Freshwater discharge drives latitudinal changes of phytoplankton composition on the continental shelf off Chilean Patagonia

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-07 DOI:10.1016/j.jmarsys.2024.103993
Julio Poblete-Ulloa , Marcelo H. Gutiérrez , Carina B. Lange , Diego A. Narváez , Paulina Montero , Humberto E. González , Camila Fernández
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Abstract

A high-resolution survey of distribution, abundance and composition of phytoplankton was carried out for the first time in surface waters of the continental shelf off Chilean Patagonia (41–48°S). An Imaging FlowCytobot was used along the survey track to record phytoplankton in the size range of 10–120 μm during the austral spring of 2018. Phytoplankton community structure was complemented with continuous underway measurements of temperature and salinity, and physicochemical parameters of the water column at 35 oceanographic stations. Our results evidenced two main macrozones with distinctive phytoplankton assemblages delimited latitudinally at ~45°S. The northern macrozone was characterized by higher surface temperature and salinity, Si:N ratio > 1, diatoms of the genera Thalassiosira and Chaetoceros, and dinoflagellates accounting for over 70% of the total abundance. The southern macrozone, with lower surface temperature and salinity and Si:N ratio < 1, was characterized by members of the genera Guinardia, Lauderia and Cerataulina, representing over 60% of the total phytoplankton. These changes were attributable to the strong influence of freshwater at latitudes higher than 45°S and the enhanced discharge of meltwaters from Patagonian icefields in the area of the Taitao Peninsula and the Gulf of Penas (47–-48°S). Fresh and cold waters impacted the water column stratification and the availability of dissolved silicic acid with potential effects on phytoplankton composition and diatom cell silicification and, thus, on carbon exportation. Our estimations of phytoplankton carbon were comparable to those observed in Patagonian fjords and the highly productive upwelling ecosystem of central Chile. We suggest that the continental shelf off Patagonia can contribute significantly to strengthen the biological carbon pump through the synthesis, exportation, and sequestration of phytoplankton-based organic carbon in the southeastern Pacific Ocean.

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淡水排放驱动智利巴塔哥尼亚沿海大陆架浮游植物组成的纬度变化
首次在智利巴塔哥尼亚海域(41-48°S)大陆架表层水域开展了浮游植物分布、丰度和组成的高分辨率调查。在 2018 年澳大利亚春季期间,使用成像浮游浮游生物仪(Imaging FlowCytobot)沿勘测轨迹记录了 10-120 μm 大小范围内的浮游植物。浮游植物群落结构与 35 个海洋观测站的温度、盐度和水体物理化学参数的连续在途测量结果相辅相成。我们的研究结果表明,在 ~45°S 的纬度上有两个主要的大区,其浮游植物群落各具特色。北部大区的特点是表层温度和盐度较高,Si:N 比率为 1,硅藻属 Thalassiosira 和 Chaetoceros 以及甲藻占总丰度的 70% 以上。南部大区的表面温度和盐度较低,Si:N 比率为 1,其特点是有 Guinardia 属、Lauderia 属和 Cerataulina 属成员,占浮游植物总量的 60% 以上。这些变化可归因于南纬 45 度以上地区淡水的强烈影响,以及台岛半岛和佩纳斯湾(南纬 47-48 度)地区巴塔哥尼亚冰原融水排放量的增加。淡水和冷水影响了水体分层和溶解硅酸的供应,从而可能影响浮游植物的组成和硅藻细胞的硅化,进而影响碳的输出。我们对浮游植物碳的估算结果与在巴塔哥尼亚峡湾和智利中部高产涌升生态系统中观测到的结果相当。我们认为,巴塔哥尼亚附近的大陆架可以通过浮游植物有机碳在东南太平洋的合成、输出和固碳,为加强生物碳泵做出重大贡献。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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