Ancient Maya reservoirs, constructed wetlands, and future water needs

The Classic Maya (c. 250 to 900 CE) in the tropical southern lowlands of Central America dealt with water scarcity during annual dry seasons and periods of climate instability via sophisticated urban reservoir systems they relied on for over a thousand years. Surface water is limited because typical...

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Published in:Proceedings of the National Academy of Sciences - PNAS 2023-10, Vol.120 (42), p.1
Main Author: Lucero, Lisa J.
Format: Article
Language:English
Subjects:
Algae
Algal growth
Aquatic biota
Aquatic plants
Artificial wetlands
Biofilms
Biota
Breeding grounds
Cleaning
Cores
Dry season
Fossil fuels
Lowlands
Microorganisms
Nutrients
Phosphorus
Prey
Social Sciences
Surface water
Water demand
Water scarcity
Wetlands
Zooplankton
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description The Classic Maya (c. 250 to 900 CE) in the tropical southern lowlands of Central America dealt with water scarcity during annual dry seasons and periods of climate instability via sophisticated urban reservoir systems they relied on for over a thousand years. Surface water is limited because typically rain percolates through the karstic terrain. I posit that Maya reservoirs functioned as do constructed wetlands (CWs) at present. Still-water systems like CWs and Maya reservoirs can become stagnant and nonpotable due to the build-up of nutrients that promote algal growth. Stagnant waters also serve as breeding grounds for mosquitoes that spread endemic diseases. CWs keep water clean via certain aquatic plants since all plants uptake nutrients (e.g., nitrogen, phosphorus) and decomposing plant matter supports microbial biofilms that break down nutrients. CWs also support diverse zooplankton that prey on pathogens and bacteria that assist to denitrify water. CWs do not require the use of chemicals or fossil fuels and after the initial labor-intensive output become self-cleaning and self-sufficient with some maintenance. I posit that the Maya used a diverse array of aquatic plants and other biota to keep water clean in the same manner as do CWs, which I demonstrate using evidence from excavations and settlement maps, sediment cores and current wetlands, and the iconographic and hieroglyphic records. The next step is to combine what we know about ancient Maya reservoirs in conjunction with what is currently known about CWs to better address future water needs.
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subjects Algae
Algal growth
Aquatic biota
Aquatic plants
Artificial wetlands
Biofilms
Biota
Breeding grounds
Cleaning
Cores
Dry season
Fossil fuels
Lowlands
Microorganisms
Nutrients
Phosphorus
Prey
Social Sciences
Surface water
Water demand
Water scarcity
Wetlands
Zooplankton
title Ancient Maya reservoirs, constructed wetlands, and future water needs
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