Abstract
The objective of this chapter is to offer a short but comprehensive overview of the Yucatán Peninsula, its karstic landscapes and soil types. In this chapter, we will also provide insights regarding Maya nomenclature associated with these physical characteristics. We include information on the hydrology of the Yucatán Peninsula (principally geohydrology) and regional climatic patterns (ITCZ, the North Atlantic and teleconnections). From this point of reference, we will explain the peculiarities of the peninsula, including a brief description of the origins of its vegetation distribution. Following this, we will present a paleoenvironmental and historic framework with a cultural focus, together with information on the uses and management of the natural resources by the Maya while explaining modifications of their environment. We will then include an analysis on global change based on data from the IPCC (Intergovernamental Panel on Climate Change) related to drivers of climatic change in the region such as deforestation, forest fires, hurricanes and changes in sea level. We will explain how these factors have influenced the loss of biodiversity and contributed to global change.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Aimers J, Iannone G. The dynamics of ancient Maya developmental history. In: Iannone G, editor. The Great Maya droughts in cultural context. Case studies in resilience and vulnerability. Boulder, CO: University Press of Colorado; 2014. p. 21–50.
Andrews WE. Balankanche. Throne of the Tigre Priest. MARI Publication No. 32. New Orleans, LA: Tulane University; 1970. p. 182.
Back W, Hanshaw B. Comparison of chemical hydrogeology of the carbonate peninsulas of Florida and Yucatán. J Hydrol. 1970;10:330–68.
Barrera A. La península de Yucatán como provincia Biótica. Rev Soc Mex Hist Nat. 1962;23:71–105.
Barrera-Bassols N, Toledo VM. Ethnoecology of the Yucatec Maya: symbolism, Knowledge and Management of Natural Resources. J Lat Am Geogr. 2005;4(1):9–41.
Barrera-Bassols N, Zinck JA. Ethnopedology: a worldwide view on the soil knowledge of local people. Geoderma. 2003;111:171–95.
Barrera-Bassols N, Zinck JA, Van Ranst E. Local soil classification and comparison of indigenous and technical soil maps in a Mesoamerican community using spatial analysis. Geoderma. 2006;135:140–62.
Bauer-Gottwein P, Gondwe BRN, Charvet G, Marín LE. Review: the Yucatán Peninsula karst aquifer, Mexico. Hydrogeol J. 2011;19:507–24.
Bautista F, Palacio-Aponte G, Ortíz-Perez M, Batllori-Sampedro E, Castillo-González M. El Origen y el manejo Maya de las geoformas, suelos y aguas en la Península de Yucatán. In: Bautista F, Palacio G, editors. Caracterización y Manejo de los Suelos de la Península de Yucatán: Implicaciones Agropecuarias, Forestales y Ambientales. México: UAC, UADY, INE; 2005a. p. 21–32.
Bautista F, Batllori-Sampedro E, Palacio-Ponte G, Ortiz-Pérez M, Castillo-Gonzalez M. Integración del conocimiento actual sobre los paisajes geomorfológicos de la Península de Yucatán. In: Bautista F, Palacio G, editors. Caracterización y Manejo de los Suelos de la Península de Yucatán: Implicaciones Agropecuarias, Forestales y Ambientales. México: UAC, UADY, INE; 2005b. p. 33–58.
Bautista-Zuñiga F, Jiménez-Osornio J, Navarro-Alberto J, Manu A, Lozano R. Microrelieve y color del suelo como propiedades de diagnóstico en leptosoles cársticos. Terra Latinoamericana. 2003;21(1):1–11.
Bautista-Zuñiga F, Estrada-Medina H, Jiménez-Osornio JJM, González-Iturbe JA. Relación entre el relieve y unidades de suelo en zonas cársticas de Yucatán. Terra Latinoamericana. 2004;22(3):243–54.
Beach T, Luzzadder-Beach S, Dunning N, Cook D. Human and natural impacts on fluvial and karst depressions of the Maya Lowlands. Geomorphology. 2008;101:308–31. doi:10.1016/j.geomorph.2008.05.019.
