Free Access
Issue
Ann. Limnol. - Int. J. Lim.
Volume 56, 2020
Article Number 24
Number of page(s) 11
DOI https://doi.org/10.1051/limn/2020022
Published online 25 September 2020
  • Alcolado PM, Menéndez F, García-Parrado P, Zúñiga D, Martínez-Daranas B, Losa M, Gómez R. 1998. Cayo Coco, Sabana-Camagüey Archipelago, Cuba. In: Kjerfve N CARICOMP − Caribbean coral reef, seagrass and mangrove sites., editor Paris (France): UNESCO. p. 221–228. [Google Scholar]
  • Alcolado PM, García EE, Arellano-Acosta M. 2007. Ecosistema Sabana-Camagüey: estado actual, avances y desafíos en la protección y uso sostenible de la biodiversidad. La Habana (Cuba): Editorial Academia. [Google Scholar]
  • American Public Health Association, American Water Work Association, Water Pollution Control Federation (AHPA). 1985. Standard Methods for the Examination of Water and Waste Water, 16th edn. Washington, DC. 1268 pp. [Google Scholar]
  • Batista Tamayo LM, González De Zayas R, Zúñiga Ríos A, Matos Pupo F, Hernández Roque L, González Alfonso D. 2006. Atributos físicos del norte de la provincia Ciego de Ávila. En: Ecosistemas costeros: biodiversidad y gestión de recursos naturales. Compilación por el XV Aniversario del CIEC. Sección I. Ecosistema del norte de la provincia Ciego de Ávila. CIEC. Editorial CUJAE. ISBN: 959-261-254-4. [Google Scholar]
  • Beddows PA. 2004. Groundwater hydrology of a coastal conduit carbonate aquifer: Caribbean coast of the Yucatán Peninsula, México. Doctoral dissertation. University of Bristol. [Google Scholar]
  • Beddows PA, Blanchon P, Escobar E, Torres O. 2006. Los cenotes de la Península de Yucatán. Arqueolog Mexicana 14: 32–35. [Google Scholar]
  • Beddows PA, Smart PL, Whitaker FF, Smith SL. 2007. Decoupled fresh–saline groundwater circulation of a coastal carbonate aquifer: spatial patterns of temperature and specific electrical conductivity. J Hydrol 346: 18–32. [CrossRef] [Google Scholar]
  • Brankovits D, Pohlman JW, Niemann H, Leigh MB, Leewis MC, Becker KW, Iliffe TM, Alvarez F, Lehmann MF, Phillips B. 2017. Methane- and dissolved organic carbon-fueled microbial loop supports a tropical subterranean estuary ecosystem. Nat Commun 18: 1835. [Google Scholar]
  • Brinkmann R, Parise M, Dye D. 2008. Sinkhole distribution in a rapidly developing urban environment: Hillsborough County, Tampa Bay area, Florida. Eng Geol 99: 169–184. [Google Scholar]
  • Camargo-Guerra T, Escalera-Vázquez LH, Zambrano L. 2013. Fish community structure dynamics in cenotes of the Biosphere Reserve of Sian Ka'an, Yucatán Peninsula, Mexico. Rev Mex Biodivers 84: 901–911. [CrossRef] [Google Scholar]
  • Cervantes-Martínez A, Elías-Gutiérrez M, Suárez-Morales E. 2002. Limnological and morphometric data of eight karstic system “cenotes” of the Yucatan Peninsula, Mexico, during the dry season (February–May, 2001). Hydrobiologia 482: 167–177. [Google Scholar]
  • Cervantes-Martínez A, Mezeta-Barrera M, Gutiérrez-Aguirre MA. 2009. Limnología básica del lago cárstico turístico Cenote Azul en Quintana Roo, México. Hidrobiológica 19: 177–180. [Google Scholar]
  • Cervantes-Martínez A, Gutiérrez-Aguirre MA. 2015. Physicochemistry and zooplankton of two karstic sinkholes in the Yucatan Peninsula, Mexico. J Limnol 74: 382–393. [Google Scholar]
  • Cervantes-Martínez A, Gutiérrez-Aguirre MA, Elías-Gutiérrez M, Arce-Ibarra AM, García-Morales A. 2018. Aquatic biodiversity in cenotes from the Yucatan Peninsula (Quintana Roo, Mexico). Teoría y Praxis 14: 49–68. [Google Scholar]
