BeachTLuzzadder-BeachSKrauseS, et al. (2019) Ancient maya wetland fields revealed under tropical forest canopy from laser scanning and multiproxy evidence. Proceedings of the National Academy of Sciences of the United States of America116(43): 21469–21477.
2.
BennettHH (1926) Agriculture in Central America. Annals of the Association of American Geographers16: 63–84.
3.
CastanetCPurdueLTesteM, et al. (2022) Multi-millennial human impacts and climate change during the Maya early Anthropocene: implications on hydro-sedimentary dynamics and socio-environmental trajectories (Naachtun, Guatemala). Quaternary Science Reviews283: 107458.
4.
DeeveyESRiceDSRicePM, et al. (1979) Mayan urbanism: impact on a tropical karst environment. Science206(4416): 298–306.
5.
EnsleyRHansenRDMorales-AguilarC, et al. (2021) Geomorphology of the mirador-calakmul karst basin: A GIS-based approach to hydrogeologic mapping. Plos One16(8): e0255496.
6.
InomataTJ-C Fernandez-DiazDTriadanM, et al. (2021) Origins and spread of formal ceremonial complexes in the Olmec and Maya regions revealed by airborne lidar. Nature Human Behaviour5(11): 1487–1501.
7.
KrauseSBeachTPLuzzadder-BeachS, et al. (2021) Tropical wetland persistence through the anthropocene: multiproxy reconstruction of environmental change in a Maya agroecosystem. Anthropocene34: 100284.
8.
LundellCL (1937) The vegetation of Peten, Washington, DC Carnegie Institution of Washington Publication no. 436.
9.
TurnerBLII (2022) The Anthropocene: 101 Questions and Answers for Understanding the Human Impact on the Global Environment. Columbia University Press.
10.
WeeksJMHillJA (eds) 2006. The carnegie maya: The Carnegie Institution of Washington Maya Research Program. Boulder, CO: University Press of Colorado, 1913–1957. ISBN-13 978-0-87081-833-2.