Beach T, Luzzadder-Beach S, Dunning N, Jones J, Lohse J, Guderjan T, Bozarth S, Millspaugh S, Bhattacharya T. A review of human and natural changes in Maya Lowland wetlands over the Holocene. Quat Sci Rev. 2009;28:1710–24. doi:10.1016/j.quascirev.2009.02.004.
Boserup E. The conditions of agricultural growth: the economics of agrarian change under population pressure. Chicago, IL: Aldine Publishing; 1965. p. 124.
Brokaw N, Bonilla N, Knapp S, MacVean AL, Ortiz JJ, Peña-Chocarro M, De Pöll E, Tun-Garrido J. Arboles del Mundo Maya. Natural History Museum, ProNatura Península de Yucatán, UADY, Fundación ProPetén, Universidad del Valle de Guatemal; 2011. p. 263.
Buckler ES, Stevens NM. Maize origins, domestication, and selection. In: Motley TJ, Zerega N, Cross H, editors. Darwin’s harvest: new approaches to the origins, evolution, and conservation of crops. New York, NY: Columbia University Press; 2006. p. 67–90.
Burke K. Tectonic evolution of the Caribbean. Annu Rev Earth Planet Sci. 1988;16:201–30.
Canuto M, Barrientos T. Cinco años de investigaciones en La Corona: una adivinanza envuelta en un misterio dentro de un enigma. In: Arroyo B, Méndez-Salinas L, editors. XXVI Simposio de Investigaciones Arqueológicas en Guatemala. Guatemala: Museo Nacional de Arqueología; 2013. p. 993–8.
Carnevali G, Duno R, Tapia JL, Ramírez IM. Reassessment of Zephyranthes (Amaryllidaceae) in the Yucatán Peninsula including a new species, Z. orellanae. J Torrey Bot Soc. 2010;137:39–48.
Carrillo-Bastos A, Islebe GA, Torrescano-Valle N, González NE. Holocene vegetation and climate history of central Quintana Roo, Yucatán Península, Mexico. Rev Palaeobot Palyno. 2010;160:189–96.
Carrillo-Bastos A, Islebe GA, Torrescano-Valle N. 3800 Years of quantitative precipitation reconstruction from the Northwest Yucatán Peninsula. PLoS One. 2013;8(12), e84333. doi:10.1371/journal.pone.0084333.
Coe MD. The Maya. 5th ed. London: Thames and Hudson; 1994. p. 224.
Coney PJ. Plate tectonic constraints on the biogeography of Middle America and The Caribbean Region. Ann Mo Bot Gard. 1982;69(3):432–43.
Curtis JH, Hodell DA, Brenner M. Climate variability on the Yucatán Peninsula (Mexico) during the past 3500 years, and implications for Maya Cultural Evolution. Quat Res. 1996;46:37–47.
Day JW, Gunn JD, Folan WJ, Yañez-Arancibia A, Horton BP. The influence of enhanced post-glacial coastal margin productivity on the emergence of complex societies. JICA. 2012;7:23–52.
Delgadillo-Macías J, Aguilar-Ortega T, Rodríguez-Velázquez D. Los aspectos económicos y sociales de El Niño. In: Magaña V, editor. Los Impactos de El Niño en México. México: Dirección General de Protección Civil, Secretaría de Gobernación; 1999. p. 181–212.
Demarest AA, Wolf M, Martínez H, Valle J, Barrientos T, Quiñones D, Rodas E, Luin W, Ajin J. Cancún, Ciudad de Agua y Pantanos: Algunos descubrimientos de la Temporada y el patrón General del Sitio Cancuen. In: Arroyo B, Paiz L, Linares A, Arroyave A, editors. XXIV Simposio de Investigaciones arqueológicos en Guatemala; 2011. p. 381–92.
Domínguez-Carrasco MR, Folan WJ. Calakmul, México: Aguadas, bajos, precipitación y asentamiento en el Peten Campechano. Memorias del IX Simposio de Arqueología Guatemalteca. Ministerio de Cultura y Deportes, Instituto de Antropología e Historia, Proyecto Tikal y Asociación Tikal, Guatemala, CA; 1996. p. 171–93.