  • Cooper J. 2010. Pre-Columbian archaeology of Cuba − a study of site distribution patterns and radiocarbon chronologies. In: Fitzpatrick SM, Ross AH, editors. Island Shores, Distant Pasts − Archaeological and Biological Approaches to the Pre-Columbian Settlement of the Caribbean. Gainesville (FL): University Press of Florida. p.81– 107. [Google Scholar]
  • Díaz-Arce V, Herrera-Silveira JA, Comín FA. 2001. Limnological characteristics of two types of cenotes of Yucatán, Int Vereinigung für theoretische und angewandte Limnologie: Verhandlungen 27: 3579–3582. [Google Scholar]
  • Echtinger H. 2000. Die caverna Tanque Azul. Endins: publicació d'espeleologia 23: 145–154. [Google Scholar]
  • Elías Gutiérrez M, Cervantes Martínez A, Gutiérrez Aguirre M, Arce Ibarra M. 2007. Los cenotes y lagunas del centro y sur de la península de Yucatán. En: Guadalupe De la Lanza Espino (Comp.) Las aguas interiores de México: conceptos y casos. p. 424–445. Editorial AGT. México. [Google Scholar]
  • Emmert JA. 2016. Sedimentation in Submerged Sinkholes in Fillman's Creek, A Microtidal Estuary in Western Florida. Doctoral dissertation. Texas A&M University, USA. [Google Scholar]
  • Enseñat-Soberanis F, Blanco-Gregory R, Mondragón-Mejía J, Simoes N, MorenO-Acevedo E, Ortega I. 2019. Crowding standards and willingness to pay at cenotes (sinkholes) of the Yucatan Peninsula: a comparative analysis of local, national and international visitors. J Ecotour 19: 1–22. [CrossRef] [Google Scholar]
  • Fagundo J, González P. 2005. Hidrogeoquímica. La Habana, Cuba: Centro Nacional de Medicina Natural y Tradicional (CENAMENT). Ministerio de Salud Pública. [Google Scholar]
  • Franco GL, Torre ADL. 1980. Los depósitos costeros del sur de la isla de la Juventud (Isla de Pinos), Cuba. Simposium XXXV Aniversario de la Sociedad Espeleológica de Cuba. Academia de Ciencias de Cuba, Isla de Pinos, 10 al 17 de agosto de 1975. [Google Scholar]
  • García Debrás A, Pérez González A, Ortiz M. 1997. Distribución geográfica de los crustáceos peracáridos acuáticos (Mysidacea, Amphipoda, Isopoda) de las cuevas de Cuba. Cocuyo 6: 33–36. [Google Scholar]
  • García Hernández M. 2001. Capacidad de acogida turística y gestión de flujos de visitantes en conjuntos monumentales: el caso de la Alhambra. PH: Boletín Del Instituto Andaluz Del Patrimonio Histórico 36: 124–137. [Google Scholar]
  • García-Machado E, Hernández D, García-Debrás A, Chevalier-Monteagudo P, Metcalfe C, Bernatchez L, Casane D. 2011. Molecular phylogeny and phylogeography of the Cuban cave-fishes of the genus Lucifuga: evidence for cryptic allopatric diversity. Mol Phylogen Evol 61: 470–483. [CrossRef] [Google Scholar]
  • Gazeau F, Borges AV, Barrón C, Duarte CM, Iversen N, Middelburg JJ, Delille B, Pizay MD, Frankignoulle M, Gattuso JP. 2005. Net ecosystem metabolism in a micro-tidal estuary (Randers Fjord, Denmark): evaluation of methods. Mar Ecol Progr Ser 301: 23–41. [CrossRef] [Google Scholar]
  • G'meiner AA. 2016. Holocene environmental change inferred from fossil pollen and microcharcoal at Cenote Jennifer, Cayo Coco, Cuba. Mastership dissertation. McGill University. [Google Scholar]
  • Gonzalez BC, Iliffe TM, Macalady JL, Schaperdoth I, Kakuk B. 2011. Microbial hotspots in anchialine blue holes: initial discoveries from the Bahamas. Hydrobiologia 677: 149–156. [Google Scholar]
  • Guarch Rodríguez JJ, Corella Varona JE. 2010. Contribución a la geoespeleología de la mayor Caverna inundada de Cuba: Tanque Azul, Gibara, Holguín. Espelunca 9: 1–8. [Google Scholar]
  • Gutiérrez-Domech R. 1998. El Karst en el archipiélago cubano y la región Caribe–Antillana. Minería y Geología 15: 39–52. [Google Scholar]
