NOSAMS Related Research

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] Year

Journal Article

Arey J.S, Nelson R.K, Xu L., Reddy C.M. 2005. Using comprehensive two-dimensional gas chromatography retention indices to estimate environmental partitioning properties for a complete set of diesel fuel hydrocarbons. Analytical Chemistry. 77(22):7172-7182.

Smith C.G, Culver S.J, Mallinson D.J, Riggs S.R, Corbett D.R. 2009. Using foraminifera to recognize former flood-tide deltas in the Holocene stratigraphic record: examples from the Outer Banks, North Carolina. Stratigraphy. 6:61-78.

Chanton J, Zhao T, Rosenheim BE, Joye S, Bosman S, Brunner C, Yeager KM, Diercks AR, Hollander D. 2015. Using Natural Abundance Radiocarbon To Trace the Flux of Petrocarbon to the Seafloor Following the Deepwater Horizon Oil Spill. Environmental Science & Technology. 49(2):847-854.

Chanton J, Zhao T, Rosenheim BE, Joye S, Bosman S, Brunner C, Yeager KM, Diercks AR, Hollander D. 2014. Using Natural Abundance Radiocarbon To Trace the Flux of Petrocarbon to the Seafloor Following the Deepwater Horizon Oil Spill. Environmental science & technology.

Briner J.P., Stewart H.A.M., Young N.E., Philipps W., Losee S.. 2010. Using proglacial-threshold lakes to constrain fluctuations of the Jakobshavn Isbræ ice margin, western Greenland, during the Holocene. Quaternary Science Reviews. 29(27-28):3861-3874.

Reddy C.M, Xu L., O'Connor R.. 2003. Using radiocarbon to apportion sources of polycyclic aromatic hydrocarbons in household soot. Environmental Forensics. 4(3):191-197.

DeMaster D.J, Taylor R.S, Smith C.R, Isla E., Thomas C.J. 2021. Using Radiocarbon to Assess the Abundance, Distribution, and Nature of Labile Organic Carbon in Marine Sediments. Global Biogeochemical Cycles. 35(6)

Soulet G, Giosan L, Flaux C, Galy V. 2019. Using Stable Carbon Isotopes to Quantify Radiocarbon Reservoir Age Offsets in the Coastal Black SeaAbstract. Radiocarbon. 61(1):309-318.

Bertrand S, Araneda A, Vargas P, Jana P, Fagel N, Urrutia R. 2012. Using the N/C ratio to correct bulk radiocarbon ages from lake sediments: Insights from Chilean Patagonia. Quaternary Geochronology. 12:23-29.

Henderson G.M, Slowey N.C, Fleisher M.Q. 2001. U-Th dating of carbonate platform and slope sediments. Geochimica Et Cosmochimica Acta. 65(16):2757-2770.

Kemp AC, Wright AJ, Barnett RL, Hawkes AD, Charman DJ, Sameshima C, King AN, Mooney HC, Edwards RJ, Horton BP et al.. 2017. Utility of salt-marsh foraminifera, testate amoebae and bulk-sediment δ13C values as sea-level indicators in Newfoundland, Canada. Marine Micropaleontology. 130:43-59.

Natanson LJ, Gervelis BJ, Winton MV, Hamady LLing, Gulak SJB, Carlson JK. 2014. Validated age and growth estimates for Carcharhinus obscurus in the northwestern Atlantic Ocean, with pre- and post management growth comparisons. Environmental Biology of Fishes. 97109251443124592565546445894545835645277154931266199319909310036110823842426199561196662521049(8C34212):881-896.

Andrews AH, Kerr LA. 2015. Validated age estimates for large white sharks of the northeastern Pacific Ocean: altered perceptions of vertebral growth shed light on complicated bomb Delta C-14 results. Environmental Biology of Fishes. 98(3):971-978.

Kilada R.W, Campana S.E, Roddick D.. 2007. Validated age, growth, and mortality estimates of the ocean quahog (Arctica islandica) in the western Atlantic. Ices Journal of Marine Science. 64(1):31-38.

Neilson J.D, Campana S.E. 2008. A validated description of age and growth of western Atlantic bluefin tuna (Thunnus thynnus). Canadian Journal of Fisheries and Aquatic Sciences. 65(8):1523-1527.

Cook M, Fitzhugh GR, Franks JS. 2009. Validation of yellowedge grouper, Epinephelus flavolimbatus, age using nuclear bomb-produced radiocarbon. ENVIRONMENTAL BIOLOGY OF FISHES. 86:461-472.

Saal A.E, Hauri E.H, Langmuir C.H, Perfit M.R. 2002. Vapour undersaturation in primitive mid-ocean-ridge basalt and the volatile content of Earth's upper mantle. Nature. 419(6906):451-5.

Brady A.L, Goordial J., Sun H.J, Whyte L.G, Slater G.F. 2018. Variability in carbon uptake and (re)cycling in Antarctic cryptoendolithic microbial ecosystems demonstrated through radiocarbon analysis of organic biomarkers. Geobiology. 16(1):62-79.

Wang X.C, Callahan J., Chen R.F. 2006. Variability in radiocarbon ages of biochemical compound classes of high molecular weight dissolved organic matter in estuaries. Estuarine Coastal and Shelf Science. 68(1-2):188-194.

Eglinton T.I, BenitezNelson B.C, Pearson A., McNichol A.P, Bauer J.E, Druffel E.RM. 1997. Variability in radiocarbon ages of individual organic compounds from marine sediments. Science. 277(5327):796-799.

McManus J.F, Healey S.L, Oppo D.W, Curry W.B. 1999. Variability in shallow- and intermediate-water hydrography during the last climate cycle of the Quaternary. EOS. 80:F10.

Summerhayes C.P, Kroon D., Rosell-Mele A., Jordan R.W, Schrader H.J, Hearn R., Villanueva J., Grimali J.O, Eglinton G.. 1995. Variability in the Benguela Current upwelling system over the past 70,000 years. Progress in Oceanography. 35(3):207-251.

McNichol A.P, Druffel E.RM. 1992. Variability of the delta13C of dissolved inorganic carbon at a site in the North Pacific Ocean. Geochimica et Cosmochimica Acta. 56:3589-3592.

Loh A.N, Bauer J.E, Druffel E.RM. 2004. Variable ageing and storage of dissolved organic components in the open ocean. Nature. 430(7002):877-881.

Beck KK, Fletcher M-S, Gadd PS, Heijnis H, Saunders KM, Simpson GL, Zawadzki A. 2018. Variance and Rate-of-Change as Early Warning Signals for a Critical Transition in an Aquatic Ecosystem State: A Test Case From Tasmania, Australia. Journal of Geophysical Research: Biogeosciences. 123(2):495-508.

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