Domínguez-Carrasco MR, Folan WJ, Gates G, González-Heredia R, Gunn JD, Morales-López A, Robichaux H, Volta B. Oxpemul, su altiplanicie Kárstica Ondulada-Calakmul, El Preclásico: 30 años en el corazón del Peten Campechano. In: Arroyo B, Paiz L, Mejía H, editors. XXV Simposio de Investigación Arqueológico en Guatemala, Ministro de Cultura y Deportes Instituto de Antropología e Historia, Ciudad de Guatemala, Guatemala; 2012. p. 887–901.
Doolittle WE. An epilogue and bibliographic supplement to canal irrigation in prehistoric Mexico: the sequence of technological change. J Mesoam Archaeol Res Lab. 2006;4:3–15. The University of Texas, Austin.
Dunning N, Beach T. Stability and instability in prehispanic Maya landscapes. In: Lentz DL, editor. Imperfect balance landscape transformations in the Precolumbian Americas. New York, NY: Columbia University Press; 2000. p. 179–202.
Durán-García R, Méndez-González ME. Selva baja caducifolia con cactáceas candelabriforme. In: Durán R, Méndez M, editors. Biodiversidad y desarrollo humano en Yucatán. México: CICY, PPD-FMAM, CONABIO, SEDUMA; 2010. p. 141–2.
Ek-Diaz A. Vegetación. In: Pozo C, Armijo-Canto N, Calmé S, editors. Riqueza Biológica de Quintana Roo. Un análisis para su conservación. Tomo I. ECOSUR, CONABIO. México: Gobierno Estado de Quintana Roo, PPD; 2011. p. 62–73.
Espadas-Manrique C, Durán R, Argáez J. Phytogeographic analysis of taxa endemic to the Yucatán Peninsula using geographic information systems, the domain heuristic method and parsimony analysis of endemicity. Divers Distrib. 2003;9:313–30.
FAO Food and Agricultural Organization of the United Nations. Land resources. 2015. http://www.fao.org/nr/land/soils/soil/wrb-soil-maps/classification-key/en/#c25341. Accessed Jan 2015.
Fernández-Concha GC, Tapia-Muñoz JL, Duno de Stefano R, Ramírez-Morillo I. Flora Ilustrada de la Península de Yucatán. Mexico: CICY; 2010. p. 326.
Folan WJ. CA Comments: in the Late Postclassic eastern frontier of Mesoamerica. Cultural innovation along the periphery by John W. Fox. Curr Anthropol. 1981;22(4):336–7.
Folan WJ, Fletcher LA, Kintz ER. Fruit, fiber, bark and resin: social organization of a Maya urban center. Science. 1979;204(4394):697–701.
Folan WJ, Gunn J, Eaton JD, Patch RW. Paleoclimatologic patterning in Southern Mesoamerica. J Field Archaeol. 1983;10(4):453–68.
Folan WJ, Faust B, Lutz W, Gunn JD. Social and environmental factors in the Classic Maya collapse. In: Lutz W, Prieto L, Sanderson W, editors. Population, development, and environment on the Yucatán Peninsula: from ancient Maya to 2030. Luxemburg: IIASA; 2000. p. 2–33.
Folan WJ, González-Heredia R, Domínguez-Carrasco MR, Florey FL. Calakmul, Oxpemul y Coba: Un patrón hidráulico en el Mesoplano y plano kárstico de la Península de Yucatán, México. Los Investigadores de la Cultura Maya. Universidad Autónoma de Campeche, Campeche, México. 2014; 22(2):307–24.
Folan WJ, Domínguez-Carrasco MR, Gunn JD, Morales-López A, González-Heredia R, Villanueva-García G, Torrescano-Valle N. Calakmul: power, perseverance, and persistence. In: Cucina A, editor. Archaeology and bioarchaeology of population movement among the prehispanic Maya. México: Springer; 2015. p. 37–50.
García E. Distribución de la precipitación en la República Mexicana. Bol Inst Geogr. 2003;50:67–76.
