The Evolution of Agrarian Landscapes in the Tropical Andes

The Evolution of Agrarian Landscapes in the Tropical Andes

: Changes in land-use practices have been a central element of human adaptation to Holocene climate change. Many practices that result in the short-term stabilization of socio-natural systems, however, have longer-term, unanticipated consequences that present cascading challenges for human subsisten...

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Hlavní autor: Shadik, Courtney R. (author)
Další autoři: Bush, Mark B. (author), Valencia, Bryan G. (author), Rozas-Davila, Angela (author), Plekhov, Daniel (author), Breininger, Robert D. (author), Davin, Claire (author), Benko, Lindsay (author), Peterson, Larry C. (author), VanValkenburgh, Parker (author)
Médium: article
Vydáno: 2024
Témata:
climate change
fossil pollen
lake sediment
terracing
crops
pastoralism
Sporormiella
charcoal
XRF
On-line přístup:https://doi.org/10.3390/plants13071019
http://repositorio.ikiam.edu.ec/jspui/handle/RD_IKIAM/786
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Shrnutí:: Changes in land-use practices have been a central element of human adaptation to Holocene climate change. Many practices that result in the short-term stabilization of socio-natural systems, however, have longer-term, unanticipated consequences that present cascading challenges for human subsistence strategies and opportunities for subsequent adaptations. Investigating complex sequences of interaction between climate change and human land-use in the past—rather than short-term causes and effects—is therefore essential for understanding processes of adaptation and change, but this approach has been stymied by a lack of suitably-scaled paleoecological data. Through a highresolution paleoecological analysis, we provide a 7000-year history of changing climate and land management around Lake Acopia in the Andes of southern Peru. We identify evidence of the onset of pastoralism, maize cultivation, and possibly cultivation of quinoa and potatoes to form a complex agrarian landscape by c. 4300 years ago. Cumulative interactive climate-cultivation effects resulting in erosion ended abruptly c. 2300 years ago. After this time, reduced sedimentation rates are attributed to the construction and use of agricultural terraces within the catchment of the lake. These results provide new insights into the role of humans in the manufacture of Andean landscapes and the incremental, adaptive processes through which land-use practices take shape.

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