lines and Falconer1998, Reference Fall, Falconer and Lines2002, Reference Fall, Falconer and Klinge2015, Reference Fall, Falconer and Porson2019; Falconer and Fall Reference Falconer and Fall2006: 38–43, Reference Falconer and Fall2019: 13–14; Klinge and Fall Reference Klinge and Fall2010). To minimize the potential for chronological mixing, samples were selected as often as possible from relatively shallow localized deposits in or on burned surfaces. During the Tell el-Hayyat excavations and the 1985 season at Tell Abu en-Ni‘aj, each flotation sample was poured into a metal basket with 3.2 mm mesh screen across its bottom, which was suspended in a metal tub of water. Each sample was agitated to dissolve the sediment and dislodge carbonized plant fragments, which were extracted with a large tea strainer (1.6 mm mesh). The smallest seeds were recovered by placing a piece of cheese cloth in the strainer. The coarse sediment fractions at the bottom of the flotation equipment were checked after processing of each sample for occasional heavier seeds that did not float (e.g., olive stones). During the 1996/97 and 2000 seasons, a Flote-Tech 2000 flotation machine was used to separate organic remains from the sediment matrix mechanically (Figure 4). Following flotation, plant remains were dried indoors for about 24 hours before being packaged for laboratory analysis. Both the coarse and fine fractions were examined for seeds and charcoal fragments.
In the lab, each dried sample of carbonized remains was poured through nested 4.75 mm, 2 mm, 1 mm and 0.5 mm mesh sieves (Falconer and Fall Reference Falconer and Fall2006: 38–43, Reference Falconer and Fall2019: 13–14; Klinge and Fall Reference Klinge and Fall2010; Fall et al. Reference Fall, Falconer and Klinge2015; Porson et al. Reference Porson, Fall and Falconer2019; Fall et al. Reference Fall, Falconer and Porson2019). All recovered material 0.25 mm or larger was sorted under a binocular microscope at 6 to 40× magnification to separate charcoal fragments from charred seeds. Seeds were identified using Fall’s personal reference collection and comparative literature (e.g., Helbaek Reference Helbaek1958, Reference Helbaek1966; Delorit Reference Delorit1970; Martin and Barkley Reference Martin and Barkley1973; Zohary and Hopf Reference Zohary and Hopf1973; van Zeist Reference van Zeist1976; Zohary and Spiegel-Roy Reference Zohary and Spiegel-Roy1975; van Zeist and Bakker-Heeres Reference van Zeist and Bakker-Heeres1982; Hubbard Reference Hubbard1992; Jacomet Reference Jacomet2006), counted and categorized taxonomically (Klinge and Fall Reference Klinge and Fall2010; Porson et al. Reference Porson, Fall and Falconer2019; Fall et al. Reference Fall, Falconer and Porson2019). Analysis of 123 flotation samples from Tell Abu en-Ni‘aj has led to the recovery of more than 20,000 carbonized seeds, seed fragments and chaff (Porson et al. Reference Porson, Fall and Falconer2019), and 152 samples from Tell el-Hayyat have produced nearly 9000 identified seeds (Falconer and Fall Reference Falconer and Fall2006: 65–72; Fall et al. Reference Fall, Falconer and Porson2019).
AMS Analysis
Over the course of our investigations, we have emphasized the importance of generating AMS ages from seeds, rather than charcoal specimens, which are susceptible to the effects of inbuilt age (Waterbolk Reference Waterbolk1971). Our radiocarbon ages have been determined by the University of Arizona Accelerator Mass Spectrometry Laboratory, the University of Groningen Centre for Isotope Research, the Vienna Environmental Research Accelerator and the Oxford Radiocarbon Accelerator Unit.
Seed samples from Tell Abu en-Ni‘aj were selected from well-defined contexts in all seven stratigraphic phases for AMS analysis (Table 1). Our sampling focused on cereals identified as Triticum sp. or Hordeum sp. whenever possible, and also included two samples of Prosopis sp. seeds. Among these 25 samples, 23 are drawn from small, well-defined burned features, including hearths, bins, shallow pits, and thin sediments (e.g., ash lenses) on earthen use surfaces. The remaining two samples come from localized deposits of decomposed mudbrick sediment. Our earlier publication of radiocarbon ages from Tell Abu en-Ni‘aj (Falconer and Fall Reference Falconer and Fall2016) included three olive pit samples incorrectly attributed to Phase 1 at this site, which have been replaced with four new Hordeum sp. seed samples (AA-113003–113006) from secure Phase 1 contexts at Tell Abu en-Ni‘aj. Phases 6–1 are now represented by three to five samples each, while the more limited Phase 7 floral assemblage provides a single AMS sample.
Similarly, 31 AMS seed samples were drawn from all six stratigraphic phases at Tell el-Hayyat (Table 2). Most AMS samples consist of Triticum sp., Hordeum sp., Cerealia and Olea sp. seeds. As at Tell Abu en-Ni‘aj, these specimens were recovered from localized burned features, including ovens (tabuns), ash lenses, burned surfaces, and thin occupational sediments deposited on earthen floors. Phases 5–2 provide six to seven samples each, while Phase 6 contributes three specimens and Phase 1 offers a single sample. Our previous discussion of radiocarbon chronology at Tell el-Hayyat (Falconer and Fall Reference Falconer and Fall2017) concentrated on ages from Phases 5 and 4, and included two dates from Phase 6, and single dates from Phases 3, 2, and 1. This study contributes a greatly strengthened set of 14C data, including 13 new ages from Phases 6, 3, and 2 produced by the Micadas AMS at Groningen (prefixed GrM in Table 2).