Gates G. Fisiografía, geología e hidrología. In: Folan WJ, Sánchez González MC, García-Ortega JM, editors. Programa de manejo Reserva de la Biosfera Calakmul. Campeche: Universidad Autónoma de Campeche, SEDUE; 1992.
Gentry AH. Changes in plant community diversity and floristic composition on environmental and geographical gradients. Ann Mo Bot Gard. 1988;75:1–34.
Gómez-Pompa A. On Maya silviculture. Mex Estud. 1987;3(1):1–17.
Gondwe BRN, Lerer S, Stisen S, Marín L, Rebolledo-Vieyra M, Merediz-Alonso G, Bauer-Gottwein P. Hydrogeology of the South-Eastern Yucatán Peninsula: new insights from wáter level measurements, geochemistry, geophysics and remote sensing. J Hydrol. 2010;389:1–17.
González-Medrano F. Las Comunidades Vegetales de México. 2nd ed. México: SEMARNAT, INE; 2004. p. 82.
Gunn JD, Folan WJ. Datos Climáticos, Apéndice 2, vol. 4. In: Folan WJ, García Ortega JM, Sánchez-González MC, editors. Programa de Manejo Reserva de la Biosfera Calakmul. PMRBC, 4 volumes. México: CIHS, UAC, SEDESOL; 1992.
Gunn JD, Folan WJ. Three rivers: Subregional variations in earth system impacts in the Southwestern Maya Lowlands (Candelaria, Usumacinta, and Champotón Watersheds). In: McIntosh RJ, Tainter JA, Keech MS, editors. The way the wind blows: climate, history and human action. New York, NY: Columbia University; 2000. p. 223–71.
Gunn JD, Folan WJ, Robichaux HR. Un análisis informativo sobre la descarga del sistema del Rio Candelaria en Campeche, México: Reflexiones acerca de los Paleoclimas que afectaron los antiguos sistemas Mayas en los sitios de Calakmul y El Mirador. In: Folan WJ, editor. Campeche Maya Colonial, Colección Arqueología. México: Universidad Autónoma de Campeche; 1994.
Gunn JD, Folan WJ, Isendahl C, Dominguez CMR, Faust BB, Volta B. 8 Calakmul: agent risk and sustainability in the Western Maya Lowlands. Archaeol Pap Am Anthropol Assoc. 2014;24:101–23. doi:10.1111/apaa.12032.
Haug GH, Günther D, Peterson LC, Sigman DM, Hughen KA, Aeschlimann B. Climate and the collapse of Maya Civilization. Science. 2003;299:1731–5.
Hildebrand AR, Penfield GT, Kring DA, Pilkington M, Camargo ZA, Jacobsen SB, Boynton WV. Chicxulub crater: a possible cretaceous/tertiary boundary impact cráter on the Yucatán Peninsula, Mexico. Geology. 1991;19:867–71.
Hildebrand AR, Pilkington M, Connors M, Ortíz-Aleman C, Chavez RE. Size and structure of Chickulub crater revealed by horizontal gravity gradients and cenotes. Nature. 1995;376:415–7.
Hodell DA, Curtis JH, Brenner M. Possible role of climatic change in the collapse of the Maya civilization. Nature. 1995;375:391–4.
Hodell DA, Brenner M, Curtis JH. Climate change in the Northern American Tropics and Subtropics since the last Ice Age: implications for environment and culture. In: Lentz DL, editor. Imperfect balance. Landscape transformations in the Precolumbian Americas. New York, NY: Columbia University Press; 2000. p. 13–38.
Hodell DA, Brenner M, Curtis JH, Guilderson T. Frequency in the Maya lowlands. Science. 2001;292:1367–70.
Hodell DA, Brenner M, Curtis JH. Terminal classic drought in the northern Maya Lowlands inferred from multiple sediment cores in Lake Chichancanab (México). Quat Sci Rev. 2005;24:1413–27.
Ibarra-Manríquez G, Villaseñor JL, Durán R, Meave J. Biogeographical analysis of the tree flora of the Yucatán Peninsula. J Biogeogr. 2002;29:17–29.
