3,103 research outputs found

    Seasonal Variation in 25(OH)D at Aberdeen (57Ā°N) and Bone Health Indicators- Could Holidays in the Sun and Cod Liver Oil Supplements Alleviate Deficiency?

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    Vitamin D has been linked with many health outcomes. The aim of this longitudinal study, was to assess predictors of seasonal variation of 25-hydroxy-vitamin D (25(OH)D) (including use of supplements and holidays in sunny destinations) at a northerly latitude in the UK (57Ā°N) in relation to bone health indicators. 365 healthy postmenopausal women (mean age 62.0 y (SD 1.4)) had 25(OH)D measurements by immunoassay, serum C-telopeptide (CTX), estimates of sunlight exposure (badges of polysulphone film), information regarding holidays in sunny destinations, and diet (from food diaries, including use of supplements such as cod liver oil (CLO)) at fixed 3-monthly intervals over 15 months (subject retention 88%) with an additional 25(OH)D assessment in spring 2008. Bone mineral density (BMD) at the lumbar spine (LS) and dual hip was measured in autumn 2006 and spring 2007 (Lunar I-DXA). Deficiency prevalence (25(OH)

    Accelerated freshening of Antarctic Bottom Water over the last decade in the Southern Indian Ocean

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    Ā© The Author(s), 2017. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Science Advances 3 (2017): e1601426, doi:10.1126/sciadv.1601426.Southern Ocean abyssal waters, in contact with the atmosphere at their formation sites around Antarctica, not only bring signals of a changing climate with them as they move around the globe but also contribute to that change through heat uptake and sea level rise. A repeat hydrographic line in the Indian sector of the Southern Ocean, occupied three times in the last two decades (1994, 2007, and, most recently, 2016), reveals that Antarctic Bottom Water (AABW) continues to become fresher (0.004 Ā± 0.001 kg/g decadeāˆ’1), warmer (0.06Ā° Ā± 0.01Ā°C decadeāˆ’1), and less dense (0.011 Ā± 0.002 kg/m3 decadeāˆ’1). The most recent observations in the Australian-Antarctic Basin show a particularly striking acceleration in AABW freshening between 2007 and 2016 (0.008 Ā± 0.001 kg/g decadeāˆ’1) compared to the 0.002 Ā± 0.001 kg/g decadeāˆ’1 seen between 1994 and 2007. Freshening is, in part, responsible for an overall shift of the mean temperature-salinity curve toward lower densities. The marked freshening may be linked to an abrupt iceberg-glacier collision and calving event that occurred in 2010 on the George V/AdĆ©lie Land Coast, the main source region of bottom waters for the Australian-Antarctic Basin. Because AABW is a key component of the global overturning circulation, the persistent decrease in bottom water density and the associated increase in steric height that result from continued warming and freshening have important consequences beyond the Southern Indian Ocean.The 2016 I08S cruise and the analysis and science performed at sea, as well as the individual principal investigators were funded through multiple National Oceanic and Atmospheric Administration (NOAA) and NSF grants including NSF grant OCE-1437015. The research for this article was mainly completed at sea. For land-based work, V.V.M. relied on her postdoctoral funding through NSF grant OCE-1435665, and A.M.M. was supported in part by NSF grant OCE-1356630 and NOAA grant NA11OAR4310063

    Confirmation of ENSO-Southern Ocean teleconnections using satellite-derived SST

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    Ā© The Author(s), 2018. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Remote Sensing 10 (2018): 331, doi:10.3390/rs10020331.The Southern Ocean is the focus of many physical, chemical, and biological analyses due to its global importance and highly variable climate. This analysis of sea surface temperatures (SST) and global teleconnections shows that SSTs are significantly spatially correlated with both the Antarctic Oscillation and the Southern Oscillation, with spatial correlations between the indices and standardized SST anomalies approaching 1.0. Here, we report that the recent positive patterns in the Antarctic and Southern Oscillations are driving negative (cooling) trends in SST in the high latitude Southern Ocean and positive (warming) trends within the Southern Hemisphere sub-tropics and mid-latitudes. The coefficient of regression over the 35-year period analyzed implies that standardized temperatures have warmed at a rate of 0.0142 per year between 1982 and 2016 with a monthly standard error in the regression of 0.0008. Further regression calculations between the indices and SST indicate strong seasonality in response to changes in atmospheric circulation, with the strongest feedback occurring throughout the austral summer and autumn.B.S.F. is supported by the NASA/South Carolina Space-grant Graduate Assistantship. A. Macdonald acknowledges support from NOAA Grant #NA160AR4310172