Bayesian Analysis
The radiocarbon ages from Tell Abu en-Ni‘aj and Tell el-Hayyat were calibrated using OxCal 4.4.2 (Bronk Ramsey Reference Bronk Ramsey2009a) and the IntCal20 atmospheric curve (Reimer et al. 2020; van der Plicht et al. Reference van der Plicht, Bronk Ramsey, Heaton, Scott and Talamo2020). The analytical tools in OxCal 4.4.2 were used for Bayesian modeling of the calibrated dates. As evidenced by its increasingly common use in archaeology, Bayesian analysis permits probabilistic modeling of large suites of calibrated 14C determinations from multiple strata at a site or from multiple sites across a region. This method can incorporate prior stratigraphic information and accommodate the non-normally distributed probabilities of calibrated 14C ages (Bronk Ramsey Reference Bronk Ramsey2009a). The dates from Tell Abu en-Ni‘aj and Tell el-Hayyat were organized for modeling in contiguous stratigraphic phases based on their records of continuous deposition. In each phase, the sequence of the individual samples was taken to be unknown (i.e., an unordered group of events). Outliers were detected using the Outlier Analysis tool in OxCal (Bronk Ramsey Reference Bronk Ramsey2009b). Samples that are too old (e.g., due to residual material) or too young, and thus do not fit the prior stratigraphic information for the model are often excluded by hand, a process that can be highly subjective. In order to avoid subjective bias, we employed the Outlier Analysis in OxCal, using the General model for all short-lived samples. Outlier Analysis detects determinations that do not fit prior stratigraphic information and weighs their impact on the model accordingly. Thus, outlying dates have very little impact on the overall results (the posterior probabilities). The Outlier Index (O:xx/5) shows the expected (prior) chance of a determination being an outlier.
RESULTS
Stratigraphy and Architecture
Tell Abu en-Ni‘aj
The mound of Tell Abu en-Ni‘aj incorporates seven stratified phases of construction and remodeling of mudbrick and rammed earth architecture (Falconer and Fall Reference Falconer and Fall2019). Our excavations revealed no stone-founded architecture, but did uncover flagstone surfaces and networks of sherd-paved streets. The initial settlement, exemplified by the remains of Phase 7 in Field 4, was founded on archaeologically sterile sediments. The uppermost village is represented by Phase 1 remains, which are found over a limited area just below the modern surface at the top of the mound. The relatively modest extent of Phase 1 evidence may reflect erosion of this uppermost layer over the last four millennia. The archaeological stratification of Tell Abu en-Ni‘aj shows no evidence of a stratigraphic gap or settlement hiatus from Phase 7 to Phase 1. The village’s characteristically agglutinative architecture featured localized remodeling throughout its settlement history, with more substantial episodes of structural rebuilding and street reconfiguration between phases.
The architecture of Phases 7 and 6 in Field 4 includes rammed earth and mudbrick wall foundations, which are relatively sparse in comparison with those of subsequent phases. Some Phase 7 structures have adjoining walls (Falconer and Fall Reference Falconer and Fall2019: figure 4.4), while the separate structures in Phase 6 include an apparent broadroom temple (see Falconer and Fall Reference Falconer and Fall2019: 139–142, figure 10.1). In contrast, the architecture for Phases 5–1 at Tell Abu en-Ni‘aj is characterized by closely packed structures with shared walls, and included an installation of three linked mudbrick basins descending down the eastern slope of the village in Phase 3, possibly for settling potting clay (e.g., Fowler et al. Reference Fowler, Fayek and Middleton2011) or separation of olive oil (e.g., Kapellakis et al. Reference Kapellakis, Tsagarakis and Crowther2008) (Figure 5). The buildings in Fields 1 and 4 are separated by repeated patterns of earthen and sherd-paved streets. Some enclosed spaces have stone pavements, and exterior features include numerous pits and postholes. Both interior and exterior settings incorporate features such as clay-lined bins and in situ ceramic vessels.
Tell el-Hayyat
The history of occupation at Tell el-Hayyat is documented in six stratified phases of archaeological deposits (Falconer and Fall Reference Falconer and Fall2006). Phase 6 is a basal stratum lying just above archaeologically sterile sediments at the center of the site. The sediments that constitute this phase are primarily earthen use surfaces containing ceramics that feature forms, fabrics and decoration that are exclusively Early Bronze IV and include no Middle Bronze Age sherds. Other Phase 6 evidence includes substantial chipped stone remains, and modest amounts of animal bones and carbonized seeds, with no preserved architectural features. In light of the repeated comprehensive leveling of Tell el-Hayyat for phase-by-phase reconstruction in subsequent phases (see discussion below), the multiple use surfaces in this basal phase, and its substantial ceramic assemblage (nearly 1000 sherds), Phase 6 represents a clearly distinguished Early Bronze IV stratum that may also have been levelled prior to building the Middle Bronze Age structures in Phase 5. The central buildings of Tell el-Hayyat in subsequent phases are four Middle Bronze Age mudbrick temples in antis, with associated standing stones and enclosure walls, which are stratified above Phase 6 at the mound’s center (Magness-Gardiner and Falconer Reference Magness-Gardiner and Falconer1994; Falconer and Fall Reference Falconer and Fall2006: 33–43, 83–110). This remarkable temple sequence begins with the rammed earth foundations of a modest shrine in Phase 5, which are directly overlain by the remains of successively larger and more elaborate mudbrick, plastered and painted temples in Phases 4–2 (Figure 6). Although no additional Phase 5 structures were uncovered, Phase 4–2 domestic buildings with walled courtyards, which were separated by alleyways, lay outside the temple enclosures. Noteworthy architectural evidence also includes an intact pottery kiln with an interred human skull in Phase 4 (Area A; Falconer and Fall Reference Falconer and Fall2006: figures 3.12–3.17) and a completely burned chaff-plastered room interior in Phase 3 (Falconer and Fall Reference Falconer and Fall2006: East Building in figures 2.21 and 3.18). Phase 1 deposition, again largely at the center of the mound, includes fragmentary stone wall foundations (but no evidence of a temple), associated use surfaces and limited amounts of pottery, chipped stone, animal bones and carbonized plant remains. The sediments of Phases 2 and 1 are punctuated by several post-Bronze Age pits (Falconer and Fall Reference Falconer and Fall2006: 60, figure 4.15: a, b). The construction material in all phases at Tell el-Hayyat is mudbrick, aside from stone foundations for the temples in Phases 3 and 2, and for the domestic structures in Phases 2 and 1.