INEGI. Mapa Digital de México. 2003. http://gaia.inegi.org.mx/mdm6/?v=bGF0OjIzLjMyMDA4LGxvbjotMTAyLjE0NTY1LHo6MSxsOmM0MTY=
INEGI. Mapa Digital Red Hidrográfica, 1:50000, 2.0 edición. 2010. http://www.inegi.org.mx/geo/contenidos/topografia/regiones_hidrograficas.aspx
INEGI. Mapa Digital de Climas, 1:1000000. 2011. http://www.inegi.org.mx/geo/contenidos/recnat/clima/infoescala.aspx
INEGI. Mapa Precipitación México. 2013. http://www.inegi.org.mx/sistemas/buzon/buzon.aspx?c=2652&s=inegi
IPCC. Climate change 2013: the physical science basis. In: Stocker TF, Qin D, Plattner GK, Tignor M, Allen SK, Boschung J, Nauels A, Xia Y, Bex V, Midgley PM, editors. Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change. Cambridge: Cambridge University Press; 2013. p. 1535.
IPCC. Climate change 2014: impacts, adaptation, and vulnerability. Part A: global and sectoral aspects. In: Field CB, Barros VR, Dokken DJ, Mach MD, Mastrandrea TE, Bilir M, Chatterjee KL, Ebi YO, Estrada KJ, Genova RC, Girma B, Kissel ES, Levy AN, MacCracken S, Mastrandrea PR, White LL, editors. Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge, UK: Cambridge University Press; 2014a. p. 1132.
IPCC. Climate change 2014: mitigation of climate change. In: Edenhofer O, Pichs-Madruga R, Sokona Y, Farahani E, Kadner S, Seyboth K, Adler A, Baum I, Brunner S, Eickemeier P, Kriemann B, Savolainen J, Schlömer S, von Stechow C, Zwickel T, Minx JC, editors. Contribution of working group III to the fifth assessment report of the intergovernmental panel on climate change. Cambridge, UK: Cambridge University Press; 2014b.
Islebe GA, Hooghiemstra H, Brenner M, Curtis JH, Hodell DA. A Holocene vegetation history from lowland Guatemala. The Holocene. 1996;6(3):265–71.
Isphording WC. The clay of Yucatán Mexico: a contrast in genesis. In: Singer A, Galan E, editors. Palygorskite-Sepiolite: Occurrences Genesis and Uses. Amsterdam: Elsevier; 1984. p. 59–73.
IUSS Grupo de Trabajo WRB. Base Referencial Mundial del Recurso Suelo. Primera actualización 2007, Informes sobre Recursos Mundiales de Suelos No. 103. Roma: FAO; 2007. p 117.
IUSS Working Group WRB. World reference base for soil resources 2014. International soil classification system for naming soils and creating legends for soil maps. World soil resources reports No. 106. Rome: FAO; 2014. p. 182.
Johnston KJ. The intensification of pre-industrial cereal agriculture in the tropics: Boserup, cultivation lengthening, and the Classic Maya. J Anthropol Archaeol. 2003;22:126–61. doi:10.1016/S0278-4165(03)00013-8.
Johnston KJ. La intensificación de la agricultura Maya Clásica. In: Laporte JP, Arroyo B, Mejía H, editors. XIX Simposio de Investigaciones Arqueológicas en Guatemala 2005. Guatemala: Museo Nacional de Arqueología y Etnología; 2006. p. 1090–100.
Josserand JK. Archaeological and linguistic correlations for Mayan prehistory. Actas del XLI Congreso Internacional de Américas, México. 1975;1:504–10.
Leyden BW. Pollen evidence for climatic variability and cultural disturbance in the Maya Lowlands. Anc Mesoam. 2002;13:85–101.
Leyden B, Brenner M, Whitmore T, Curtis JH, Piperno DR, Dahlin BH. A record of long-and short-term climatic variation from Northwest Yucatán: Cenote San José Chulchacá. In: Fedick SL, editor. The managed mosaic: ancient Maya agriculture and resource use. Salt Lake City: University of Utah Press; 1996. p. 30–50.
Leyden BW, Brenner B, Dahlin BH. Cultural and climatic history of Cobá, a lowland Maya city in Quintana Roo, Mexico. Quat Res. 1998;49:111–22.
