(super 13) c-enriched carbonate in Mississippian mud mounds; Alamogordo Member, Lake Valley Formation, Sacramento Mountains, New Mexico, U.S.A.
(super 13) c-enriched carbonate in Mississippian mud mounds; Alamogordo Member, Lake Valley Formation, Sacramento Mountains, New Mexico, U.S.A.
Journal of Sedimentary Research (January 2002) 72 (1): 138-145
- biogenic structures
- bioherms
- C-13/C-12
- carbon
- carbonate rocks
- Carboniferous
- depositional environment
- geochemical indicators
- geochemistry
- isotope ratios
- isotopes
- Lake Valley Formation
- Lower Mississippian
- marine environment
- Mississippian
- mud mounds
- New Mexico
- Otero County New Mexico
- Paleozoic
- Sacramento Mountains
- sedimentary rocks
- sedimentary structures
- stable isotopes
- United States
- Alamogordo Member
The origin of the carbonate mud constituting Paleozoic mid-shelf and deeper-water mud mounds has long been debated. Mississippian mud mounds and their laterally adjacent coeval inter-mound strata in the Lake Valley Formation are well exposed along cliff faces in south-central New Mexico. The mounds originated on erosional surfaces on a gently sloping ramp in 110 to 250 m water depth. Carbonate muds that constitute the inter-mound strata, mud mounds, and syndepositional neptunian dikes within the mounds are low-Mg calcite microspars with similar petrographic, cathodoluminescent, and fluorescent characteristics. Carbon and oxygen stable isotope analyses demonstrate that the microspars constituting the inter-mound, mound, and neptunian dikes have average delta (super 13) C values of 2.6 per mil (sigma = + or - 0.2), 3.4 per mil (sigma = + or - 0.6), and 4.8 per mil (sigma = + or - 0.3) PDB, respectively. Additionally, well preserved brachiopods from the inter-mound strata and from Muleshoe mud mound have delta (super 13) C values markedly different from each other but similar to their surrounding microspars, i.e., brachiopod Chi 's = 2.7 per mil and 3.9 per mil PDB, respectively. The stable-isotope distributions within each environment, similarity of values between microspar and brachiopod data from the same depositional environments, as well as agreement of delta (super 13) C values with other investigations of coeval strata support the conclusion that the measured delta (super 13) C values are essentially primary values. It is envisioned that (super 13) C-enriched fluids sourced by bacterial fermentation in the subjacent strata rose into the mounds, some through neptunian dikes, and influenced the precipitation of the microspars in the mounds and dikes. Near the sediment-water interface, these fluids mixed with normal marine waters, thus precipitating the microspars, or their precursors, which have high delta (super 13) C values that characterize the mud mounds. The inter-mound microspars and inter-mound brachiopods have the lowest delta (super 13) C values and are in agreement with worldwide coeval marine calcites, that is, the inter-mound microspars formed under normal marine conditions. The high delta (super 13) C values measured in all of the mound-related samples indicate that all mounds received a contribution of (super 13) C-enriched waters. This relationship indicates that microspar precipitation in the mounds was associated with seepage of methanogenic fluids from the underlying strata.