    Investigating subsurface pathways of Fukushima cesium in the Northwest Pacific

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    AĀ© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Cedarholm, E. R., Rypina, I. I., Macdonald, A. M., & Yoshida, S. Investigating subsurface pathways of Fukushima cesium in the Northwest Pacific. Geophysical Research Letters, 46(12), (2019): 6821-6829, doi:10.1029/2019GL082500.Advective pathways for Fukushima Daiichi Nuclear Power Plant (FDNPP)ā€derived cesium observed in 2013 at 166Ā°E south of the Kuroshio Extension (KE) at >500 m on the 26.5ĻƒĪø isopycnal are investigated. Attention is paid to the KE's role in shaping these pathways. Using a highā€resolution model, particle trajectories were simulated backward and forward in time on 26.5ĻƒĪø between the 2013 observations and the 2011 source. A large fraction of backtracked trajectories interacted with the mixed layer just offshore of the FDNPP. The likeliest pathway reaching the deepest 2013 observed cesium location runs along the KE out to ~165Ā°E, where it turns sharply southward. Forward trajectory statistics suggest that for 26.5ĻƒĪø waters originating north of the KE, this current acted as a permeable barrier west of 155ā€“160Ā°E. The deepest 2011 model mixed layers suggest that FDNPPā€derived radionuclides may have been present at 30Ā°N in 2013 at greater depths and densities (700 m; 26.8ĻƒĪø).We would like to thank our two anonymous reviewers for their insightful suggestions that improved this paper. Work by Cedarholm on this project was supported by the WHOI Summer Student Fellowship program and was her UNH senior Capstone project. Rypina, Macdonald, and Yoshida acknowledge salary and project support from the National Science Foundation (NSF) grant OCEā€1356630. Additionally, Rypina would like to acknowledge support from NSF grant OCEā€1558806. CLIVAR PO2 and P10 observations, data sets 318M20130321 and 49NZ2012011, were obtained from the CCHDO (https://cchdo.ucsd.edu/) and the HYCOM output, data set GLBa0.08 expt_90.0v, from https://www.hycom.org/. Argo profiles were obtained from http://www.argodatamgt.org, the ISASā€15 0.5Ā°gridded Argoā€dataā€alone product from https://www.seanoe.org, and delayedā€time allsat AVISO gridded surface velocity estimates from http://marine.copernicus.eu. Extended acknowledgements in Text S4

    Multi-iteration approach to studying tracer spreading using drifter data

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    Author Posting. Ā© American Meteorological Society, 2017. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Physical Oceanography 47 (2017): 339-351, doi:10.1175/JPO-D-16-0165.1.A novel multi-iteration statistical method for studying tracer spreading using drifter data is introduced. The approach allows for the best use of the available drifter data by making use of a simple iterative procedure, which results in the statistically probable map showing the likelihood that a tracer released at some source location would visit different geographical regions, along with the associated arrival travel times. The technique is tested using real drifter data in the North Atlantic. Two examples are considered corresponding to sources in the western and eastern North Atlantic Ocean, that is, Massachusetts Bayā€“like and Irish Seaā€“like sources, respectively. In both examples, the method worked well in estimating the statistics of the tracer transport pathways and travel times throughout the entire North Atlantic. The role of eddies versus mean flow is quantified using the same technique, and eddies are shown to significantly broaden the spread of a tracer. The sensitivity of the results to the size of the source domain is investigated and causes for this sensitivity are discussed.This work was supported by the Grant OCE-1356630 from the National Science Foundation (NSF). Rypina also acknowledges NSF Grant OCE-1154641 and NASA Grant NNX14AH29G.2017-07-3

    Observed eastward progression of the Fukushima 134Cs signal across the North Pacific

