The Amazon River plume—a Lagrangian view

IF 2.1 3区 地球科学 Q2 LIMNOLOGY Limnology and Oceanography: Methods Pub Date : 2024-05-31 DOI:10.1002/lom3.10626
Joachim W. Dippner, Joseph P. Montoya, Ajit Subramaniam, Jacqueline Umbricht, Maren Voss
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Abstract

Hydrographic data, nutrient data and bulk rates of nitrate uptake and primary production were determined in the Amazon River plume (ARP) in the Western Tropical North Atlantic (WTNA) during three cruises in May 2018, June/July 2019, with RV Endeavor and April/May 2021 with RV Meteor. Using daily quasi-geostrophic surface velocity data from satellite observations, the geographical positions of the stations of observations were transformed onto Lagrangian coordinates to obtain a dynamically coherent and consistent spatial distribution. After the transformation, the observed surface salinity and temperature fields were consistent with the flow fields, the ARP formed a coherent structure and the retroflection of the North Brazil Current became visible. By transforming other surface variables such as nitrate concentration, photosynthetically available radiation, turbidity, bulk rates of nitrate uptake, and primary production onto Lagrangian coordinates, patterns became consistent with the physical variables at the surface. The use of “synchronous” fields as done here by transformation onto Lagrangian coordinates is essential for spatially structured analyses of data collected over tens of days in a highly dynamic region characterized by complex flow fields with low persistence such as the WTNA. Therefore, the use of the Lagrangian method provides a powerful tool for exploring spatial distributions of biologically relevant factors in regions with complex and dynamic flow patterns. These spatial distributions are qualitatively in agreement with satellite images of daily sea surface temperature and composites of monthly mean Chlorophyll a distributions.

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亚马逊河羽流--拉格朗日视角
在 2018 年 5 月、2019 年 6 月/7 月和 2021 年 4 月/5 月三次巡航期间,利用 RV Endeavor 和 RV Meteor 测定了西热带北大西洋(WTNA)亚马逊河羽流(ARP)的水文数据、营养物质数据以及硝酸盐吸收和初级生产的大量速率。利用卫星观测的日准地表速度数据,将观测站的地理位置转换为拉格朗日坐标,以获得动态连贯一致的空间分布。经过转换后,观测到的表层盐度和温度场与流场一致,ARP 形成了一个连贯的结构,北巴西洋流的逆转也变得清晰可见。通过将其他表层变量,如硝酸盐浓度、光合可利用辐射、浊度、硝酸盐的大量吸收率和初级生产量转化为拉格朗日坐标,模式变得与表层物理变量一致。在像 WTNA 这样以持续性低的复杂流场为特征的高动态区域,通过将数据转换到拉格朗日坐标来使用 "同步 "场,对于对数十天收集的数据进行空间结构分析至关重要。因此,拉格朗日方法的使用为探索具有复杂动态流动模式区域的生物相关因子的空间分布提供了有力的工具。这些空间分布与每天海面温度的卫星图像和每月平均叶绿素 a 分布的合成图在质量上是一致的。
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来源期刊
CiteScore
4.80
自引率
3.70%
发文量
56
审稿时长
3 months
期刊介绍: Limnology and Oceanography: Methods (ISSN 1541-5856) is a companion to ASLO''s top-rated journal Limnology and Oceanography, and articles are held to the same high standards. In order to provide the most rapid publication consistent with high standards, Limnology and Oceanography: Methods appears in electronic format only, and the entire submission and review system is online. Articles are posted as soon as they are accepted and formatted for publication. Limnology and Oceanography: Methods will consider manuscripts whose primary focus is methodological, and that deal with problems in the aquatic sciences. Manuscripts may present new measurement equipment, techniques for analyzing observations or samples, methods for understanding and interpreting information, analyses of metadata to examine the effectiveness of approaches, invited and contributed reviews and syntheses, and techniques for communicating and teaching in the aquatic sciences.
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