The architecture and associated community structure at Tell el-Hayyat differs from Tell Abu en-Ni‘aj in a number of characteristics. For instance, Tell el-Hayyat’s occupants utilized compounds, whether domestic or ritual, that were intentionally segregated from one another by walls and alleys, rather than conjoined in architectural blocks like those of Tell Abu en-Ni‘aj. Further, in contrast to the incremental remodeling at Tell Abu en-Ni‘aj, the architectural history at Tell el-Hayyat is marked by roughly simultaneous architectural changes across the village between phases. To begin with, Phase 5 is marked clearly by the construction of the earliest temple and its enclosure wall, which lie directly over the non-architectural sediments of Phase 6. Subsequently, each of the temples in Phases 5–3 appears to have been intentionally leveled to facilitate its expedient reconstruction. For example, the rammed earth foundations of Phase 5 were shaved flat to provide a level base for the slightly enlarged mudbrick foundations of the Phase 4 temple. The Phase 4 temple walls, in turn, were left standing at a consistent height of five brick courses on top of which the stone foundations for the Phase 3 temple were laid (see Falconer and Fall Reference Falconer and Fall2006: figure 3.3). This pattern of intentional leveling continues in Phases 3 and 2, and extends to Tell el-Hayyat’s domestic structures as well, such that the entire settlement appears to have been rebuilt en masse in each of the intervals between Phases 5 and 2.
Ceramics and Ceramic Chronologies
Tell Abu en-Ni‘aj
The most influential interpretive paradigm for Early Bronze IV ceramics stems from Dever’s pottery “families” (e.g., Reference Dever1970a, Reference Dever1973, Reference Dever1980), in which site assemblages (primarily from cemeteries) are grouped according to vessel form and decoration both geographically and temporally. An associated tripartite chronology of Early Bronze IV A, B and C was predicted to cover 200–300 years at the end of the third millennium BC (Dever Reference Dever and Levy1995) in accordance with a traditional Early Bronze IV time frame. Tell Abu en-Ni‘aj provides the prime example of a stratified settlement in the region ascribed to Dever’s North Central (NC) family, which he placed in Early Bronze IV B-C (Dever Reference Dever1980). Among many noteworthy characteristics, Family NC ceramics feature trickle-painted decoration, especially on bowls and jars, which was suggested as a technique introduced from Syria around the middle of Early Bronze IV (Mazzoni Reference Mazzoni1985).
The ceramic evidence from Tell Abu en-Ni‘aj (summarized in Table 3) includes early assemblages (Phases 7–4) characterized by holemouth jars and cook pots, and hemispherical bowls with simple upright rims (Falconer and Fall Reference Falconer and Fall2019: 78–86). Many vessel forms (e.g., everted rim jars with smooth shoulder-neck profiles) adhere to Family NC expectations, in contrast to examples to the south (e.g., jars with sharp shoulder-neck profiles) from Jericho (Kenyon and Holland Reference Kenyon and Holland1983) and Jebel Qa‘aqir (Gitin Reference Gitin1975; Dever Reference Dever2014). However, a number of similarities are apparent between the early phases at Tell Abu en-Ni‘aj and more southerly families J, CH and S in holemouth profiles (Palumbo and Peterman Reference Palumbo and Peterman1993), an emphasis on incised, combed and applique decoration (Cohen Reference Cohen1999), and the use of exterior decorative ridges or grooves (Prag Reference Prag1974, Reference Prag1986).
The later assemblages from Tell Abu en-Ni‘aj (Phases 3–1) conform more closely with the characteristics predicted for Family NC, including the more frequent appearance of open bowls and everted rim jars (Falconer and Fall Reference Falconer and Fall2019: 86–101). The frequency of trickle-painting shows its greatest increase between Phases 6 and 5, continues to rise thereafter, and stands in contrast to the predominance of slipped, burnished and rilled decorative techniques seen in more southerly Early Bronze IV families TR and J, for example at Tell Iktanu (Prag Reference Prag1974), Bab edh-Dhra‘ (Rast and Schaub Reference Rast and Schaub1978, Reference Rast and Schaub2003) and Khirbat Iskandar (Richard et al. Reference Richard, Long, Holdorf and Peterman2010). Phase 3–1 typological parallels emerge most clearly from northerly mortuary assemblages at Tiwal esh-Sharqi (Helms Reference Helms1983), el-Hammeh (Wightman Reference Wightman1988), el-Husn (Harding and Isserlin Reference Harding and Isserlin1953), Megiddo (Guy Reference Guy1938), Beth She’an (Oren Reference Oren1973) and Tiberias (Tsaferis Reference Tsaferis1968), as well as the settlement at Tell Um Hammad (Helms Reference Helms1986; Kennedy Reference Kennedy2015). As an additional chronological note, folded envelope ledge handles, the most frequent handle type through all seven phases at Tell Abu en-Ni‘aj, do not develop into the vestigial forms expected later in Early Bronze IV (e.g., in Family S; Dever Reference Dever1970b, Reference Dever1980).
While prior assignment of Tell Abu en-Ni‘aj to Family NC implied its habitation primarily in Early Bronze IV B-C, the mixture of traits associated with more southerly families in Phases 7–4 suggests its founding earlier in the period (i.e., in Early Bronze IVA), while the lack of some late traits connotes abandonment before the end of Early Bronze IV. Based on traditional pottery chronologies, this evidence would predict occupation within a time frame starting after the beginning of Early Bronze IV (i.e., after ca. 2300/2200 BC) and ending before the conclusion of this period (i.e., before ca. 2000 BC).
