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Quantifying tropical cyclone's effect on the biogeochemical processes using profiling float observations in the Bay of Bengal

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Title Quantifying tropical cyclone's effect on the biogeochemical processes using profiling float observations in the Bay of Bengal
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Creator Girish Kumar,M S
Thangaprakash,V P
Udaya Bhaskar,T V S
Suprit,K
Sureshkumar,N
Baliar Singh,S K
Jofia,J
Pant,V
Vishnu,S
George,Grinson
Abhilash,K R
Shivaprasad,S
 
Subject tropical cyclone
biogeochemical processes
profiling float observations
Bay of Bengal
 
Description Not Available
Physical and biogeochemical observations from an autonomous profiling Argo float in the Bay of Bengal show significant changes in upper ocean structure during the passage of Tropical Cyclone (TC) Hudhud (7–14 October 2014). TC Hudhud mixed water from a depth of about 50 m into the surface layers through a combination of upwelling and turbulent mixing. Mixing was extended into the depth of nutricline, the oxycline and the subsurface‐chlorophyll‐maximum; thus had a strong impact on the biogeochemistry of the upper ocean. Before the storm, the near‐surface layer was nutrient depleted and was thus oligotrophic with the chlorophyll‐a concentration of less than 0.15 mg m‐3. Storm mixing initially increased the chlorophyll by 1.4 mg m‐3, increased the surface nitrate concentration to about 6.6 μM kg‐1, and decreased the sub‐surface dissolved oxygen (30–35 m) to 31 % of saturation (140 μM). These conditions were favorable for phytoplankton growth resulting in an estimated increase in primary productivity averaging 1.5 g C m‐2 day‐1 over 15 days. During this bloom, chlorophyll‐a increased by 3.6 mg m‐3, and dissolved oxygen increased from 111 % to 123 % of saturation. Similar observations during TC Vardah (6–12 December 2016) showed much less mixing. Our analysis suggests that relatively small (high) translation speed and presence of cold (warm) core eddy leads to strong (weak) oceanic response during TC Hudhud (TC Vardah). Thus, although cyclones can cause strong biogeochemical responses in the Bay of Bengal, the strength of response depends on the properties of the storm and the prevailing upper ocean structure such as presence of mesoscale eddies.
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Date 2021-09-18T04:35:27Z
2021-09-18T04:35:27Z
2019
 
Type Article
 
Identifier Not Available
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http://krishi.icar.gov.in/jspui/handle/123456789/64322
 
Language English
 
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Publisher Not Available