Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal

Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal

Tikal has long been viewed as one of the leading polities of the ancient Maya realm, yet how the city was able to maintain its substantial population in the midst of a tropical forest environment has been a topic of unresolved debate among researchers for decades. We present ecological, paleoethnobotanical, hydraulic, remote sensing, edaphic, and isotopic evidence that reveals how the Late Classic Maya at Tikal practiced intensive forms of agriculture (including irrigation, terrace construction, arboriculture, household gardens, and short fallow swidden) coupled with carefully controlled agroforestry and a complex system of water retention and redistribution. Empirical evidence is presented to demonstrate that this assiduously managed anthropogenic ecosystem of the Classic period Maya was a landscape optimized in a way that provided sustenance to a relatively large population in a preindustrial, low-density urban community. This landscape productivity optimization, however, came with a heavy cost of reduced environmental resiliency and a complete reliance on consistent annual rainfall. Recent speleothem data collected from regional caves showed that persistent episodes of unusually low rainfall were prevalent in the mid-9th century A.D., a time period that coincides strikingly with the abandonment of Tikal and the erection of its last dated monument in A.D. 869. The intensified resource management strategy used at Tikal-already operating at the landscape's carrying capacity-ceased to provide adequate food, fuel, and drinking water for the Late Classic populace in the face of extended periods of drought. As a result, social disorder and abandonment ensued.