Tell el-Hayyat
Among the ceramic evidence from Tell el-Hayyat (summarized in Table 4), Phase 6 deposits at the base of the tell produced exclusively Early Bronze IV pottery typified by hand-built construction, fine grained tempering, and trickle painting as its primary decorative motif, particularly for cups and bowls (Falconer and Fall Reference Fischer2006: 44–46). This assemblage accords best with Dever’s families J, N and NC, which have been assigned to Early Bronze IV B-C (Dever Reference Dever1980). The pottery from stratigraphically contiguous Phase 5 represents a very early Middle Bronze I assemblage characterized by many vessels whose form, fabric and/or decoration combine elements found in classic Early Bronze IV and Middle Bronze I assemblages. In this sense, these vessels may be considered typologically and chronologically transitional. For example, a globular jar from Tell el-Hayyat Phase 5 (e.g., Falconer and Fall Reference Falconer and Fall2006: fig. 4.2: g) has a fabric that accords with most of the site’s Middle Bronze Age repertoire, while its thickened rim, exterior rilling, and elaborate incision and painting closely parallel those of a jar type found through the final phases of Early Bronze IV at Tell Umm Hammad al-Gharbi (Kennedy Reference Kennedy2015). Likewise, Phase 5 bowls commonly combine classic Middle Bronze Age carinated forms with attributes normally found in Early Bronze IV bowls, including slightly incurved rims, external rilling and hand-built construction (see discussion in Falconer and Fall Reference Falconer and Fall2006: 46–49, fig. 4.2:c, h, fig. 4.3). The transitional nature of Phase 5 cookpots is best illustrated by coarse-tempered, bell-shaped vessels with thumb-impressed ledge handles (e.g., Falconer and Fall Reference Falconer and Fall2006: fig. 4.2: h), which lie typologically between the ledge handles and holemouth forms of Early Bronze IV and the flat-bottomed, straight-sided cookpots of Middle Bronze I. Thus, in light of its transitional pottery and its stratification immediately below the Middle Bronze I deposits in Phase 4, the occupational date of Tell el-Hayyat Phase 5 is ascribed most prudently to very early Middle Bronze I.
Phase 4 pottery provides a classic Middle Bronze I assemblage across a range of functional types, including bowls, juglets, jars and straight-sided cooking pots (Falconer and Fall Reference Falconer and Fall2006: 49–52). Vessel forms are consistent with those found in Middle Bronze I assemblages at a variety of Levantine sites, particularly at Jericho (Kenyon and Holland Reference Kenyon and Holland1982), Lachish (Singer-Avitz Reference Singer-Avitz2004), Nahariya (Ben-Dor Reference Ben-Dor1950, Reference Ben-Dor1951) and Pre-Palace Aphek (Beck Reference Beck2000). The Phase 3 assemblage continues many Middle Bronze I vessel forms, some of which develop in accordance with early Middle Bronze II examples elsewhere (Falconer and Fall Reference Falconer and Fall2006: 52–57). Typological parallels continue from a variety of sites, including Jericho (Kenyon and Holland Reference Kenyon and Holland1982), Pre-Palace Aphek (Beck Reference Beck2000) and Lachish (Singer-Avitz Reference Singer-Avitz2004), plus additional parallels indicative of Middle Bronze II from Shechem (Cole Reference Cole1984), Megiddo (Ilan Reference Ilan2000) and locally at Tel Beth She’an (Maeir Reference Maeir2010).
Phase 2 presents a hallmark Middle Bronze II–III ceramic assemblage (Falconer and Fall Reference Falconer and Fall2006: 56–58). For example, a cache of votive bowls and lamps associated with the last and largest of the Tell el-Hayyat temples (Falconer and Fall Reference Falconer and Fall2006: figures 4.9 and 4.10) finds parallels from Middle Bronze II at Tel Dan (Ilan Reference Ilan1996: fig. 4.77) and Lachish (Singer-Avitz Reference Singer-Avitz2004: fig.16.1:1–3), and from Middle Bronze III at Hazor (Garfinkel Reference Garfinkel1997: fig. III: 12: 10–11), Shechem (Cole Reference Cole1984: pl. 9: j) and Tel Beth She’an (Maeir Reference Maeir2010). Likewise, juglets and full-sized bowls correspond to Middle Bronze II–III examples from Jericho (Kenyon and Holland Reference Kenyon and Holland1982: fig. 109, fig. 110: 1–5), Tel Beth She’an (Maeir Reference Maeir2010), Shechem (Cole Reference Cole1984: pl. 16, pl. 17: a-d), Tel Dan (Ilan Reference Ilan1996: 224, fig. 4: 78) and Hazor (Garfinkel Reference Garfinkel1997: fig. III: 13: 5). Further clear evidence of a Middle Bronze II–III date for Phase 2 comes from Chocolate-on-White Ware sherds paralleled in Tombs 23 and 24 at nearby Pella (Smith et al. Reference Smith, McNicoll and Hennessy1981: fig. 26: 7). Chocolate-on-White Ware in the northern Jordan Valley has been dated traditionally between the late 17th and early 16th centuries B.C. (Smith et al. Reference Smith, McNicoll and Hennessy1981), while more recent work at Tell Abu Kharaz suggests that it ranges from late Middle Bronze II to Late Bronze IB (Fischer Reference Fischer1999, Reference Fischer2006). The Phase 1 ceramics include additional late Middle Bronze Age forms and wares, including subtle rope molding on straight-sided cook pots, which have Middle Bronze II–III parallels at Shechem (Cole Reference Cole1984: pl. 23: d) and Jericho (Kenyon and Holland Reference Kenyon and Holland1982: fig. 147: 8), further specimens of Chocolate-on-White ware, and fragments of Tell el-Yehudiyeh Ware, which peaks in Middle Bronze II–III and continues into the Late Bronze Age (Kaplan Reference Kaplan1980).
