Researchers developed a novel system to analyze ancient plant DNA in the sediment of Tikal's temple and palace reservoirs to identify more than 30 species of trees, grasses, vines and flowering plants that lived along its banks more than 1,000 years ago. Their findings paint a picture of a lush, wild oasis in the ancient Maya city.

David L. Lentz, Trinity L. Hamilton, Nicholas P. Dunning, Eric J. Tepe, Vernon L. Scarborough, Stephanie A. Meyers, Liwy Grazioso, Alison A. Weiss. Environmental DNA reveals arboreal cityscapes at the Ancient Maya Center of TikalScientific Reports, 2021; 11 (1) DOI: 10.1038/s41598-021-91620-6

Tikal, a major city of the ancient Maya world, has been the focus of archaeological research for over a century, yet the interactions between the Maya and the surrounding Neotropical forests remain largely enigmatic. This study aimed to help fill that void by using a powerful new technology, environmental DNA analysis, that enabled us to characterize the site core vegetation growing in association with the artificial reservoirs that provided the city water supply. Because the area has no permanent water sources, such as lakes or rivers, these reservoirs were key to the survival of the city, especially during the population expansion of the Classic period (250–850 CE). In the absence of specific evidence, the nature of the vegetation surrounding the reservoirs has been the subject of scientific hypotheses and artistic renderings for decades. To address these hypotheses we captured homologous sequences of vascular plant DNA extracted from reservoir sediments by using a targeted enrichment approach involving 120-bp genetic probes. Our samples encompassed the time before, during and after the occupation of Tikal (1000 BCE–900 CE). Results indicate that the banks of the ancient reservoirs were primarily fringed with native tropical forest vegetation rather than domesticated species during the Maya occupation.

Figure 1: Lidar images of Tikal showing the location of the Palace and Temple reservoirs within the central precinct of the city.
Figure 1: Lidar images of Tikal showing the location of the Palace and Temple reservoirs within the central precinct of the city. - Providing water for large urban populations in this region was a challenge because there were no permanent lakes or rivers and the geological under-bedding is porous calcium carbonate. The map of the Western Hemisphere (a) shows the location of the Yucatan peninsula. The inset map (c) indicates the location of Tikal within the Yucatan peninsula and the extent of the elevated interior region (EIR). The central lidar image (b) presents a view of the site core of Tikal. The enlargement in the upper right corner (d) shows the water’s edge of the Palace reservoir (red arrows) and the location of the “bench” or vegetated embankment (green) discussed in the text. The location of the hypothesized “ancestral grove” is encircled in purple. The proposed silting tank or spring pool (SP) lies just to the west of the ancestral grove. The lidar image of the Tikal site core was courtesy of Francisco Estrada-Belli, MARI GIS Lab and the Fundación Patrimonio Cultural y Natural Maya-PACUNAM. Nicholas Dunning created the Mesoamerican inset map.