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Main Authors: Lentz, David L. autor/a, Dunning, Nicholas P. autor/a, Scarborough, Vernon L autor/a, Magee, Kevin S. autor/a, Thompson, Kim M. autor/a, Weaver, Eric autor/a, Carr, Christopher autor/a, Terry, Richard E. autor/a, Islebe, Gerald A. Doctor autor/a 2046, Tankersley, Kenneth B. autor/a, Grazioso Sierra, Liwy autor/a, Jones, John G. autor/a, Buttles, Palma autor/a, Valdez, Fred autor/a, Ramos Hernández, Carmen E. autor/a
Format: Texto biblioteca
Language:eng
Subjects:Agricultura tradicional, Agroforestería, Gestión del agua, Arqueología maya, Paleoecología, Artfrosur,
Online Access:http://www.pnas.org/content/111/52/18513.full.pdf+html
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id KOHA-OAI-ECOSUR:4277
record_format koha
institution ECOSUR
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-ecosur
tag biblioteca
region America del Norte
libraryname Sistema de Información Bibliotecario de ECOSUR (SIBE)
language eng
topic Agricultura tradicional
Agroforestería
Gestión del agua
Arqueología maya
Paleoecología
Artfrosur
Agricultura tradicional
Agroforestería
Gestión del agua
Arqueología maya
Paleoecología
Artfrosur
spellingShingle Agricultura tradicional
Agroforestería
Gestión del agua
Arqueología maya
Paleoecología
Artfrosur
Agricultura tradicional
Agroforestería
Gestión del agua
Arqueología maya
Paleoecología
Artfrosur
Lentz, David L. autor/a
Dunning, Nicholas P. autor/a
Scarborough, Vernon L autor/a
Magee, Kevin S. autor/a
Thompson, Kim M. autor/a
Weaver, Eric autor/a
Carr, Christopher autor/a
Terry, Richard E. autor/a
Islebe, Gerald A. Doctor autor/a 2046
Tankersley, Kenneth B. autor/a
Grazioso Sierra, Liwy autor/a
Jones, John G. autor/a
Buttles, Palma autor/a
Valdez, Fred autor/a
Ramos Hernández, Carmen E. autor/a
Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal
description Tikal has long been viewed as one of the leading polities of the ancient Maya realm, yet how the city was able to maintain its substantial population in the midst of a tropical forest environment has been a topic of unresolved debate among researchers for decades. We present ecological, paleoethnobotanical, hydraulic, remote sensing, edaphic, and isotopic evidence that reveals how the Late Classic Maya at Tikal practiced intensive forms of agriculture (including irrigation, terrace construction, arboriculture, household gardens, and short fallow swidden) coupled with carefully controlled agroforestry and a complex system of water retention and redistribution. Empirical evidence is presented to demonstrate that this assiduously managed anthropogenic ecosystem of the Classic period Maya was a landscape optimized in a way that provided sustenance to a relatively large population in a preindustrial, low-density urban community. This landscape productivity optimization, however, came with a heavy cost of reduced environmental resiliency and a complete reliance on consistent annual rainfall. Recent speleothem data collected from regional caves showed that persistent episodes of unusually low rainfall were prevalent in the mid-9th century A.D., a time period that coincides strikingly with the abandonment of Tikal and the erection of its last dated monument in A.D. 869. The intensified resource management strategy used at Tikal-already operating at the landscape's carrying capacity-ceased to provide adequate food, fuel, and drinking water for the Late Classic populace in the face of extended periods of drought. As a result, social disorder and abandonment ensued.
format Texto
topic_facet Agricultura tradicional
Agroforestería
Gestión del agua
Arqueología maya
Paleoecología
Artfrosur
author Lentz, David L. autor/a
Dunning, Nicholas P. autor/a
Scarborough, Vernon L autor/a
Magee, Kevin S. autor/a
Thompson, Kim M. autor/a
Weaver, Eric autor/a
Carr, Christopher autor/a
Terry, Richard E. autor/a
Islebe, Gerald A. Doctor autor/a 2046
Tankersley, Kenneth B. autor/a
Grazioso Sierra, Liwy autor/a
Jones, John G. autor/a
Buttles, Palma autor/a
Valdez, Fred autor/a
Ramos Hernández, Carmen E. autor/a
author_facet Lentz, David L. autor/a
Dunning, Nicholas P. autor/a
Scarborough, Vernon L autor/a
Magee, Kevin S. autor/a
Thompson, Kim M. autor/a
Weaver, Eric autor/a
Carr, Christopher autor/a
Terry, Richard E. autor/a
Islebe, Gerald A. Doctor autor/a 2046
Tankersley, Kenneth B. autor/a
Grazioso Sierra, Liwy autor/a
Jones, John G. autor/a
Buttles, Palma autor/a
Valdez, Fred autor/a
Ramos Hernández, Carmen E. autor/a
author_sort Lentz, David L. autor/a
title Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal
title_short Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal
title_full Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal
title_fullStr Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal
title_full_unstemmed Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal
title_sort forests, fields, and the edge of sustainability at the ancient maya city of tikal
url http://www.pnas.org/content/111/52/18513.full.pdf+html
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spelling KOHA-OAI-ECOSUR:42772024-03-12T12:41:11ZForests, fields, and the edge of sustainability at the ancient Maya city of Tikal Lentz, David L. autor/a Dunning, Nicholas P. autor/a Scarborough, Vernon L autor/a Magee, Kevin S. autor/a Thompson, Kim M. autor/a Weaver, Eric autor/a Carr, Christopher autor/a Terry, Richard E. autor/a Islebe, Gerald A. Doctor autor/a 2046 Tankersley, Kenneth B. autor/a Grazioso Sierra, Liwy autor/a Jones, John G. autor/a Buttles, Palma autor/a Valdez, Fred autor/a Ramos Hernández, Carmen E. autor/a textengTikal has long been viewed as one of the leading polities of the ancient Maya realm, yet how the city was able to maintain its substantial population in the midst of a tropical forest environment has been a topic of unresolved debate among researchers for decades. We present ecological, paleoethnobotanical, hydraulic, remote sensing, edaphic, and isotopic evidence that reveals how the Late Classic Maya at Tikal practiced intensive forms of agriculture (including irrigation, terrace construction, arboriculture, household gardens, and short fallow swidden) coupled with carefully controlled agroforestry and a complex system of water retention and redistribution. Empirical evidence is presented to demonstrate that this assiduously managed anthropogenic ecosystem of the Classic period Maya was a landscape optimized in a way that provided sustenance to a relatively large population in a preindustrial, low-density urban community. This landscape productivity optimization, however, came with a heavy cost of reduced environmental resiliency and a complete reliance on consistent annual rainfall. Recent speleothem data collected from regional caves showed that persistent episodes of unusually low rainfall were prevalent in the mid-9th century A.D., a time period that coincides strikingly with the abandonment of Tikal and the erection of its last dated monument in A.D. 869. The intensified resource management strategy used at Tikal-already operating at the landscape's carrying capacity-ceased to provide adequate food, fuel, and drinking water for the Late Classic populace in the face of extended periods of drought. As a result, social disorder and abandonment ensued.Tikal has long been viewed as one of the leading polities of the ancient Maya realm, yet how the city was able to maintain its substantial population in the midst of a tropical forest environment has been a topic of unresolved debate among researchers for decades. We present ecological, paleoethnobotanical, hydraulic, remote sensing, edaphic, and isotopic evidence that reveals how the Late Classic Maya at Tikal practiced intensive forms of agriculture (including irrigation, terrace construction, arboriculture, household gardens, and short fallow swidden) coupled with carefully controlled agroforestry and a complex system of water retention and redistribution. Empirical evidence is presented to demonstrate that this assiduously managed anthropogenic ecosystem of the Classic period Maya was a landscape optimized in a way that provided sustenance to a relatively large population in a preindustrial, low-density urban community. This landscape productivity optimization, however, came with a heavy cost of reduced environmental resiliency and a complete reliance on consistent annual rainfall. Recent speleothem data collected from regional caves showed that persistent episodes of unusually low rainfall were prevalent in the mid-9th century A.D., a time period that coincides strikingly with the abandonment of Tikal and the erection of its last dated monument in A.D. 869. The intensified resource management strategy used at Tikal-already operating at the landscape's carrying capacity-ceased to provide adequate food, fuel, and drinking water for the Late Classic populace in the face of extended periods of drought. As a result, social disorder and abandonment ensued.Adobe Acrobat profesional 6.0 o superiorAgricultura tradicionalAgroforesteríaGestión del aguaArqueología mayaPaleoecologíaArtfrosurDisponible en líneaPNAS, Proceedings of the National Academy of Scienceshttp://www.pnas.org/content/111/52/18513.full.pdf+htmlAcceso en línea sin restricciones

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