In sum, the ceramic chronology for Tell el-Hayyat begins with a late Early Bronze IV assemblage in Phase 6, followed immediately by a transitional Phase 5 repertoire that is situated typologically very early in Middle Bronze I. Phases 4 and 3 provide classic Middle Bronze I and transitional Middle Bronze I/II assemblages, respectively. The ceramics from Phases 2 and 1 meet the typological expectations for Middle Bronze II–III assemblages, with specific forms and wares that clearly denote Middle Bronze III habitation at Tell el-Hayyat. Although there is no Late Bronze Age stratum to cap the Middle Bronze Age sequence at Tell el-Hayyat, the Phase 2 and 1 ceramic assemblages include a variety of vessel forms with clear Middle Bronze III parallels in the Southern Levant, as well as two noteworthy ceramic wares (Chocolate-on-White Ware, Tell el-Yehudiyeh Ware) found through Middle Bronze II–III and into the Late Bronze Age at other Levantine sites. Thus, in terms of ceramic typology, the Phase 5–1 assemblages align with the temporal range of Southern Levantine vessel forms and wares from very early Middle Bronze I into Middle Bronze III, although possibly not to the very end of the Middle Bronze III. Thus, based on traditional Levantine ceramic chronology and Egyptian historical correlations, the Tell el-Hayyat ceramic sequence should start at 2000 BC and continue to 1550 BC or later.
AMS Results and Bayesian Models
Tell Abu en-Ni‘aj
Radiocarbon determinations from Tell Abu en-Ni‘aj now include 25 AMS ages distributed through Phases 7–1 (see Table 1). Phase 7 at Tell Abu en-Ni‘aj is represented by a single AMS date (AA-94177) that models about 2500 cal BC. Phase 1 now provides four new radiocarbon ages, all of which model in the 23rd century cal BC. Bayesian analysis coupled with OxCal’s Outlier Analysis detected three radiocarbon determinations from Tell Abu en-Ni‘aj that met the 5% threshold in the Outlier Index [O:5/5]: AA-90075 in Phase 6, AA-90071 in Phase 5 and AA-90067 in Phase 4. These samples produce ages sufficiently early to indicate that they most likely represent residual material. All other radiocarbon determinations generate outlier indices < 5% and are thus treated as representative of their respective stratigraphic contexts. In sum, our Bayesian model indicates that occupation at Tell Abu en-Ni’aj most likely began by 2500 cal BC (based on the start boundary for Phase 7), concluded by 2200 cal BC (based on the end boundary for Phase 1), and spanned up to 300 years (Figure 7).
Tell el-Hayyat
The recent addition of 13 new dates generated by the Micadas AMS at Groningen now raises the number of 14C ages from Tell el-Hayyat to 31, covering Phases 6–1 (see Table 2). Phase 6 provides three ages that model about 1900 cal BC. Phase 1 is represented by a single age (AA-108793) that models in the late 18th or early 17th century cal BC. OxCal’s Outlier Analysis detected two outliers with levels > 5%: AA-1239 in Phase 5 and GrM-11953 in Phase 2. The Outlier Index reaches 100/5 for these samples, showing both to be anomalously recent and therefore intrusive. AA-1237 reaches the 5% threshold [O:5/5] and therefore might also be intrusive. All other dates have index scores well below 5, usually between 0 and 1. These results indicate the earliest deposition at Tell el-Hayyat by 1900 cal BC (based on the Phase 6 start boundary), with early Middle Bronze I occupation starting just after 1900 cal BC (based on the modeled transition between Phases 6 and 5). In conjunction with excavated ceramic evidence, our model suggests a Middle Bronze I/II transition in Phase 3 shortly after 1800 cal BC, and a Middle Bronze II/III transition in Phase 2 between 1800 and 1700 cal BC. These results indicate that Tell el-Hayyat was abandoned by 1600 cal BC (based on the Phase 1 end boundary), following occupation over approximately 300 years (Figure 8).
DISCUSSION
Occupational History of Tell Abu en-Ni‘aj and Tell el-Hayyat
The excavated evidence from Tell Abu en-Ni‘aj portrays a continuously occupied Early Bronze IV agrarian village comprised of mudbrick room blocks built and rebuilt incrementally around a network of earthen and sherd-paved streets. Major iterations of this architectural plan are represented by seven stratified occupational phases and their associated material culture. Based on the affinities of its stratified ceramic assemblages with Dever’s pottery families and their chronological assignments, habitation at Tell Abu en-Ni‘aj would be predicted to commence after the start of Early Bronze IVA and conclude before the end of Early Bronze IVC.
Bayesian analysis coordinates data from 25 calibrated AMS ages to build a probabilistic model of habitation through seven major phases of roughly comparable lengths (estimated at about 25–40 years each; Table 5), which reaffirms the architectural evidence of fairly steady incremental remodeling within phases and cumulative rebuilding between phases. Our optimal model provides conservative estimates for the founding of Tell Abu en-Ni‘aj by about 2500 cal BC and its abandonment by 2200 cal BC. Hence, the exclusively Early Bronze IV ceramic repertoire of Tell Abu en-Ni‘aj, pottery-based estimation of habitation beginning in the first portion of this period, and both individual and modeled 14C ages leave little doubt that this village was founded toward the start of Early Bronze IV, no later than 2500 cal BC. Evidence for the latest occupation of Tell Abu en-Ni‘aj includes a modeled Phase 1 end boundary prior to 2200 cal BC. Thus, prior pottery-based inference of Tell Abu en-Ni‘aj’s latest occupation before the end of Early Bronze IV, plus new calibrated radiocarbon determinations, suggest village abandonment by 2200 cal BC.
