Iron cycling during the decline of a South Georgia diatom bloom

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY
Joanna Ainsworth , Alex J. Poulton , Maeve C. Lohan , Mark C. Stinchcombe , Alastair J.M. Lough , C. Mark Moore
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引用次数: 3

Abstract

The Southern Ocean is the largest high nutrient low chlorophyll (HNLC) oceanic region, where iron limits phytoplankton growth and productivity and ultimately influences the Biological Carbon Pump (BCP). Natural exceptions to the HNLC regime occur where island wakes cause iron to be mixed into surface waters from sediments, enabling large, prolonged phytoplankton blooms and increased carbon drawdown. Interactions between iron and phytoplankton are reciprocal in blooms: with plankton regulating the (re)cycling of iron through cellular uptake and remineralisation. The depth of iron remineralisation then influences either re-supply to the surface mixed layer biota or sequestration into deeper waters. Water column trace metal observations and shipboard experiments, using bioassays and radioisotope (55Fe, 32Si, 14C) cycling, were undertaken to investigate surface mixed layer phytoplankton iron limitation, iron uptake, and mesopelagic iron remineralisation relative to carbon and silica within the November 2017 bloom downstream of South Georgia. Surface phytoplankton residing in the iron depleted mixed layer were iron limited throughout the four-week sampling period. Experiments designed to investigate particulate water column (re)cycling revealed limited iron remineralisation from freshly produced upper ocean particles. The main pathway of iron transfer from particulates into the dissolved phase was through rapid (<2 d) release of extra-cellular adsorbed iron, which, if occurring in situ, could contribute to observed higher sub-surface dissolved Fe concentrations. This was accompanied by a small loss of cellular carbon, likely through respiration of the fixed 14C, and limited dissolution of particulate 32Si to dissolved 32Si. Decoupling of the remineralisation length scales for Fe, C and Si, with Fe having the fastest turnover, is thus likely in the upper mesopelagic zone beneath the bloom.

南乔治亚硅藻华衰退期间的铁循环
南大洋是最大的高营养低叶绿素(HNLC)海域,铁限制了浮游植物的生长和生产力,并最终影响生物碳泵(BCP)。HNLC机制的自然例外情况发生在岛屿尾流导致铁从沉积物中混合到地表水中的情况下,从而导致大规模、长期的浮游植物水华和碳下降增加。在水华中,铁和浮游植物之间的相互作用是相互的:浮游生物通过细胞吸收和再矿化来调节铁的(再)循环。铁再矿化的深度会影响向地表混合层生物群的再供应或向更深水域的固存。利用生物测定和放射性同位素(55Fe,32Si,14C)循环,进行了水柱痕量金属观测和船上实验,以研究2017年11月南乔治亚州下游水华期间表层混合层浮游植物铁限制、铁吸收和中上层铁相对于碳和硅的再矿化。在为期四周的采样期内,生活在贫铁混合层中的表层浮游植物铁含量有限。旨在研究颗粒水柱(再)循环的实验表明,新产生的上层海洋颗粒对铁的再矿化作用有限。铁从颗粒转移到溶解相中的主要途径是通过细胞外吸附铁的快速(<;2d)释放,如果在原位发生,这可能有助于观察到更高的亚表面溶解铁浓度。这伴随着细胞碳的少量损失,可能是通过固定的14C的呼吸,以及颗粒32Si向溶解的32Si的有限溶解。因此,Fe、C和Si的再矿化长度尺度的解耦,其中Fe的周转最快,可能发生在水华下方的上层中上层区域。
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来源期刊
CiteScore
6.40
自引率
16.70%
发文量
115
审稿时长
3 months
期刊介绍: Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.
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