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    Author Posting. Ā© American Geophysical Union, 2015. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geophysical Research Letters 42 (2015): 7139ā€“7147, doi:10.1002/2015GL065259.Radionuclide samples taken as part of hydrographic surveys at 30Ā°N in the North Pacific reveal that the easternmost edge of Fukushima-derived 134Cs observed at 174.3Ā°W in 2012 had progressed eastward across the basin to 160.6Ā°W by 2013. The 2013 30Ā°N observations indicate surface 134Cs concentrations of 3ā€“5ā€‰Bq/m3 between 160Ā°E and 160Ā°W, slightly lower concentrations west of 160Ā°E and no detectable signal east of 160.6Ā°W. Profile samples show 134Cs penetration to 500ā€‰m west of 180Ā° with shoaling penetration depth toward to the east. The near-uniform vertical distribution of 137Cs between 152Ā°W and 121.3Ā°W in the top 500ā€‰m is indicative of trace amounts of radionuclides remaining from weapons testing. The physical processes responsible for the deep 134Cs penetration in the western Pacific appear to be related to distinct water mass subduction pathways; however, the timing and rapidity of deep penetration over the broad scales observed has yet to be clarified.National Science Foundation Grant Number: OCE-1356630, Gordon and Betty Moore Foundation Grant Number: GBMF3007, Deerbrook Charitable Trust Grant Number: WHOI-DCT#12-122016-03-0

    Drifter-based estimate of the 5 year dispersal of Fukushima-derived radionuclides

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    Author Posting. Ā© American Geophysical Union, 2014. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research: Oceans 119 (2014): 8177ā€“8193, doi:10.1002/2014JC010306.Employing some 40 years of North Pacific drifter-track observations from the Global Drifter Program database, statistics defining the horizontal spread of radionuclides from Fukushima nuclear power plant into the Pacific Ocean are investigated over a time scale of 5 years. A novel two-iteration method is employed to make the best use of the available drifter data. Drifter-based predictions of the temporal progression of the leading edge of the radionuclide distribution are compared to observed radionuclide concentrations from research surveys occupied in 2012 and 2013. Good agreement between the drifter-based predictions and the observations is found.This work was supported by the grant OCE-1356630 from the National Science Foundation. Data for cesium isotopes was supported by grants from the Gordon and Betty Moore Foundation (grant GBMF3007) and the Deerbrook Charitable Trust

    Short-term dispersal of Fukushima-derived radionuclides off Japan : modeling efforts and model-data intercomparison

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    Ā© The Author(s), 2013. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Biogeosciences 10 (2013): 4973-4990, doi:10.5194/bg-10-4973-2013.The Great East Japan Earthquake and tsunami that caused a loss of power at the Fukushima nuclear power plants (FNPP) resulted in emission of radioactive isotopes into the atmosphere and the ocean. In June of 2011, an international survey measuring a variety of radionuclide isotopes, including 137Cs, was conducted in surface and subsurface waters off Japan. This paper presents the results of numerical simulations specifically aimed at interpreting these observations and investigating the spread of Fukushima-derived radionuclides off the coast of Japan and into the greater Pacific Ocean. Together, the simulations and observations allow us to study the dominant mechanisms governing this process, and to estimate the total amount of radionuclides in discharged coolant waters and atmospheric airborne radionuclide fallout. The numerical simulations are based on two different ocean circulation models, one inferred from AVISO altimetry and NCEP/NCAR reanalysis wind stress, and the second generated numerically by the NCOM model. Our simulations determine that > 95% of 137Cs remaining in the water within ~600 km of Fukushima, Japan in mid-June 2011 was due to the direct oceanic discharge. The estimated strength of the oceanic source is 16.2 Ā± 1.6 PBq, based on minimizing the model-data mismatch. We cannot make an accurate estimate for the atmospheric source strength since most of the fallout cesium had left the survey area by mid-June. The model explained several key features of the observed 137Cs distribution. First, the absence of 137Cs at the southernmost stations is attributed to the Kuroshio Current acting as a transport barrier against the southward progression of 137Cs. Second, the largest 137Cs concentrations were associated with a semi-permanent eddy that entrained 137Cs-rich waters, collecting and stirring them around the eddy perimeter. Finally, the intermediate 137Cs concentrations at the westernmost stations are attributed to younger, and therefore less Cs-rich, coolant waters that continued to leak from the reactor in June of that year.Irina Rypina was partially supported by Grant NSF-OCE-0725796. This work is funded by the Gordon and Betty Moore Foundation through Grant GBMF3007 to Ken Buesseler
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