Tell el-Hayyat contrasts with Tell Abu en-Ni‘aj by virtue of its disjunct individual mudbrick structures, its temples as persistent architectural centerpieces, its phase-by-phase rebuilding en masse, and its more variable phase lengths (ranging between about 20 and 70 years each; Table 5). The less consistent phase lengths at Tell el-Hayyat may accord with less incremental, more corporate reconstruction than seen at Tell Abu en-Ni‘aj, suggesting the possible influence of central authority (as manifested by the Tell el-Hayyat temples). The relatively modest lengths of Phases 4 and 3 are tempered by a much longer Phase 2, which featured the largest and most elaborate temple. The evidence from Phase 1 includes the fragmentary remains of stone-founded structures on the crown of the tell, but no longer incorporates a village temple.
Based on our Bayesian model, Phase 6 started just before 1900 cal BC and ended shortly after cal 1900 BC. The calibrated dates in immediately subsequent Phase 5 model between 1900 and 1800 cal BC. The distinctly transitional pottery repertoire of Phase 5 marks it as very early Middle Bronze I, which we would expect traditionally to begin about 2000 cal BC. In contrast, our model supports a relatively late date for the Early Bronze IV/Middle Bronze I transition at Tell el-Hayyat, quite likely after 1900 cal BC.
Our model places the constituent ages for Phase 4, with its classic Middle Bronze I ceramic assemblage, in the late 19th century cal BC. The dates for Phase 3, with its mix of Middle Bronze I and earlier Middle Bronze II vessel forms, model just after 1800 cal BC. In conjunction with the late Early Bronze/Middle Bronze transition noted above, the combined length for Phases 5, 4 and 3 at Tell el-Hayyat (estimated collectively at somewhat more than a century) represents a later and more compressed time frame than suggested by traditional Levantine chronologies, which tend to allocate about twice this time length to Middle Bronze I alone. Toward the end of Tell el-Hayyat’s occupation, Phases 2 and 1 provide ceramic assemblages that include vessel forms and wares characteristic of Middle Bronze III. The seven modeled radiocarbon determinations from Phase 2 (excluding Bayesian outlier GrM-11953) date to the 18th century cal BC, while the lone Phase 1 date and the model end boundary fall in the late 18th or early 17th century cal BC. Thus, based on current evidence, we conclude that Tell el-Hayyat was abandoned prior to 1600 cal BC.
Regional Implications
The Early Bronze III/IV Transition
Modeling of calibrated AMS ages across the Southern Levant proposes comprehensive revision of Early Bronze Age chronology (Regev et al. Reference Regev, de Miroschedji, Greenberg, Braun, Greenhut and Boaretto2012a) according to which its constituent subperiods are shortened significantly from previous historically-based conventions. From this perspective, the Early Bronze II/III transition would be moved at least two centuries earlier, to around 2900 cal BC, and Early Bronze III would be ended no later than about 2450 cal BC and as much as a century earlier at some sites. This inference is strengthened by a set of seven AMS seed determinations (presented as three combined ages) from Tell es-Safi (Shai et al. Reference Shai, Greenfield, Regev, Boaretto, Eliyahu-Behar and Maeir2014), whereby this site’s terminal Early Bronze III deposition, with correspondingly late Early Bronze III pottery forms, is modeled between 2680 and 2580 cal BC (Shai et al. Reference Shai, Greenfield, Regev, Boaretto, Eliyahu-Behar and Maeir2014). This inference parallels previous evidence for the end of Early Bronze III from nearby Tel Yarmuth (Regev et al. Reference Regev, de Miroschedji and Boaretto2012b) and continues to build the case for a high Early Bronze Age chronology for the Southern Levant. Based on this revised date for the end of Early Bronze III, Regev et al. suggest an overall start date for Early Bronze IV about 2500 cal BC, “even though it could have commenced earlier” (2012a: 561). A mid-third millennium BC beginning for Early Bronze IV is suggested further by radiocarbon ages from settlements at Nahal Refaim, Ein-Ziq, Be’er Resisim and Ha-Gamal in the Southern Levant and Tell Fadous-Kfarabida in Lebanon (Avner and Carmi Reference Avner and Carmi2001; Höflmayer et al. Reference Höflmayer, Dee, Genz and Riehl2014; Falconer and Fall Reference Falconer and Fall2016: 16–22).
Our new Bayesian model for the occupation of Tell Abu en-Ni‘aj clearly accords with a beginning for Early Bronze IV by 2500 cal BC, based a modeled Phase 7 start boundary around or just before 2500 cal BC. Even if we analyze the Tell Abu en-Ni‘aj sequence without its single determination from Phase 7, the Phase 6 start boundary is modeled only slightly later, just after 2500 cal BC. The evidence from Tell Abu en-Ni‘aj is particularly important in providing a stratified sequence of AMS seed ages that definitively models the founding of this village by about 2500 cal BC in accordance with a high chronology for the Levantine Early Bronze Age.
