Physical control on the inter-annual variability of summer dissolved nutrient concentration and phytoplankton biomass in the Indian sector of the Southern Ocean

IF 2.6 3区地球科学 Q2 OCEANOGRAPHY

Oceanologia Pub Date : 2022-10-01 DOI:10.1016/j.oceano.2022.06.003

Jenson Vilayil George, Ravidas Krishna Naik, Narayanapillai Anilkumar, Prabhakaran Sabu, Shramik Maruti Patil, Rajani Kanta Mishra

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引用次数: 1

Abstract

To understand the role of physical processes and their interannual variability on the dissolved nutrient concentration and phytoplankton biomass distribution, field data collected in the Indian sector of the Southern Ocean (ISSO) during the austral summer of 2009–2011 are used. In the subtropical zone, macronutrients were limited (N:P < 1, N:Si < 1, Si:P ≈ 1) and the phytoplankton biomass variability was mainly governed by the mesoscale eddy activity associated with the Agulhas Return Current. High nutrient low chlorophyll condition prevailed in the sub-Antarctic zone and further south. A South-North gradient of the upper layer dissolved SiO₂ was higher than that of NO₃. The sub-Antarctic zone was characterized by the highest N:Si ratio (>4) and it was associated with the enhanced draw down of silicate due to the winter/spring diatom blooms in the region. The chlorophyll-a (CHL) concentration in the Polar Frontal Zone was low ( $\sim$ 0.2 mg m^–3) in 2009 and 2010 but it was high (0.5 mg m^–3) in 2011. This increase in CHL in 2011 was due to the supply of dissolved iron from the strong winds and subsequent mixing during the winter of 2010. Further, the increased CHL values in the Antarctic zone (0.5 mg m^–3) in 2011 compared to 2009 and 2010 could be due to the increased sea ice melting associated with positive Southern Annular Mode. The increased phytoplankton biomass in the summer of 2011 coincides with an increase in nitrate utilization (N:P≈13) compared to 2009 and 2010. Observations showed that ISSO frontal zones are characterized by inter-annual variability in terms of nutrient utilization and phytoplankton biomass production.

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南大洋印度区夏季溶解营养物浓度和浮游植物生物量年际变化的物理控制

为了了解物理过程及其年际变化对溶解营养物浓度和浮游植物生物量分布的作用，利用2009-2011年南部夏季在南大洋印度区(ISSO)收集的野外数据。在亚热带地区，大量营养元素有限(N:P <1、N:Si <1, Si:P≈1)，浮游植物生物量变化主要受与阿古拉斯回流相关的中尺度涡旋活动控制。亚南极区及更南地区普遍存在高营养低叶绿素状况。上层溶解SiO2的南北向梯度大于NO3。亚南极区N:Si比值最高(>4)，这与该地区冬/春硅藻华导致硅酸盐减少有关。2009年和2010年极地锋区叶绿素a (CHL)浓度较低(~ 0.2 mg m-3)， 2011年较高(0.5 mg m-3)。2011年CHL的增加是由于2010年冬季强风和随后的混合造成的溶解铁的供应。此外，与2009年和2010年相比，2011年南极区CHL值增加(0.5 mg m-3)可能是由于与正南环模相关的海冰融化增加。与2009年和2010年相比，2011年夏季浮游植物生物量的增加与硝酸盐利用(N:P≈13)的增加是一致的。观测结果表明，ISSO锋面区在养分利用和浮游植物生物量生产方面具有年际变化特征。

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来源期刊

Oceanologia 地学-海洋学

CiteScore

5.30

自引率

6.90%

发文量

审稿时长

146 days

期刊介绍： Oceanologia is an international journal that publishes results of original research in the field of marine sciences with emphasis on the European seas.