  • Hall FG. 1936. Physical and chemical survey of cenotes of Yucatan. In: Pearse AS, Creaser AP and Hall FG. (eds.). The cenotes of Yucatán. Washington, DC: Carnegie Institute of Washington, pp. 5–16. [Google Scholar]
  • Hernández Valdés AO. 2011. Selección de obras de captación y políticas de explotación en acuíferos costeros. Rev Ingen Hidráulica Ambiental 32: 3–9. [Google Scholar]
  • Herrera-Silveira J, Comín F. 2000. An introductory account of the types of aquatic ecosystems of Yucatan Peninsula (SE México). In: Munawar M, Lawrence SG, Munawar IF and Malley DF. (Eds.), Aquatic Ecosystems of Mexico: Status and Scope. Leiden: Backhuys, pp. 213– 227. [Google Scholar]
  • Holthuis LB. 1974. Subterranean Crustacea Decapoda Macrura collected by Mr. L. Botosaneanu during the 1973 Cuban-Roumanian Biospeological Expedition to Cuba. Int J Speleol 6: 231–242. [CrossRef] [Google Scholar]
  • Humphreys WF. 1999. Physico-chemical profile and energy fixation in Bundera Sinkhole, an anchialine remiped habitat in north-western Australia. J Roy Soc Western Austr 82: 89–98. [Google Scholar]
  • Humphreys WF, Poole A, Eberhard SM, Warren D. 1999. Effects of research diving on the physico-chemical profile of Bundera Sinkhole, an anchialine remiped habitat at Cape Range, Western Australia. J Roy Soc Western Australia 82: 99–108. [Google Scholar]
  • Iliffe TM, Kornicker LS. 2009. Worldwide diving discoveries of living fossil animals from the depths of anchialine and marine caves. Smithsonian Contrib Mar Sci 38: 270–280. [Google Scholar]
  • Iturralde‐Vinent MA. 1994. Cuban geology: a new plate‐tectonic synthesis. J Petrol Geol 17: 39–69. [CrossRef] [Google Scholar]
  • Keegan WF, Carlson LA. 2008. Talking Taino: Caribbean Natural History from a Native Perspective. Tuscaloosa (AL): The University of Alabama Press. [Google Scholar]
  • Keeton VK. 2017. The Control of Both Climate and Holocene Sea-Level Rise on Aquatic Environmental Conditions in a Coastal Sinkhole on Andros Island, the Bahamas. Doctoral dissertation. Texas A&M University, USA. [Google Scholar]
  • Kovacs SE, Reinhardt EG, Stastna M, Coutino A, Werner C, Collins SV, Devos F, Le Maillot C. 2017. Hurricane Ingrid and Tropical Storm Hanna's effects on the salinity of the coastal aquifer, Quintana Roo, Mexico. J Hydrol 551: 703–714. [CrossRef] [Google Scholar]
  • Mulec J, Oarga A. 2014. Ecological evaluation of air and water habitats in the Great Cavern of Santo Tomás, Cuba. Rev Mexicana Biodiversidad 85: 910–917. [CrossRef] [Google Scholar]
  • Navarro-Mendoza M. 1988. Inventario íctico y estudios ecológicos preliminares en los cuerpos de agua continentales en la reserva de la biósfera de Sian Ka'an y áreas circunvecinas en Quintana Roo, México. (Informe técnico). CIQRO/CONACYT/USFWS, Chetumal. [Google Scholar]
  • Núñez Jiménez A, Panos V, Stelcl O. 1968. Carsos de Cuba. Editora Nacional de Cuba. [Google Scholar]
  • Organización para la Cooperación y el Desarrollo Económico (OECD). 1982. Eutrophication of Waters. Monitoring, Assessment and Control. Cooperative Programmers on Monitoring of Inland Waters (Eutrophication Control), Environment Directorate, OECD Paris, Final Report. France. [Google Scholar]
  • Oficina Nacional de Estadística e Información (ONEI). 2018. Anuario Estadístico de Cuba 2017. Editorial Oficina Nacional de Estadística. [Google Scholar]
  • Pérez-García JA, Díaz-Delgado Y, García-Machado E, Martínez-García A, González BC, Worsaae K, Armenteros M. 2018. Nematode diversity of freshwater and anchialine caves of Western Cuba. Proc Biol Soc Washington 131: 144–155. [CrossRef] [Google Scholar]
