Abstract
Historical records and archaeological discoveries have shown that prosperous agricultural activities developed in the ancient Juyan Oasis of northwestern China, an important oasis that once flourished on the ancient Silk Road. However, how the irrigation canals were distributed in historical time was unknown. Here, we identified and mapped the spatial distribution of ancient abandoned irrigation canals that were built using CORONA photographs and field inspections. This work found that ancient irrigation canals are large-scale and distributed throughout the desertified environment, with three hierarchical organization of first-, second-, and third-order irrigation canals (the total length of the first- and second-order-irrigation canals is dramatically more than 392 km). This study further indicates that ancient irrigation methods and modern irrigation systems in arid regions of China share the same basic irrigation design. New visual and fine-scale evidence and spatial distribution of irrigation canals are provided to illustrate the development of the ancient irrigated agriculture that occurred in the Juyan Oasis. This work is useful for readers who are interested in the construction and organization approaches of irrigation canals used in ancient irrigated agriculture in arid regions. It also has implications for how ancient people balance the relationships between human needs and the eco-environment using reasonable water management methods, especially for decision-making in the efficient usage of limited water resources in the arid inland river basin.
Highlights
Changes in irrigation canals play a significant role in the development of agricultural activities in arid regions in which water resources are delivered primarily from rivers through the construction of various artificial water conservancy facilities
Previous studies implied that irrigation action has a long-term history in different arid regions throughout the world: the ancient agricultural irrigation systems in the Ein Gedi oasis of southeastern Israel during the Roman-Byzantine period (1st–6st centuries CE) [1]; the prehistoric irrigation canal system in North Coastal Peru during the Middle Sican (AD 900-1100) [2]; the irrigation canals in the upper Khuzestan plains of southwest Iran during the early 1st millennium CE [3]; the irrigation canals around the ancient Loulan kingdom during the Chinese Han Dynasty to the Former Liang Dynasty (202 BC-330 AD) [4]; the Zhengguo canal of the Qin State [5]; and the irrigated water management in the late Bronze Age China [6]
Remotely-sensed images reveal that the spatial distribution of the ancient irrigation canals is quite large, and the discovered canals are distributed throughout most of the study area
Summary
Changes in irrigation canals play a significant role in the development of agricultural activities in arid regions in which water resources are delivered primarily from rivers through the construction of various artificial water conservancy facilities. There are few studies about the spatial distribution of the ancient irrigation canals, which are important for understanding the organization of past irrigation systems and the agricultural distribution and for studying the regional environmental changes in arid areas [7,8]. Among many kinds of remotely sensed data, declassified CORONA photographs have become readily available and affordable to archaeologists, which have many distinctive advantages, such as inexpensive, accessible, high spatial resolution and earliest imaging. It would contribute to our understanding of historical irrigation systems by analyzing the early inexpensive CORONA images with high-resolution. The spatial distribution of the irrigation canals can be used to imply the environmental condition during historical periods
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