Lohse JC. Archaic origins of the Lowland Maya. Lat Am Antiq. 2010;21(3):312–52.
Lucero LJ, Fedick SL, Dunning NP, Lentz DL, Scarborough VL. 3 Water and landscape: ancient Maya settlement decisions. Archeol Pap Am Anthropol Assoc. 2014;24:30–42. doi:10.1111/apaa.12027.
Lundell CL. Preliminary sketch of the phytogeography of the Yucatán Peninsula. Contrib Am Archaeol. 1934;12:257–321.
Marín L, Pacheco-Ávila JG, Méndez-Ramos R. Hidrogeología de la Península de Yucatán. In: Jiménez B, Marín L, editors. El agua en México vista desde la Academia. México: Academia Mexicana de Ciencias; 2005. p. 159–76.
Marshall J, Donohoe A, Ferreira D, McGee D. The ocean’s role in setting the mean position of the Inter-Tropical Convergence Zone. Clim Dyn. 2014;42:1967–79.
Martínez E, Galindo-Leal C. La Vegetación de Calakmul, Campeche, México: Clasificación, Descripción y Distribución. Bol Soc Bot México. 2002;71:7–32.
Martínez E, Ramos-Alvarez CH. Un nuevo género de Anacardiaceae de la Península de Yucatán. Acta Botanica Hungarica. 2007;49(3-4):353–8.
Matheny RT. Maya Lowlands hydraulic systems. Science. 1976;193:639–46.
Matheny RT, Gurr DL, Forsyth DW, Hauck FR. Investigations at Edzná Campeche, Mexico. In: Thayer DD, editors. Papers of the New World Archaeological Foundation, Number 46, Vol. I, Part 1. Utah: Brigham Young University Provo; 1983. p. 239.
Matsouka Y, Vigouroux Y, Goodman MM, Sanchez GS, Buckler E, Doebley J. A single domestication for maize shown by multilocus microsatellite genotyping. PNAS. 2002;99(9):6080–4. doi:10.1073/pnas.052125199.
Medina-Elizalde M, Rohling EJ. Collapse of classic Maya civilization related to modest reduction in precipitation. Science. 2012;335:956–9.
Medina-Elizalde M, Burns SJ, Lea DW, Asmerom Y, von Gunten L, Polyak V, Vuille M, Karmalkar A. High resolution stalagmite climate record from the Yucatán Peninsula spanning the Maya terminal classic period. Earth Planet Sci Lett. 2010;298:255–62.
Méndez M, Magaña V. Regional aspects of prolonged meteorological droughts over Mexico and Central America. Am Meteorol Soc. 2010;23:1175–88. doi:10.1175/2009JCLI3080.1.
Mendoza B, Velasco V, Jáuregui E. A study of historical droughts in Southeastern Mexico. J Clim. 2006;19:2916–34.
Mendoza B, García-Acosta V, Velasco V, Jáuregui E, Díaz-Sandoval R. Frequency and duration of historical droughts from the 16th to the 19th centuries in the Mexican Maya lands, Yucatán Peninsula. Clim Chang. 2007;83:151–68. doi:10.1007/s10584-006-9232-1.
Miranda F. Estudios acerca de la vegetación. In: Beltran E, editor. Los recursos naturales del sureste y su aprovechamiento, segundo tomo. Mexico: Instituto Mexicano de Recursos Naturales Renovables AC; 1958. p. 215–71.
Miranda F, Hernández-Xolocotzi E. Tipos de vegetación de México y su clasificación. Bol Soc Bot Méx. 1963;28:29–179.
Morales-López A. Arqueología de salvamento en la Nueva Carretera a Calakmul, Municipio de Champotón, Campeche. Información. 1987;12:75–109.
Müeller AD, Islebe GA, Hillesheim M, Hillesheim MB, Grzesik DA, Anselmetti FS, Ariztegui D, Brenner M, Curtis JH, Hodell DA, Venz KA. Climate drying and associated forest decline in the lowlands of Northern Guatemala during the late Holocene. Quat Res. 2009;71:133–41.