  • Peros M, Collins S, G'meiner AA, Reinhardt E, Matos Pupo F. 2017. Multistage 8.2 kyr event revealed through high‐resolution XRF core scanning of Cuban sinkhole sediments. Geophys Res Lett 44: 7374–7381. [Google Scholar]
  • Pohlman JW. 2011. The biogeochemistry of anchialine caves: progress and possibilities. Hydrobiologia 677: 33–51. [Google Scholar]
  • Ramos J, Gracia J, Ortiz S, González-Chávez JL, Iturbe R. 2017. Water quality in aguadas within a protected karstic rain forest: the role of the vegetation-soil-water interactions. Ecol Eng 121: 2–11. [Google Scholar]
  • Reynaldo E, Antonio A, Fernández A, Córdova E. 2016. Distribución y similitud de los peces dulceacuícolas del municipio Gibara, Holguín, Cuba. Novit Caribaea 10: 71–86. [CrossRef] [Google Scholar]
  • Ruberg SA, Coleman DF, Johengen TH, Meadows GA, Van Sumeren HW, Lang GA, Biddanda BA. 2005. Groundwater plume mapping in a submerged sinkhole in Lake Huron. Mar Technol Soc J 39: 65–69. [Google Scholar]
  • Salomon JN. 2019. Relations entre karsts, aquifères et niveaux de la mer à Cuba. Hommes et Terres du Nord 1995/1-2: 82–96. [Google Scholar]
  • Sánchez M, Alcocer J, Escobar E, Lugo A. 2002. Phytoplankton of cenotes and anchialine caves along a distance gradient from the northeastern coast of Quintana Roo, Yucatan Peninsula. Hydrobiologia 467: 79–89. [Google Scholar]
  • Sánchez y Pinto IA, Cervantes-Martínez A, Herrera RAG, Campos MEV, Gutiérrez-Aguirre MA. 2015. Evidencia de flujo preferencial al mar, del Cenote Caletita, en Cozumel, México. Ingeniería 19: 1–12. [Google Scholar]
  • Schmitter-Soto JJ, Comín FA, Escobar-Briones E, Herrera-Silveira J, Alcocer J, Suárez-Morales E, Elías-Gutiérrez M, Díaz-Arce V, Marín E, Steinich B. 2002. Hydrogeochemical and biological characteristics of cenotes in the Yucatan Peninsula (SE Mexico). Hydrobiologia 467: 215–228. [Google Scholar]
  • Silva Taboada G. 1974. Fossil Chiroptera from cave deposits in Central Cuba with description of two new species (genera Pteronotus and Mormoops) and the first West Indian record of Mormoops megalophylla . Acta Zool cracoviensia 9: 33–73. [Google Scholar]
  • Somaratne N. 2017. Karst conduit networks, connectivity and recharge dynamics of a sinkhole. Environ Nat Resour Res 7: 70–88. [Google Scholar]
  • Suárez Morales E, Rivera Arriaga E. 1998. Zooplacton e hidrodinámica en zonas litorales y arrecifales de Quintana Roo, México. Hidrobiológica 8: 19–32. [Google Scholar]
  • Tamalavage AE, Van Hengstum PJ, Louchouarn P, Molodtsov S, Kaiser K, Donnelly JP, Albury AN, Fall PL. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeogr Palaeoclimatol Palaeoecol 506: 70–83. [Google Scholar]
  • UNESCO. 1983. Algorithms for computation of fundamental properties of seawater . SCOR/ICES/IAPSO Joint Panel on Oceanographic Tables and Standards and SCOR Working Group 51. [Google Scholar]
  • Valdespino-Castillo PM, Merino-Ibarra M, Jiménez-Contreras J, Castillo-Sandoval SF, Ramírez-Zierold JA. 2014. Community metabolism in a deep (stratified) tropical reservoir during a period of high water-level fluctuations. Environ Monitor Assess 186: 6505–6520. [CrossRef] [Google Scholar]
  • Wetzel RG, Likens GE. 1991. Limnological analyses. New York: Springer-Verlag, 391 p. [Google Scholar]
  • Wetzel RG. 2001. Limnology. Lake and River Ecosystems, 3rd edn. San Diego: Academic Press, 1006 p. [Google Scholar]
  • Young C, Martin JB, Branyon J, Pain A, Valle‐Levinson A, Mariño‐Tapia I, Vieyra MR. 2018. Effects of short‐term variations in sea level on dissolved oxygen in a coastal karst aquifer, Quintana Roo, Mexico. Limnol Oceanogr 63: 352–362. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.