Mesoscale variability of phosphorus stocks, hydrological and biological processes in the mixed layer in the Eastern Mediterranean Sea in autumn and during an unusually dense winter phytoplankton bloom

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY
France Van Wambeke , Vincent Taillandier , Xavier Durrieu de Madron , Pascal Conan , Mireille Pujo-Pay , Stella Psarra , Sophie Rabouille , Chloé Baumas , Elvira Pulido-Villena
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引用次数: 0

Abstract

We investigated spatiotemporal variations of nutrients, dissolved organic pools (C, N, P), phosphomonoesterase (PME) and phosphodiesterase (PDE) activities, heterotrophic prokaryotic production and planktonic microorganisms within the mixed layer (ML) in the Eastern Mediterranean Sea. We characterized two contrasted situations: autumn 2018 (highly stratified period, deep chlorophyll maximum within 100 m depth) and winter 2019 (including a bloom period). We compared the distribution of biogeochemical variables within the mixed layer and hydrological vertical structure between the different stations using a principal component analysis. Six groups of stations were identified (one group in autumn, 5 in winter), based on variable physical descriptors but also environmental biogeochemical conditions related to i) the seasonal aspect (for instance, all stations sampled within the Ierapetra anticyclone in autumn clustered in one, single group); ii) transitions between cyclonic and anticyclonic structures with a large range of ML depths (18–269 m) and indications of intense, preceding winter convection events: iii) progression of a high phytoplankton bloom during the winter cruise inferred from a series of observations: a strong nitrate drawdown, important growth of Synechococcus, pico and nano eukaryotes, accumulation of chlorophyll a (>60 mg m−2), primary production rates up to 509 mg C m−2 d−1, changes in the pigments’ diversity, increase in biomass-specific ectoenzymatic activities and of heterotrophic prokaryotic production, all in conjunction with the vicinity of the Rhodes gyre. Here, we studied the distribution of biological and biogeochemical properties within the mixed layer, in particular by employing sensitive methods for the detection of low phosphate concentrations and of the labile dissolved organic phosphorus pool. From this data set, we demonstrate that the surface mixed layer classically considered as a P-depleted and uniform layer in the Eastern Mediterranean Sea was highly biologically dynamic, and prone to rapid spatio-temporal changes in phosphatase activities and phytoplankton dynamics. Altogether, these data reveal a strong short-term population dynamics. The results highlight the role of mixing episodes in winter, which provide pulsed supplies of phosphate and/or nitrate from the deeper layer to the euphotic zone, triggering transient blooms that often go undetected by satellites.

秋季和冬季浮游植物异常密集繁殖期间东地中海混合层磷储量、水文和生物过程的中尺度变化
我们研究了地中海东部混合层(ML)内营养物质、溶解有机物库(C、N、P)、磷单质酶(PME)和磷酯酶(PDE)活性、异养原核生物产量和浮游微生物的时空变化。我们描述了两种截然不同的情况:2018 年秋季(高度分层期,100 米深度内的深层叶绿素最大值)和 2019 年冬季(包括水华期)。我们利用主成分分析比较了不同站点之间混合层内生物地球化学变量的分布和水文垂直结构。根据不同的物理特征以及与以下方面相关的环境生物地球化学条件,确定了 6 组站点(秋季 1 组,冬季 5 组):i) 季节方面(例如,所有在秋季 Ierapetra 反气旋内采样的站点都集中在一个单一的组);ii) 气旋结构和反气旋结构之间的过渡,混合层深度范围较大(18-269 米),以及冬季对流事件前的强烈迹象:iii) 根据一系列观测结果推断,冬季巡航期间浮游植物大量繁殖:硝酸盐大量减少,Synechococcus、微微型和纳米型真核生物大量生长,叶绿素 a 累积(60 毫克/米-2),初级生产率高达 509 毫克碳米-2/天-1,色素多样性发生变化,生物质特异性外酶活动和异养原核生物生产增加,所有这些都与罗兹涡旋附近有关。在这里,我们研究了混合层中生物和生物地球化学特性的分布,特别是采用灵敏的方法检测低磷酸盐浓度和易溶有机磷池。从这组数据中,我们证明了在东地中海,通常被认为是缺磷层和均匀层的表层混合层具有很强的生物动态性,容易发生磷酸酶活性和浮游植物动态的快速时空变化。总之,这些数据揭示了强烈的短期种群动态。这些结果突显了冬季混合事件的作用,它从深层向透光层提供磷酸盐和/或硝酸盐的脉冲供应,引发瞬时水华,而卫星往往无法发现这些水华。
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来源期刊
CiteScore
4.60
自引率
4.20%
发文量
144
审稿时长
18.3 weeks
期刊介绍: Deep-Sea Research Part I: Oceanographic Research Papers is devoted to the publication of the results of original scientific research, including theoretical work of evident oceanographic applicability; and the solution of instrumental or methodological problems with evidence of successful use. The journal is distinguished by its interdisciplinary nature and its breadth, covering the geological, physical, chemical and biological aspects of the ocean and its boundaries with the sea floor and the atmosphere. In addition to regular "Research Papers" and "Instruments and Methods" papers, briefer communications may be published as "Notes". Supplemental matter, such as extensive data tables or graphs and multimedia content, may be published as electronic appendices.
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