Hostname: page-component-7c8c6479df-hgkh8 Total loading time: 0 Render date: 2024-03-27T17:38:27.927Z Has data issue: false hasContentIssue false

Hammat al-Qa and the roots of urbanism in southwest Arabia

Published online by Cambridge University Press:  02 January 2015

C. Edens
Affiliation:
American Institute of Yemeni Studies, PO Box 2658, San'a, Republic of Yemen
T. J. Wilkinson
Affiliation:
Oriental Institute, University of Chicago, 1155 East 58th Street, Chicago IL 60637, USA
G. Barratt
Affiliation:
Department of Ancient History and Archaeology, University of Birmingham, PO Box 363, Birmingham B15 2TT, England

Extract

Prehistoric (Bronze Age) settlement has been little explored in the Yemen. Here, we report on new research at the small, semi-urban site of Hammat al-Qa in the Dhamar region of Yemen.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd. 2000

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allan, H.H. 1961. Flora of New Zealand 1. Wellington: Department of Scientific and Industrial Research.Google Scholar
Best, E. 1925. Maori farming. Wellington: Dominion Museum. Bulletin 9.Google Scholar
Bryant, V.M., Jr. 1989. Botanical remains in archaeological sites, in C.C. Mathewson (compiler), Interdisciplinary workshop on the physical-chemical-biological processes affecting archeoiogical sites: 85115. College Station (TX): Texas A&M University. Contract Report.Google Scholar
Bryant, V.M., Jr. & Dering, J.P.. 1996. A guide to paleoethno-botariy. Unpublished manuscript, Texas A&M University, College Station (TX).Google Scholar
Bryant, V.M., JR. & Holloway, R.G.. 1983. The role of palynology in archaeology, in Schiffer (ed.): 191223.Google Scholar
Challis, A.J. 1976. Physical and cliemical examination of a Maori gravel soil near Motueka, New Zealand journal of Science 19: 24954.Google Scholar
Chester, P.I. 1986. Forest clearance in the Bay of Islands. Unpublished MA thesis., University of Auckland.Google Scholar
Clark, R. 1982. Point count estimation of charcoal in pollen preparations and thin sections, Pollen et Spores 24: 5235.Google Scholar
Crowe, A. 1981. A field guide to the native edible plants of New Zealand. Auckland: Collins.Google Scholar
Dimbleby, G. 1967. Plants and archaeology. London: John Baker.Google Scholar
Dimbleby, G. 1985. The palynology of archaeological sites. London: Academic Press.Google Scholar
Faegri, K. & Iversen, J.. 1989. Textbook of pollen analysis. 4th edition. Chichester: John Wiley & Sons.Google Scholar
Green, D., G. Singh, H. Polach, Moss, D’. Banks, J. & Geissler, E.A.. 1988. A fine-resolution palaeoccology and palaeoclimatology from south-eastern Australia, Journal of Ecology 76: 790806.Google Scholar
Horrogks, M.. & Walsh, K.A.J.. 1999. Fine resolution of pollen patterns in limited space: differentiating a crime scene and alibi scene seven metres apart, Journal of Forensic Sciences 44: 41720.Google Scholar
Kondo, R., Childs, C. & Atkinson, I.. 1994. Opal phytoliths of New Zealand. Lincoln: Manaaki Whenua Press.Google Scholar
Law, R.G. 1975. A garden soil at Rocky Bay, Waiheke Island, N43/72, New Zealand Archaeological Newsletter 18:18390.Google Scholar
Leach, H.M. 1979. The significance of early horticulture in Palliser bay for New Zealand prehistory, in Leach, B.F. & Leach, H.M. (ed.), Prehistoric man in Palliser Bay: 2419. Wellington: National Museum of New Zealand. Bulletin 21.Google Scholar
Macpilail, M.K. & Mcqueen, D.R.. 1983. The value of New Zealand pollen and spores as indicators of Cenozoic vegetation and climates. Tuatara 26: 3760.Google Scholar
Marshall, Y.M. 1987. Antiquity, form and function of terracing at Pouerua Pa. Unpublished MA thesis, University of Auckland.Google Scholar
McGlone, M.S. 1982. Modern pollen rain, Egmont National Park, New Zealand, New Zealand Journal of Botany 20: 25362.Google Scholar
McGlone, M.S. 1983. Polynesian deforestation of New Zealand: a preliminary synthesis, Archaeology of Oceania 18: 110.Google Scholar
McGlone, M.S. 1988. New Zealand, in Huntley, B. & Webb, T. (ed.), Vegetation history: 55799. Dordrecht: Kluwer.Google Scholar
Pearsall, D.M. 1978. Phytolith analysis of archaeological soils: evidence for maize cultivation in Formative Ecuadore, Science 199: 1778.Google Scholar
Pearsall, D.M. 1989. Paleoethnobotany: a handbook of procedures. San Diego (CA): Academic Press.Google Scholar
Pearsall, D.M. & Trimble, M.K.. 1984. Identifying past farm activity through soil phytolith analysis: a case study from the Hawaiian Islands, Journal of Archaeological Science 11: 11933.CrossRefGoogle Scholar
Piperno, D.R. 1985. Phytolith records from prehistoric farm fields in the Calima region, Columbia, Pro Calima 4: 3710.Google Scholar
Piperno, D.R. 1988. Phytolith analysis: an archaeological and geological perspective. San Diego (CA): Academic Press.Google Scholar
Rovner, I. 1983. Plant opal phytolith analysis: major advances in archaeobotanical research, in Schiffer (ed.): 22568.Google Scholar
Schiffer, M.S. (ed.). 1983. Advances in archaeological method and theory 6. New York (NY): Academic Press.Google Scholar
Skinner, D.N.B. 1966. Geology of Ngawa, in New Zealand Geological Survey, Ngawa Geothermal area, Northland: 326. New Zealand Geological Survey. Report 16.Google Scholar
Sutton, D.G. 1990. The Pouerua archaeological project, in Sutton, D.G. (ed.), The archaeology of the kainga: a study of precontact Maori undefended settlements at Pouerua, Northland, New Zealand: 1321. Auckland: Auckland University Press.Google Scholar
Sutton, D.G. (Ed.). 1993a. The archaeology of the peripheral pa at Pouerua, Northland, New Zealand. Auckland: Auckland University Press.Google Scholar
Sutton, D.G. 1993b. Conclusion, in Sutton (ed.): 97103.Google Scholar
Webb, C.J., Sykes, W.R. & Garnock-Jones, P.J.. 1988. Flora of New Zealand IV. Christchurch: Department of Scientific and Industrial Research.Google Scholar
Wilmshurst, J.M.. Eden, D.N. & Froggatt, P.C.. 1999. Late Holocene forest disturbance in Gisborne, New Zealand: a comparison of terrestrial and marine pollen records. New Zealand Journal of Botany 37: 52340.Google Scholar
Wilson, S.M. 1985. Phytolith analysis at Kuk, an early farm site in Papua New Guinea, Archaeology of Oceania 20: 9097.Google Scholar
Wiseman, F.M. 1983. Analysis of pollen from the fields at Pulltrouser Swamp, in Turner, B.L. II & Harrison, P.D (ed.), Pulltrouser Swamp: 10519. Austin (TX): University of Texas Press.Google Scholar
Yen, D. & Head, J.. 1993. Kumara remains in Pit O at P5/288, in Sutton (ed.): 5664.Google Scholar