Mylroie JE, Carew JL, Moore AI. Blue holes: definition and genesis. Carbonates Evaporites. 1995;10(2):225–33.
Orellana R, Espadas C, Conde C, Gay C. Atlas. Escenarios de Cambio Climático en la Península de Yucatán. México: CICY; 2009. p. 1–7.
Pearse AS. Parasites from Yucatán. Carnegie Inst Wash Publ. 1936;457:45–9.
Pennington TD, Sarukhan J. Arboles Tropicales de México. Manual para la Identificación de las Principales Especies. UNAM/FCE; 1998. p. 498.
Perry E, Velazquez-Oliman G, Marin L. The hydrogeochemistry of the karst aquifer system of the Northern Yucatán Peninsula, Mexico. Int Geol Rev. 2002;44:191–221.
Perry E, Velazquez-Oliman G, Socki RA. Hidrogeology of the Yucatán Peninsula. In: Gómez-Pompa A, Allen MF, Fedick SL, Jimenez-Osornio JJ, editors. The Lowland Maya: three millenia at human-wildland interface. Binghamton, NY: Haworth Press; 2003. p. 115–38.
Perry E, Paytan A, Pedersen B, Velazquez-Oliman G. Groundwater geochemistry of the Yucatán Peninsula, Mexico: constraints on stratigraphy and hydrogeology. J Hydrol. 2009;367:27–40.
Pohl MED, Pope KO, Jones JG, Jacob JS, Piperno DR, deFrance DS, Lentz DL, Gifford JA, Danforth ME, Josserand JK. Early agriculture in the Maya Lowlands. Lat Am Antiq. 1996;7(4):355–72.
Pohl MED, Piperno DR, Pope KO, Jones JG. Microfossil evidence for pre-Columbian maize dispersals in the neotropics from San Andrés, Tabasco, México. PNAS. 2007;104(16):6870–5. doi:10.1073/pnas.0701425104.
Poveda G, Waylen PR, Pulwarty RS. Annual and inter-annual variability of the present climate in northern South America and Southern Mesoamerica. Palaeogeogr Palaeoclimatol Palaeoecol. 2006;234:3–27.
Ramírez-Morillo IM, Carnevali G, Cetzal-Ix W. Hohenbergia mesoamericana (Bromeliaceae), first record of the genus for Mesoamerica. Rev Mex Biodivers. 2010;81(1):21–6.
Rico-Gray V, García-Franco JG. The Maya and the vegetation of the Yucatán Peninsula. J Ethnobiol. 1991;11(1):135–42.
Rosenswing RM, Pearsall DM, Masson MA, Culleton BJ, Kennett DJ. Archaic period settlement and subsistence in the Maya Lowlands: new starch grain and lithic data from Freshwater Creek, Belize. J Archaeol Sci. 2014;41:308–21.
Sánchez SO, Islebe GA, Herrera EP. Flora representativa de Quintana Roo. In: Xacur J, editor. Enciclopedia de Quintana Roo, Vols. 1–10. 1998.
Sánchez-Sánchez O, Islebe GA. Tropical forest communities in Southeastern Mexico. Plant Ecol. 2002;158:183–200.
Sánchez-Santillán N, Signoret-Poillon M, Garduño-López R. La Oscilación del Atlántico Norte: un fenómeno que incide en la variabilidad climática de México. Ing Inv Tec VII(2) Abril-Junio. 2006.
Santley RS. Demographic archaeology in the Maya Lowlands. In: Culbert TP, Rice DS, editors. Precolumbian population history in the Maya Lowlands. Albuquerque: University of New Mexico Press; 1990. p. 325–43.
Scarborough VL, Valdez F. 9 The alternative economy: resilience in the face of complexity from the Eastern lowlands. Archeol Pap Am Anthropol Assoc. 2014;24:124–41. doi:10.1111/apaa.12033.
Sedov S, Solleiro-Rebolledo E, Fedick SL, Gama-Castro J, Palacios-Mayorga S, Vallejo-Gómez E. Soil genesis in relation to landscape evolution and ancient sustainable land use in the Northeastern Yucatán Peninsula, Mexico. Atti Soc Tosc Sci Nat Mem. Serie A. 2007;112:115–26.
