Sonde data to characterize physical and chemical properties of the Cenote Bang, a component of the Ox Bel Ha cave network within the subterranean estuary coastal aquifer of the Yucatan Peninsula, from December 2013 to January 2016
Dates
Publication Date
2017
Time Period
2013-12-05
Time Period
2014-08-16
Time Period
2015-01-13
Time Period
2016-01-20
Time Period
2016-01-23
Citation
Pohlman, J.W., and Brankovits, David, 2017, Water column physical and chemical properties of Cenote Bang, a component of the Ox Bel Ha cave network within the subterranean estuary coastal aquifer of the Yucatan Peninsula, from December 2013 to January 2016: U.S. Geological Survey data release, https://doi.org/10.5066/F7DJ5DJW.
Summary
Subterranean estuaries extend inland into density-stratified coastal carbonate aquifers that contain a surprising diversity of endemic animals (mostly crustaceans) within a highly oligotrophic environment. How complex ecosystems thrive in this globally-distributed, cryptic habitat (termed anchialine) is poorly understood. The northeastern margin of the Yucatan Peninsula contains over 250 km of mapped, diver-accessible caves passages where previous studies have suggested chemoautotrophic processes are the source of carbon and energy sustaining the anchialine food web. This dataset, collected during four field events during U.S. Geological Survey (USGS) Coastal and Marine Geology Program Field Activities 2015-013-FA and 2016-003-FA in [...]
Summary
Subterranean estuaries extend inland into density-stratified coastal carbonate aquifers that contain a surprising diversity of endemic animals (mostly crustaceans) within a highly oligotrophic environment. How complex ecosystems thrive in this globally-distributed, cryptic habitat (termed anchialine) is poorly understood. The northeastern margin of the Yucatan Peninsula contains over 250 km of mapped, diver-accessible caves passages where previous studies have suggested chemoautotrophic processes are the source of carbon and energy sustaining the anchialine food web. This dataset, collected during four field events during U.S. Geological Survey (USGS) Coastal and Marine Geology Program Field Activities 2015-013-FA and 2016-003-FA in conjunction with Texas A&M University reports physical and chemical properties of the water column from Cenote Bang, a component of the Ox Bel Ha cave network that is located 5 km inland from the coast.
CenoteBangSondeData_Aug2014.csv “One sheet of sonde data in CSV format.”
67.31 KB
text/csv
CenoteBangSondeData_Dec2013.csv “One sheet of sonde data in CSV format.”
21.57 KB
text/csv
CenoteBangSondeData_Jan2016.csv “One sheet of sonde data in CSV format.”
267.73 KB
text/csv
CenoteBangSondeData_Jan2015.csv “One sheet of sonde data in CSV format.”
27.78 KB
text/csv
CenoteBang_sondedata_browse.jpg “Physicochemical profiles of salinity-depth and dissolved oxygen-salinity.”
89.39 KB
image/jpeg
CenoteBang_sondedata_meta.txt “CSDGM metadata in TEXT format.”
24.16 KB
text/plain
CenoteBang_sondedata_meta.html “CSDGM metadata in HTML format.”
59.25 KB
text/html
Purpose
These data are used to characterize the habitat and constrain the biogeochemical processes that support anchialine habitat ecosystems. The sonde data are used to identify details about the physical and chemical structure of the water column and availability of dissolved oxygen in the subterranean estuary.
Preview Image
Physicochemical profiles of salinity-depth and dissolved oxygen-salinity.