TRACING THERMOHALINE PROPERTIES AND PRODUCTIVITY OF SHELF-WATER MASSES USING THE STABLE ISOTOPIC COMPOSITION OF BENTHIC FORAMINIFERA

Pub Date : 2014-10-01 DOI:10.2113/GSJFR.44.4.352

P. Eichler, K. Billups, H. Vital, J. Moraes

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引用次数: 11

Abstract

We explored the applicability of stable isotopic ratios of nine foraminiferal species, four epifaunal (Pseudononion atlanticum, Cibicides fletcheri, Hoeglundina elegans, Hanzawaia boueana) and five infaunal (Angulogerina angulosa, Uvigerina peregrina, Buccella peruviana, Cassidulina subglobosa, Bulimina marginata), as environmental tracers on the southwest Atlantic continental shelf from samples collected along the Argentinean-Uruguayan-Brazilian Atlantic coast during austral winter 2003 and summer 2004. Linear regressions show that the stable isotopic composition of living foraminifera is associated with geographical and environmental variables (latitude, water depth, temperature, salinity, and dissolved silica). Multiple linear regressions show that the relevant variables in this study are latitude, salinity, and biogenic silica. There is a general trend of higher δ 18 O and lower δ 13 C values with increasing latitude, reflecting the influence of cooler water masses toward the south. Specifically, the δ 18 O data from U. peregrina, H. elegans, and P. atlanticum follow meridional temperature gradients with lower δ 18 O values in relatively warm Subtropical Shelf Water at the northernmost sites (27°S) and higher values in colder Sub-Antarctic Shelf Water at the southern sites (to 37°S). Angulogerina angulosa and P. atlanticum δ 18 O values correlate more strongly with salinity than temperature. Positive correlation of δ 13 C and water depth observed for some infaunal species indicates greater input of organic matter to the deeper-water benthos. In summer samples, however, this correlation between δ 13 C and water depth weakens, reflecting a less stratified water mass associated with upwelling. Results from this study support the application of these foraminifera to reconstructions of paleoenvironmental changes from sediment cores.

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利用底栖有孔虫的稳定同位素组成追踪陆架水体的温盐性和生产力

本文探讨了9种有孔虫稳定同位素比值的适用性，其中4种有孔虫(Pseudononion atlanticum、Cibicides fletcheri、Hoeglundina elegans、Hanzawaia boueana)和5种有孔虫(Angulogerina angulosa、Uvigerina peregrina、Buccella peruviana、Cassidulina subglobosa、Bulimina marginata)。作为西南大西洋大陆架上的环境示踪剂，来自2003年冬季和2004年夏季沿阿根廷-乌拉圭-巴西大西洋海岸收集的样本。线性回归表明，有孔虫的稳定同位素组成与地理和环境变量(纬度、水深、温度、盐度和溶解二氧化硅)有关。多元线性回归表明，纬度、盐度和生物成因硅是研究的相关变量。δ 18o值随纬度的升高而升高，δ 13c值随纬度的升高而降低，反映了较冷的水团向南的影响。其中，远海花、隐杆线虫和大西洋花的δ 18o数据遵循经向温度梯度，在最北端(27°S)相对温暖的副热带陆架水域δ 18o值较低，而在最南端(37°S)较冷的亚南极陆架水域δ 18o值较高。长牙鳗和大西洋鳗的δ 18o值与盐度的相关性大于与温度的相关性。部分动物的δ 13c与水深呈正相关，表明有机质向深水底栖动物的输入量较大。在夏季样品中，δ 13c与水深的相关性减弱，反映出与上升流有关的分层较少的水团。本研究结果支持了这些有孔虫在沉积物岩心古环境变化重建中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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