Ocean Primary Productivity Variation due to the Cyclone: A Case Study at Bay of Bengal
DOI:
https://doi.org/10.11113/jt.v71.3858Keywords:
Ocean primary productivity, cyclone, chl-a concentration, bay of BengalAbstract
Monitoring ocean primary productivity especially Chlorophyll-a (Chl-a) concentration is important as it contributes to the carbon cycle, global climate change and ocean health study. Â This study aims to examine the effects of cyclone events on the ocean productivity in the Bay of Bengal (BOB) considering its importance on global climate change. Â Level 2 SeaWiFS daily data from 2001 to 2010 were used to determine Chl-a concentration and data from the Indian Meteorological Department (IMD) were used to get information and locations of the cyclone events. Â Variation of Chl-a concentration was determined from the Chl-a concentration maps (pre-, during, and post-cyclone) using several transect lines parallel to the cyclone passages. Â Results indicated that there is a relationship between the variation of Chl-a concentration and the cyclone events at the BOB but the effect is varied according to the type of cyclone where very severe cyclonic storm (VSCS) has higher impact on Chl-a concentration compared to cyclonic storm (CS) and severe cyclonic storm (SCS). Â In most cases, Chl-a concentration was increased right after the cyclone event and the influence was observed over a wide area surrounding the cyclone passage.Monitoring ocean primary productivity especially Chlorophyll-a (Chl-a) concentration is important as it contributes to the carbon cycle, global climate change and ocean health study. Â This study aims to examine the effects of cyclone events on the ocean productivity in the Bay of Bengal (BOB) considering its importance on global climate change. Â Level 2 SeaWiFS daily data from 2001 to 2010 were used to determine Chl-a concentration and data from the Indian Meteorological Department (IMD) were used to get information and locations of the cyclone events. Â Variation of Chl-a concentration was determined from the Chl-a concentration maps (pre-, during, and post-cyclone) using several transect lines parallel to the cyclone passages. Â Results indicated that there is a relationship between the variation of Chl-a concentration and the cyclone events at the BOB but the effect is varied according to the type of cyclone where very severe cyclonic storm (VSCS) has higher impact on Chl-a concentration compared to cyclonic storm (CS) and severe cyclonic storm (SCS). Â In most cases, Chl-a concentration was increased right after the cyclone event and the influence was observed over a wide area surrounding the cyclone passage.Monitoring ocean primary productivity especially Chlorophyll-a (Chl-a) concentration is important as it contributes to the carbon cycle, global climate change and ocean health study. Â This study aims to examine the effects of cyclone events on the ocean productivity in the Bay of Bengal (BOB) considering its importance on global climate change. Â Level 2 SeaWiFS daily data from 2001 to 2010 were used to determine Chl-a concentration and data from the Indian Meteorological Department (IMD) were used to get information and locations of the cyclone events. Â Variation of Chl-a concentration was determined from the Chl-a concentration maps (pre-, during, and post-cyclone) using several transect lines parallel to the cyclone passages. Â Results indicated that there is a relationship between the variation of Chl-a concentration and the cyclone events at the BOB but the effect is varied according to the type of cyclone where very severe cyclonic storm (VSCS) has higher impact on Chl-a concentration compared to cyclonic storm (CS) and severe cyclonic storm (SCS). Â In most cases, Chl-a concentration was increased right after the cyclone event and the influence was observed over a wide area surrounding the cyclone passage.References
Wang, H., Li, X., Long, H., Gai, Y., and Wei, D. 2009. Monitoring the Effects of Land Use and Cover Changes on Net Primary Production: A Case Study in China’s Yongding River Basin. Forest Ecology and Management. 258: 2654–2665.
Tripathy, M., Raman, M., Dwivedi, R. and Ajai, A. 2012. Frequency of Cyclonic Disturbances and Changing Productivity Patterns in the North Indian Ocean Region: A Study Using Sea Surface Temperature and Ocean Colour Data. International Journal of Geosciences. 3: 490–506.
Hoyos, C.D., Agudelo, P.A., Webster, P.J., and Curry, J.A. 2006. Deconvolution of the Factors Contributing to the Increase in Global Hurricane Intensity. Science. 312 (5770): 94–97.
Reddy, P., Salvekar, P. and Nayak, S. 2008. Super Cyclone Induces A Mesoscale Phytoplankton Bloom in the Bay of Bengal. Geoscience and Remote Sensing Letters, IEEE. 5: 588–592.
Smitha, A., Rao, K.H. and Sengupta, D. 2006. Effect of May 2003 Tropical Cyclone on Physical and Biological Processes in the Bay of Bengal. International Journal of Remote Sensing. 27: 5301–5314.
Khan, T.M.A., Singh, O.P., and Rahman, M.S. 2000. Recent Sea Level and Sea Surface Temperature Trends along the Bangladesh Coast in Relation to the Frequency of Intense Cyclones. Marine Geodesy. 23(2): 103–116.
Ali, A. 1996. Vulnerability of Bangladesh to Climate Change and Sea Level Rise through Tropical Cyclones and Storm Surges. In Climate Change Vulnerability and Adaptation in Asia and the Pacific. Springer Netherlands. 171–179.
Nagamani, P.V., M.I. Hussain, S.B. Choudhury, C.R. Panda, P. Sanghamitra, R.N. Kar, A. Das, I.V. Ramana, and K.H. Rao. 2013. Validation of Chlorophyll-a Algorithms in the Coastal Waters of Bay of Bengal Initial Validation Results from OCM-2. Journal of the Indian Society of Remote Sensing. 41(1): 117–125.
Lewis, M., Horsburgh, K., and Bates, P. 2014. Bay of Bengal Cyclone Extreme Water Level Estimate Uncertainty. Natural Hazards. 72(2): 983–996.
Chen, X., Pan, D., Bai, Y., He, X., Chen, C.T.A., and Hao, Z. 2013. Episodic Phytoplankton Bloom Events in the Bay of Bengal Triggered by Multiple Forcings. Deep Sea Research Part I: Oceanographic Research Papers. 73: 17–30.
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