Time-series measurements of Th in water column and sediment trap samples from the northwestern Mediterranean Sea期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Time-series measurements of Th in water column and sediment trap samples from the northwestern Mediterranean Sea

Authors:	J Kirk Cochran Juan Carlos Miquel Robert Armstrong Scott W Fowler Pere Masqu Beat Gasser David Hirschberg Jennifer Szlosek Alessia M Rodriguez y Baena Elisabet Verdeny Gillian M Stewart

Institution:	^aMarine Sciences Research Center, Stony Brook University, Stony Brook, NY 11794-5000, USA;^bMarine Environment Laboratories, International Atomic Energy Agency, 4 quai Antoine 1^er, Monaco;^cInstitut de Ciencia i Tecnologia Ambientals, Departament de Fisica, Universitat Autonoma de Barcelona, 08193 Bellaterra, Spain;^dDepartment of Earth and Environmental Sciences, Queens College CUNY, Flushing, NY 11367, USA

Abstract:	Disequilibrium between ²³⁴Th and ²³⁸U in water column profiles has been used to estimate the settling flux of Th (and, by proxy, of particulate organic carbon); yet potentially major non-steady-state influences on ²³⁴Th profiles are often not able to be considered in estimations of flux. We have compared temporal series of ²³⁴Th distributions in the upper water column at both coastal and deep-water sites in the northwestern Mediterranean Sea to coeval sediment trap records at the same sites. We have used sediment trap records of ²³⁴Th fluxes to predict temporal changes in water column ²³⁴Th deficits and have compared the predicted deficits to those measured to determine whether the time-evolution of the two coincide. At the coastal site (327 m water depth), trends in the two estimates of water column ²³⁴Th deficits are in fairly close agreement over the 1-month deployment during the spring bloom in 1999. In contrast, the pattern of water column ²³⁴Th deficits is poorly predicted by sediment trap records at the deep-water site (DYFAMED, 2300 m water depth) in both 2003 and 2005. In particular, the transition from a mesotrophic to an oligotrophic system, clearly seen in trap fluxes, is not evident in water column ²³⁴Th profiles, which show high-frequency variability. Allowing trapping efficiencies to vary from 100% does not reconcile the differences between trap and water column deficit observations; we conclude that substantial lateral and vertical advective influences must be invoked to account for the differences.Advective influences are potentially greater on ²³⁴Th fluxes derived from water column deficits relative to those obtained from traps because the calculation of deficits in open-ocean settings is dominated by the magnitude of the “dissolved” ²³⁴Th fraction. For observed current velocities of 5–20 cm s⁻¹, in one radioactive mean-life of ²³⁴Th, the water column at the DYFAMED site can reflect ²³⁴Th scavenging produced tens to hundreds of kilometers away. In contrast, most of the ²³⁴Th flux collected in shallow sediment traps at the DFYFAMED site was in the fraction settling >200 m d⁻¹; in effect the sediment trap can integrate the ²³⁴Th flux over distances 40-fold less than water column ²³⁴Th distributions. In some sense, sediment trap and water column sampling for ²³⁴Th provide complementary pictures of ²³⁴Th export. However, because the two methods can be dominated by different processes and are subject to different biases, their comparison must be treated with caution.

Keywords:	Thorium-234 Particle fluxes Sediment traps Northwest Mediterranean Non-steady state
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