Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-27T19:24:17.240Z Has data issue: false hasContentIssue false

Surveying and Hydraulic Engineering of the Pre-Columbian Chimú State: ad 900–1450

Published online by Cambridge University Press:  22 December 2008

Charles R. Ortloff
Affiliation:
FMC/Corporate Technology Center1205 Coleman Avenue, Box 580Santa Clara, CA 95052, USA

Extract

The Chimú state of northern coastal Peru (ad 900–1480) developed massive irrigation-based agricultural systems supplied by intricate networks of canals drawing water from river sources in coastal valleys under their political control. Further intervalley canal systems, some up to 50 miles in length, were constructed to shunt water between river valleys to augment intravalley supplies. A high degree of civil engineering skill was necessary to construct and maintain such complex systems; knowledge of surveying and of open channel flow hydraulics was paramount. Some of the technology used by the Chimú has been investigated: surveying instruments and calculating tools have been unearthed and analyzed to provide some understanding of the technical base used for canal design. Details of the hydraulics knowledge-base have been extracted from computer simulation of the functioning of ancient Chimú canal designs. This article assembles known pieces of information related to Chimú civil engineering practice and attempts to provide a plausible methodology that could have been implemented by the Chimú to survey the precise canal bed slopes necessary for proper hydraulic functioning of large canal systems through rugged Andean foothill and mountain areas.

Type
Articles
Copyright
Copyright © The McDonald Institute for Archaeological Research 1995

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

Ascher, M.A. & Ascher, R., 1981, Code of the Quipu. Ann Arbor (MI): University of Michigan Press.Google Scholar
Browman, D.L., 1983. Tectonic movement and agrarian collapse in PreHispanic Peru. Nature 302, 32–4.Google Scholar
Chow, V.T.,1959 Open Channel Hydraulics. New York (NY): McGraw-Hill.Google Scholar
Guaman Poma de Alaya, F., 1936 (1615). Nueva Crónica de Buen Gobierno. (Travaux et Mémoires de l‘lnstitut d‘Ethnologie, Université de Paris Press 23.) Paris: University of Paris Press.Google Scholar
Henderson, F.M., 1966. Open Channel Flow. New York (NY): The Macmillan Company.Google Scholar
Kolata, A., 1990. The urban concept of Chan Chan, in The Northern Dynasties: Kinship and Statecraft in Chimor, ed. Moseley, M.. Washington (DC): Dumbarton Oaks Press, 107–44.Google Scholar
Kosok, P., 1965. Life, Land and Water in Ancient Peru. New York (NY): Long Island University Press.Google Scholar
Lumbreras, L., 1974. The Peoples and Cultures of Ancient Peru. Washington (DC): Smithsonian Institution Press.Google Scholar
Morris, H.M. & Wiggert, J.M., 1972. Applied Hydraulics in Engineering. New York (NY): The Ronald Press Company.Google Scholar
Moseley, M. & Day, K., 1982. Chan Chan: Andean Desert City. Albuquerque (NM): University of New Mexico Press.Google Scholar
Moseley, M. & Mackey, C.J., 1974. Twenty-four Architectural Plans of Chan Chan, Peru. Cambridge (MA): Peabody Museum Press, Harvard University.Google Scholar
Nials, F., E., Deeds, M., Moseley, S., Pozorski, T., Pozorski & Feldman, R., 1979.El Niño: the catastrophic flooding of coastal Peru. Chicago Field Museum Bulletin 50(7), 414 and 50(8), 4– 10.Google Scholar
Ortloff, C.R., 1981, La ingeniería hidráulica Chimú, in La Tecnología en el Mundo Andino, eds. Lechtman, H. & Soldi, A.M.. Mexico City: Universidad Nacional Autónoma de México, 91134.Google Scholar
Ortloff, C.R., 1988. Canal builders of ancient Peru. Scientific American 256(12), 6774.Google Scholar
Ortloff, C.R., 1993. Chimú hydraulics technology and statecraft on the north coast of Peru, AD 1000–1470, in Research in Economic Anthropology Supplement 7, eds. Scarborough, V. & Isaac, B.. Greenwich (CT): JAI Press, 327–67.Google Scholar
Ortloff, C.R., in press. Engineering aspects of groundwater controlled agriculture of the PreColumbian Tiwanaku State of Bolivia in the period 400–1000 AD, in Tiwanaku and its Hinterland: Paleoecological and Archaeological Investigations in the Titicaca Basin of Bolivia, Smithsonian Series in Archaeological Inquiry, ed. Kolata, A.. Washington (DC): Smithsonian Press.Google Scholar
Ortloff, C.R. & Kolata, A, 1994. Climate and collapse: agroecological perspectives of the decline of the Tiwanaku State. Journal of Archaeological Science 20, 193221.Google Scholar
Ortloff, C.R., M., Moseley & Feldman, R., 1982. Hydraulic engineering aspects of the Chicama-Moche Intervalley Canal. American Antiquity 48, 572–95.CrossRefGoogle Scholar
Ortloff, C.R., R., Feldman & Moseley, M., 1985. Hydraulic engineering and historical aspects of the PreColumbian intravalley canal systems of the Moche Valley.Journal of Field Archaeology 12, 7798.Google Scholar
Radicati di Primeglio, C., 1972. El Sistema Contable de los Incas.Lima: Libreria Studium S.A.Google Scholar
Rostworowski de Diaz Cansejo, M., 1960. Pesos y Medidas en el Perú Prehispánico. (Actas del II Congreso Nacional de Historia 11–1958.) Lima: Libreria Stadium S.A.Google Scholar
Thompson, L. & Moseley-Thompson, E., 1987. Evidence for abrupt climate change during the last 1500 years recorded in ice cores from the tropical Quelccaya ice cap, in Abrupt Climate Change Evidence and Implications, eds. Berger, W. & Labeyrie, L.. New York (NY): D. Reidel, 99110.CrossRefGoogle Scholar
Thompson, L., E., Moseley-Thompson, J., Bolzan & Koci, B., 1985. A 1500 year record of tropical precipitation records in ice cores from the Quelccaya Ice Cap, Peru. Science 229, 971–3.CrossRefGoogle ScholarPubMed