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The geochemistry of water-filled sinkholes at Bitter Lake National Wildlife Refuge, Roswell, NM : implications for hydrochemical evolution and trophic support

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Please use this identifier to cite or link to this item: http://hdl.handle.net/1928/20779

The geochemistry of water-filled sinkholes at Bitter Lake National Wildlife Refuge, Roswell, NM : implications for hydrochemical evolution and trophic support

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dc.contributor.author Premo, Elizabeth
dc.date.accessioned 2012-07-02T21:55:50Z
dc.date.available 2012-07-02T21:55:50Z
dc.date.issued 2012-07-02
dc.date.submitted May 2012
dc.identifier.uri http://hdl.handle.net/1928/20779
dc.description.abstract This study provides a hydrochemical baseline survey of water-filled sinkholes at Bitter Lake Nation Wildlife Refuge (Roswell, NM). Water samples from 10 representative sinkholes taken at 1.0m increments were analyzed for major ions, stable isotopes [18O, D], and dissolved gases. Sinkholes are surface features at a constant head boundary found at the discharge region for the Roswell Artesian Basin, recharged by upwardly flowing artesian springs. Constant head is confirmed by a lack of measured change in depth during two sampling sessions (October 2008, May 2009), low relief (<10m change across study area), and deployment of autonomous sensors (sondes). Sinkhole waters – regardless of depth or season – fall along a common isotopic evaporation trajectory (D = 3.387*18O – 19.38), and adopt a Na-Cl chemical endmember facies. Driven primarily by physical sinkhole geometry (e.g., depth and surface area), sinkhole water follows a predictable evolutionary progression from a spring-like well-mixed (“young”), to moderately saline well-mixed (“transitional”), to saline and stratified (“old” or “evolved”), based on the relative volume of water that has entered and subsequently been evaporated from the system. The modality of water column structure may be predicted by measuring the density, TDS or conductivity at sinkhole surface, as these parameters can be used as a proxy for evolutionary “age.” Simple geochemical models reveal calcium- and sulfate-bearing minerals (calcite, gypsum) precipitate early in the reaction while halite and magnesium-containing minerals precipitate late, yielding increased Cl- and Mg+ concentrations in fluids subjected to prolonged evaporation. More complicated models are needed to fully consider precipitation of additional mineral species and water budget. Both PO4 and NH4 were present in biologically-significant concentrations in sinkholes with chemically controlled water columns, and photosynthetic bacteria were found to organize at the bottom of the photic zone. High NH4 and CO2 accompanying low O2 dissolved gas values confirm the increased biological control in stratified sinkholes. Resident fish populations are affected by water chemistry which reduces reproductive success or exceed the survivable range of habitable conditions. Results of this study may be used to aid with biological resource management and to predict stratified conditions using measurable proxies. en_US
dc.language.iso en_US en_US
dc.subject Bitter Lake en_US
dc.subject Sinkhole en_US
dc.subject hydrochemistry en_US
dc.subject.lcsh Karst hydrology--New Mexico--Bitter Lake National Wildlife Refuge.
dc.subject.lcsh Water chemistry--New Mexico--Bitter Lake National Wildlife Refuge.
dc.subject.lcsh Sinkholes--New Mexico--Bitter Lake National Wildlife Refuge.
dc.subject.lcsh Geochemistry--New Mexico--Bitter Lake National Wildlife Refuge.
dc.subject.lcsh Groundwater ecology--New Mexico--Bitter Lake National Wildlife Refuge.
dc.title The geochemistry of water-filled sinkholes at Bitter Lake National Wildlife Refuge, Roswell, NM : implications for hydrochemical evolution and trophic support en_US
dc.type Thesis en_US
dc.description.degree Earth and Planetary Sciences en_US
dc.description.level Masters en_US
dc.description.department University of New Mexico. Dept. of Earth and Planetary Sciences en_US
dc.description.advisor Crossey, Laura
dc.description.committee-member Dahm, Clifford
dc.description.committee-member Fischer, Tobias


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