Village Abandonment in Late Early Bronze IV
Our new Bayesian model for Tell Abu en-Ni‘aj also accords with some key expectations of Early Bronze IV ceramic typology and chronology based on Dever’s pottery families. Comparison of the Tell Abu en-Ni‘aj stratified ceramic assemblages with characteristic vessel forms and decorative motifs found at other sites suggests this village’s abandonment before the end of Early Bronze IV. According to our Bayesian model, Phase 1 of Tell Abu en-Ni’aj came to an end by 2200 cal BC (based on the modeled Phase 1 end boundary). A judicious review of Levantine Early Bronze IV AMS ages suggests that the end date for Tell Abu en-Ni‘aj may be part of a larger pattern of increasingly pervasive village abandonment across the Levant through the latter portion of this period. For example, southern Levantine Early Bronze IV radiocarbon dates with calibrated medians after 2100 cal BC are limited to four charcoal samples from Bab edh-Dhra‘ (Beta-134017, median = 2018 cal BC; SI-2875, median = 1954 cal BC), Ein-Ziq (RT-2514, median = cal 2090 BC) and Nahal Refaim (RT-1711, median = 2040 cal BC) (Rast and Schaub Reference Rast and Schaub2003; Avner and Carmi Reference Avner and Carmi2001; Segal and Carmi Reference Segal and Carmi1996; Regev et al. Reference Regev, de Miroschedji, Greenberg, Braun, Greenhut and Boaretto2012a; Falconer and Fall Reference Falconer and Fall2016: table 4). Early Bronze IV seed ages beyond the Tell Abu en-Ni‘aj sequence include seven dates from Tell Mishriefeh, Syria (six from charcoal samples) that run from about 2300 past 2000 cal BC (Bonacossi Reference Bonacossi2008), three determinations from Tell Arqa in northern Lebanon with calibrated medians between 2302 and 1960 cal BC (Thalmann 2006: 230; Reference Thalmann2008), and six ages from Tell Fadous-Kfarabida, in Lebanon south of Tell Arqa, the latest of which has a calibrated median of 2243 cal BC (Genz Reference Genz2014; Höflmayer et al. Reference Höflmayer, Dee, Genz and Riehl2014). At this point, the best radiocarbon-dated evidence for late Early Bronze IV settlement is limited to the Northern Levant. In contrast, the radiocarbon record for the Southern Levant, and perhaps as far north as Tell Fadous-Kfarabida, features an intriguing dearth of seed-dated evidence later than about 2250 cal BC, and raises the possibility of more common abandonment of southern Levantine villages after that date (see also discussion in D’Andrea and Vacca Reference D’Andrea and Vacca2015).
The Early Bronze IV/Middle Bronze Age Interface
Roughly three centuries of Early Bronze IV habitation at Tell Abu en-Ni‘aj were followed by a hiatus prior to the initial settlement of Tell el-Hayyat. Based on their temporally distinctive assemblages and their stratigraphic contiguity, a suite of nine radiocarbon ages from Phases 6 and 5 at Tell el-Hayyat offers an unparalleled opportunity to clarify the beginning of the Middle Bronze Age locally, with potential regional implications. Three Phase 6 AMS dates modeled closely around 1900 cal BC document initial deposition of Early Bronze IV material culture at Tell el-Hayyat. Six Phase 5 ages modeled with similar consistency in the 19th century cal BC capture an immediately subsequent settlement interval very early in Middle Bronze I. The intervening boundary transition lies just after 1900 cal BC. This inference pushes the advent of the Middle Bronze Age in the Jordan Valley appreciably later than the commonly accepted Early Bronze/Middle Bronze chronological benchmark of 2000 BC.
Radiocarbon ages for contexts early in the Middle Bronze Age stem commonly from seed samples, with their accompanying smaller standard deviations and lesser potential for in built age questions (Dee and Bronk Ramsey Reference Dee and Bronk Ramsey2014). The earliest radiocarbon determinations that might support a conventional date about 2000 cal BC for the beginning of the Middle Bronze Age stem from three AMS ages from Gesher (OxA-1955, median = 2014 cal BC), Pella (OZG-611, median = 1995 cal BC) and Zahrat adh-Dhra‘ 1 (OZH-756, median = 1992 cal BC) (Garfinkel and Cohen Reference Garfinkel and Cohen2007; Bourke et al. Reference Bourke, Zoppi, Hua, Meadows and Gibbins2009; Fall et al. Reference Fall, Falconer and Porson2019). The Pella date is followed by four more ages significantly later in the Middle Bronze Age (Bourke and Zoppi Reference Bourke and Zoppi2007; Bourke et al. Reference Bourke, Zoppi, Hua, Meadows and Gibbins2009), while the age from Gesher reflects a stand-alone charcoal sample, and the seed date from Zahrat adh-Dhra‘ 1 is a single disjunct age from a settlement occupied discontinuously primarily later in the Middle Bronze Age (Fall et al. Reference Fall, Falconer and Porson2019). In contrast, seed-dated AMS sequences through the Middle Bronze Age at the Levantine sites of Jericho, Tel Nami, Tel el-Ifshar and Tell el-Burak all begin after about 1950 cal BC (Falconer and Fall Reference Falconer and Fall2016: fig. 8, table 5; Höflmayer et al. Reference Höflmayer, Kamlah, Sader, Dee, Kutschera, Wild and Riehl2016b). Our ability to determine a clear date for the beginning of the Middle Bronze Age is hampered by a paucity of sites with contiguous Early Bronze IV/Middle Bronze I stratification such as that found at Tell el-Hayyat. At present, radiocarbon evidence for a conventional date about 2000 cal BC is outweighed by more abundant AMS ages from a greater number of sites in the Southern Levant and Lebanon indicating a more likely beginning date in the range of 1950–1900 cal BC (Höflmayer Reference Höflmayer2019).
The End of the Middle Bronze Age
Our updated Bayesian model for Tell el-Hayyat now incorporates 15 AMS ages for Phases 3–1 (excluding one outlier) that document habitation over the latter portion of the Middle Bronze Age. Based on its combination of vessel forms from Middle Bronze I and II, the six tightly clustered Phase 3 dates suggest a transition between these periods shortly after 1800 cal BC. Thus, the evidence from Phases 5–3 caps the length of Middle Bronze I at about one century or perhaps slightly longer. Eight AMS ages through Phases 2 and 1 carry the Tell el-Hayyat chronology into Middle Bronze II–III, with a Phase 2/1 transition in the midst of Middle Bronze III before or just after 1700 cal BC. Village abandonment at the end of Phase 1, later in Middle Bronze III, is modeled clearly before 1600 cal BC.
