Description
Irrigation agriculture has been heralded as the solution to feeding the world's growing population. To this end, irrigation agriculture is both extensifying and intensifying in arid regions across the world in an effort to create highly productive agricultural systems. Over one third of modern irrigated fields, however, show signs of serious soil degradation, including salinization and waterlogging, which threaten the productivity of these fields and the world's food supply. Surprisingly, little ecological data on agricultural soils have been collected to understand and address these problems. How, then, can expanding and intensifying modern irrigation systems remain agriculturally productive for the long-term? Archaeological case studies can provide critical insight into how irrigated agricultural systems may be sustainable for hundreds, if not thousands, of years. Irrigation systems in Mesopotamia, for example, have been cited consistently as a cautionary tale of the relationship between mismanaged irrigation systems and the collapse of civilizations, but little data expressly link how and why irrigation failed in the past. This dissertation presents much needed ecological data from two different regions of the world - the Phoenix Basin in southern Arizona and the Pampa de Chaparrí on the north coast of Peru - to explore how agricultural soils were affected by long-term irrigation in a variety of social and economic contexts, including the longevity and intensification of irrigation agriculture. Data from soils in prehispanic and historic agricultural fields indicate that despite long-lived and intensive irrigation farming, farmers in both regions created strategies to sustain large populations with irrigation agriculture for hundreds of years. In the Phoenix Basin, Hohokam and O'odham farmers relied on sedimentation from irrigation water to add necessary fine sediments and nutrients to otherwise poor desert soils. Similarly, on the Pampa, farmers relied on sedimentation in localized contexts, but also constructed fields with ridges and furrows to draw detrimental salts away from planting surfaces in the furrows on onto the ridges. These case studies are then compared to failing modern and ancient irrigated systems across the world to understand how the centralization of management may affect the long-term sustainability of irrigation agriculture.
Details
Title
- Sustaining irrigation agriculture for the long-term: lessons on maintaining soil quality from ancient agricultural fields in the Phoenix Basin and on the north coast of Peru
Contributors
- Strawhacker, Colleen (Author)
- Spielmann, Katherine A. (Thesis advisor)
- Hall, Sharon J (Committee member)
- Nelson, Margaret C. (Committee member)
- Sandor, Jonathan A (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2013
Subjects
- Archaeology
- Sustainability
- Agriculture
- Agriculture, Ancient
- North Coast of Peru
- Soil science
- Southern Arizona
- Sustainable Irrigation
- Soil Pollution
- Agriculture, Ancient--Arizona--Phoenix Region.
- Agriculture, Ancient
- Agriculture, Ancient--Peru.
- Agriculture, Ancient
- Irrigation farming--Environmental aspects--Arizona--Phoenix Region.
- Irrigation farming
- Irrigation farming--Environmental aspects--Peru.
- Irrigation farming
- Environmental archaeology--Arizona--Phoenix Region.
- Environmental archaeology
- Environmental archaeology--Peru.
- Environmental archaeology
Resource Type
Collections this item is in
Note
- thesisPartial requirement for: Ph.D., Arizona State University, 2013
- bibliographyIncludes bibliographical references (p. 261-297)
- Field of study: Anthropology
Citation and reuse
Statement of Responsibility
by Colleen Strawhacker