Diversity in the Simulation of Chlorophyll Concentration by CMIP5 Earth System Models over the Indian Ocean

IF 2 4区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

Marine Geodesy Pub Date : 2021-04-01 DOI:10.1080/01490419.2021.1909193

Vivek Seelanki, V. Pant

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Abstract

Abstract Among many other physical and biogeochemical processes, oceanic upwelling is a major contributor to the primary productivity of oceans. In the present study, sixteen models from the ‘Coupled Climate Model Inter-comparison Project phase 5’ (CMIP5) are assessed for their capability in simulating the Chlorophyll (Chl-a) concentration against satellite observations over the northern Indian Ocean. The sixteen CMIP5 models are categorized into three groups based on their relative skill, Group-A models had the highest skill and captured the phase of the bloom during summer monsoon season whereas the Group-B and Group-C models mostly failed to reproduce the Chl-a concentrations. The observed interannual variations were poorly simulated by all the CMIP5 models. Group-A models showed a negative bias in Chl-a concentration over the northern Arabian Sea and a positive bias in Chl-a simulation off Somalia over the western Indian Ocean. High Chl-a associated with the coastal upwelling along the west coasts of India and Sri Lanka was poorly simulated by CMIP5 models. The study highlights the regional deficiency in CMIP5 climate models in simulating Chl-a and the need for improved coupled physical-biogeochemical models over the tropical Indian Ocean.

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CMIP5地球系统模式模拟印度洋叶绿素浓度的多样性

在许多其他物理和生物地球化学过程中，海洋上升流是海洋初级生产力的主要贡献者。在本研究中，对来自“耦合气候模式相互比较项目第5阶段”(CMIP5)的16个模式根据北印度洋卫星观测模拟叶绿素(Chl-a)浓度的能力进行了评估。16个CMIP5模式根据其相对能力可分为3组，a组模式的能力最高，能捕捉到夏季风季的水华阶段，而b组和c组模式对Chl-a浓度的重现大多失败。所有CMIP5模式对观测到的年际变化的模拟都很差。a组模式显示，阿拉伯海北部的Chl-a浓度呈负偏倚，而印度洋西部索马里海域的Chl-a模拟呈正偏倚。CMIP5模式对印度和斯里兰卡西海岸与沿海上升流相关的高Chl-a的模拟效果较差。该研究强调了CMIP5气候模式在模拟Chl-a方面的区域性不足，以及改进热带印度洋物理-生物地球化学耦合模式的必要性。

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来源期刊

Marine Geodesy 地学-地球化学与地球物理

CiteScore

4.10

自引率

6.20%

发文量

审稿时长

>12 weeks

期刊介绍： The aim of Marine Geodesy is to stimulate progress in ocean surveys, mapping, and remote sensing by promoting problem-oriented research in the marine and coastal environment. The journal will consider articles on the following topics: topography and mapping; satellite altimetry; bathymetry; positioning; precise navigation; boundary demarcation and determination; tsunamis; plate/tectonics; geoid determination; hydrographic and oceanographic observations; acoustics and space instrumentation; ground truth; system calibration and validation; geographic information systems.