Shang C, Tiessen H. Soil organic C sequestration and stabilization in karstic soils of Yucatán. Biogeochemistry. 2003;62:177–96.
Siemens AH. Wetland Agriculture in pre-hispanic Mesoamerica. Am Geogr Soc. 1983;73(2):166–81. http://www.jstor.org/stable/214642.
Siemens AH. Subidas y Bajadas: Desafíos en la investigación del factor agua en la ecología humana del mundo Maya. Paper read at the XXI Encuentro Internacional: Los Investigadores de la Cultura Maya. Universidad Autónoma de Campeche, Campeche, México; 2011.
Sluyter A, Dominguez G. Early maize (Zea mays L.) cultivation in Mexico: dating sedimentary pollen records and its implications. PNAS. 2006;103(4):1147–51.
Smart PL, Beddows PA, Coke J, Doerr S, Smith S, Whitaker FF. Cave development on the Caribbean coast of the Yucatán Peninsula, Quintana Roo, Mexico. In: Harmon RS, Wicks C, editors. Perspectives on Karst geomorphology, hydrology, and geochemistry-A tribute volume to Derek C. Ford and William B. White: Geological Society of America Special Paper 404; 2006. p. 105–28.
Stahle DW, Burnette DJ, Villanueva-Diaz J. Pacific and Atlantic influences on Mesoamerican climate over the past millennium. Clim Dyn. 2012;39:1431–46. doi:10.1007/s00382-011-1205-z.
Steinich B, Marín LE. Determination of flow characteristics in the aquifer of the Northwestern Peninsula of Yucatán, Mexico. J Hydrol. 1997;191(1–4):315–31.
Tainter JA. 14 Collapse and sustainability: Rome, the Maya, and the modern world. Archeol Pap Am Anthropol Assoc. 2014;24:201–14. doi:10.1111/apaa.12038.
Torrescano-Valle N, Islebe GA. Tropical forest and mangrove history from southeastern Mexico: a 5000 yr pollen record and implications for sea level rise. Veg Hist Archaeobot. 2006;15:191–5.
Torrescano-Valle N, Islebe GA. Mangroves of Southeastern Mexico: palaecology and conservation. Open Geogr J. 2012;5:6–15.
Torrescano-Valle N, Islebe GA. Holocene paleoecology, climate history and human influence in the southwestern Yucatán Peninsula. Rev Palaeobot Palynol. 2015. doi:10.1016/j.revpalbo.2015.03.003.
Turner II BL. Once beneath the forest: prehistoric terracing in the Rio Bec Region of the Maya Lowlands. Dellplain Latin American studies, no. 13. Boulder, CO: Westview Press; 1983.
Villanueva-García G. Las conchas y caracoles de Calakmul. Manuscript on file. México: Instituto Nacional de Antropología e Historia; n.d.
Wahl D, Byrne R, Schreiner T, Hansen R. Palaeolimnological evidence of late-Holocene settlement and abandonment in the Mirador Basin, Peten, Guatemala. The Holocene. 2007;17(6):813–20.
Wang C, Enfield DB. The tropical Western Hemisphere warm pool. Geophys Res Lett. 2001;28(8):1635–8.
Whitmore TJ, Brenner M, Curtis J, Dahlin BH, Leyden BW. Holocene climatic and human influences on lakes of the Yucatán Peninsula, Mexico: an interdisciplinary paleolimnological approach. The Holocene. 1996;6:273–87.
Whittaker RJ, Field R. Tree species richness modelling: an approach of global applicability? Oikos. 2000;89(2):399–402.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Torrescano-Valle, N., Folan, W.J. (2015). Physical Settings, Environmental History with an Outlook on Global Change. In: Islebe, G., Calmé, S., León-Cortés, J., Schmook, B. (eds) Biodiversity and Conservation of the Yucatán Peninsula. Springer, Cham. https://doi.org/10.1007/978-3-319-06529-8_2
Download citation
DOI: https://doi.org/10.1007/978-3-319-06529-8_2
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-06528-1
Online ISBN: 978-3-319-06529-8
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)