A Middle Bronze I/II transition about 1800 cal BC is supported by a detailed comparative assessment of architecture, material culture and AMS seed ages from Tel Ifshar and Tell el-Burak (Höflmayer et al. Reference Höflmayer, Kamlah, Sader, Dee, Kutschera, Wild and Riehl2016b), while a Middle Bronze II/III transition before 1700 cal BC is bolstered by a comparative assessment of multiple lines of evidence from these sites and Tel Kabri on the coast of northern Israel (Höflmayer et al. Reference Höflmayer, Yasur-Landau, Cline, Dee, Lorentzen and Riehl2016a). The radiocarbon record from Jericho continues later in the Middle Bronze Age (Bruins and van der Plicht Reference Bruins and van der Plicht1995, Reference Bruins and van der Plicht2003; Lombardo and Piloto Reference Lombardo and Piloto2000; Nigro et al. Reference Nigro, Calcagnile, Yasin, Gallo and Quarta2019), toward a conclusion in the late 17th century cal BC (which would align with Tell el-Hayyat) or in the 16th century cal BC (suggesting asynchronism along the Jordan Rift).
In sum, the chronological inferences stemming from Tell el-Hayyat in conjunction with sites stretching across the Southern Levant and Lebanon provide an empirical basis for beginning the Middle Bronze Age in some locales 50–100 years later than assumed traditionally, an end for some Middle Bronze Age settlements up to a century earlier (Höflmayer Reference Höflmayer2019), and relocated transitions between the constituent subperiods within this era of rejuvenated town life in the Southern Levant.
CONCLUSIONS
This study presents and interprets new Bayesian models for Tell Abu en-Ni‘aj, based on four new Phase 1 samples and their AMS ages for the final occupation of this Early Bronze IV settlement, and for Tell el-Hayyat, now bolstered by 13 new 14C ages from Early Bronze IV Phase 6 and Phases 3 and 2 in the later Middle Bronze Age. The evidence from Tell Abu en-Ni‘aj demonstrates that Early Bronze IV settlement in the Jordan Valley started at least as early as 2500 cal BC, and strengthens the argument for a higher Early Bronze IV chronology for the Southern Levant with a start date multiple centuries earlier than assumed traditionally, at least in the Jordan Valley. Our modeling shows that occupation at Tell Abu en-Ni‘aj ended by 2200 cal BC, which may hint at a larger pattern of more pervasive village abandonment across the Southern Levant late in Early Bronze IV.
Although the basal stratum at Tell el-Hayyat (Phase 6) is characterized by solely Early Bronze IV sherds, our new modeling shows a substantial gap between the abandonment of Tell Abu en-Ni‘aj and the founding of settlement at Tell el-Hayyat. Our modeled start date for very early Middle Bronze Age occupation at Tell el-Hayyat (Phase 5) falls after 1900 cal BC, and represents a significant departure from the standard beginning date for the Middle Bronze Age in the Southern Levant. Bayesian modeling for the later occupation of Tell el-Hayyat, which incorporates newly-augmented suites of AMS ages from Phases 3 and 2, establishes occupation at Tell el-Hayyat by about 1900 cal BC, and suggests the abandonment of this village in Middle Bronze III before 1600 cal BC, which again represents a substantially early departure from standard dates, which presuppose the end of the Middle Bronze Age ca. 1550/1500 cal BC based on conventional synchronization with Egypt.
In tandem, these Bayesian models and their integration with emerging regional radiocarbon chronologies strengthen a set of inferences for Bronze Age settlement in the Jordan Valley and more broadly across the Southern Levant. These inferences indicate (1) further support for a high 14C chronology for Early Bronze IV, (2) abandonment at Tell Abu en-Ni‘aj and diminished regional sedentary settlement late in Early Bronze IV, (3) a start date for the Middle Bronze Age more likely at about 1900 cal BC rather than 2000 cal BC, (4) Middle Bronze I/II and II/III transitions around 1800 cal BC and 1750 cal BC, respectively, and (5) an earlier than expected end date in Middle Bronze III for the abandonment of Tell el-Hayyat by 1600 cal BC. All of these inferences illuminate the need for independent Levantine chronologies and societal interpretations through the Early and Middle Bronze Ages.
ACKNOWLEDGMENTS
Excavations at Tell Abu en-Ni‘aj and Tell el-Hayyat were conducted under permits from the Department of Antiquities, Hashemite Kingdom of Jordan. We offer our thanks to Directors-General Dr. Adnan Hadidi, Dr. Ghazi Bisheh and Dr. Fawwaz al-Khraysheh. Our fieldwork also benefited from the collaborative support of ACOR Jordan in Amman guided by Directors Dr. David McCreery, Dr. Pierre Bikai and Dr. Barbara Porter. An ACOR Publication Fellowship held by Falconer helped support analysis of Tell Abu en-Ni‘aj. Falconer and Fall directed excavations at Tell Abu en-Ni‘aj with funding from the National Science Foundation (grants #SBR 96–00995 and #SBR 99–04536), the National Geographic Society (#5629–96) and the Wenner-Gren Foundation for Anthropological Research (#6006). Excavations at Tell el-Hayyat, directed by Falconer and Bonnie Magness-Gardiner, were funded by grants from the National Endowment for the Humanities (#RO-21027 and #RO-22467–92), the National Geographic Society (#2598–83 and #2984–84), and the Wenner-Gren Foundation for Anthropological Research (#4382). Institutional support was provided by the University of Arizona for excavations at Tell el-Hayyat and the first season at Tell Abu en-Ni‘aj, and by Arizona State University for the second and third seasons at Tell Abu en-Ni‘aj. Radiocarbon dates from Groningen were analyzed in the framework of the Austrian Science Fund (FWF) START-grant Y932–G25 “Tracing Transformations” directed by Felix Höflmayer. This publication of research results from Tell Abu en-Ni‘aj and Tell el-Hayyat was supported by a grant to Falconer and Fall from the National Science Foundation (#1850259). We thank two anonymous reviewers for their helpful comments, Patrick Jones for drafting Figure 1, and Wei Ming for drafting Figures 2, 3, and 5.