Open Access Open Access  Restricted Access Subscription Access

A Comparative Investigation of Physicochemical and Biological Variables of Aerial & Port Blair Bays, Andaman Islands With Focus on the Anthropogenic Influence


Affiliations
1 Atal Centre for Ocean Science & Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Port Blair, India
2 Ocean Science and Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Chennai – 600 100, India
 

Major anthropogenic activities surround the Port Blair Bay, while Aerial Bay remains as a pristine environment. A field study was carried out during the south-west monsoon season (July – August, 2011) in the two bays to compare the physico-chemical parameters and their effect on phytoplankton community structure. Among the physico-chemical parameters, water temperature (p < 0.01, n = 18), DO (p < 0.01, n = 18) and TP (p < 0.05, n = 18) showed significant variation between the Bays. Salinity and Redfield ratio (N:P) was lower in Aerial Bay as compared to Port Blair Bay; while the Si:N ratio was higher in the Aerial Bay. The average chlorophyll-a concentration as well as species richness was found to be higher in the Port Blair Bay as compared to the Aerial Bay. The highest phytoplankton density and centric diatom abundance were observed in Port Blair Bay. In Aerial Bay, the centric diatoms like Dactyliosolen fragilissimus (44.5 %) and Guinardia flaccida (7.1 %) dominated, while in the Port Blair Bay, the centric diatom Skeletonema costatum (25.0 %) and a pennate diatom Nitzschia closterium (24.3 %) dominated the phytoplankton. The phytoplankton community was influenced by the nutrients from the tidal mud flats and rain-fed rivulets in the Aerial Bay; while, in the Port Blair Bay, the phytoplankton abundance was influenced by nutrients from land runoff, inundated areas and anthropogenic sources.

Keywords

Biomass, Chlorophyll-a, Physicochemical parameters, Phytoplankton, Oceanic island, Zooplankton
User
Notifications
Font Size

  • Park G S & Marshall H G, Estuarine relationships between zooplankton community structure and trophic gradients, J Plankton Res, 22 (2000) 121-135.
  • Tilman D, Biodiversity: population versus ecosystem stability, Ecology, 77 (2) (1996) 350-363.
  • Hooper D U, Chapin F S, Ewel J J, Hector A, Inchausti P, et al., Effects of biodiversity on ecosystem functioning: a consensus of current knowledge, Ecol Monogr, 75 (1) (2005) 3-35.
  • Danovaro R & Pusceddu A, Biodiversity and ecosystem functioning in coastal lagoons: does microbial diversity play any role? Estuar Coast Shelf Sci, 75 (1-2) (2007) 4–12.
  • Diaz S & Cabido M, Vive la difference: plant functional diversity matters to ecosystem processes, Trends Ecol Evol, 16 (11) (2001) 646–655.
  • Nair V R, Panampunnayil S U, Pillai H U & Gireesh R, Two new species of chaetognatha from the Andaman Sea, Indian Ocean, Mar Biol Res, 4 (3) (2008) 208-214. https://doi.org/10.1080/17451000701696260
  • Chandra K & Raghunathan C, Faunal Diversity of Biogeographic Zones: Islands of India, (Published by the Director, Zool Surv India, Kolkata), 2018, pp. 523. ISBN 978-81-8171-514-2
  • Malik J N, Johnson F C, Khan A, Sahoo S, Irshad R, et al., Tsunami records of the last 8000 years in the Andaman Island, India, from mega and large earthquakes: Insights on recurrence interval, Sci Rep, 9 (1) (2019) 1-14.
  • Meltzner A J, Sieh K, Abrams M, Agnew D C, Hudnut K W, et al., Uplift and subsidence associated with the great Aceh-Andaman earthquake of 2004, J Geophys Res, 111 (2006) p. B02407. https://doi.org/10.1029/2005JB003891
  • Roy D S & Krishnan P, Mangrove stands of Andamans vis-à-vis tsunami, Curr Sci, 89 (11) (2005) 1800–1804. https://www.researchgate.net/publication/237688212
  • Rao D V S, Ingole B S, Tang D, Satyanarayan B & Zhao H, Remote Sensing of tsunami impact on the coastal habitats of India (Chapter 32), In: The Indian Ocean Tsunami, edited by Murthy T S, Aswathanarayana U & Nirupama N, (CRC Press, US), 2007, pp. 373-391.
  • Devassy V P & Bhattathiri P M A, Distribution of phytoplankton and chlorophyll a around Little Andaman Island, Indian J Geo-Mar Sci, 10 (1981) 248-252.
  • Madhupratap M, Achuthankutty C T & Nair S S R, Zooplankton abundance of Andaman Sea, Indian J Geo-Mar Sci, 10 (1981) 258-261.
  • Eashwar M, Kuberaraj K, Nallathambi T & Govindarajan G, A note on the plankton from Barren Island region, Andamans, Curr Sci, 81 (6) (2001) 651-654. https://www.jstor.org/stable/24106358
  • Sarojini Y & Sarma N S, Vertical distribution of phytoplankton around Andaman and Nicobar Islands, Bay of Bengal, Indian J Geo-Mar Sci, 30 (2) (2001) 65-69. https://nopr.niscpr.res.in/bitstream/123456789/4602/1/IJMS%2030(2)%2065-69.pdf
  • Begum M, Vinithkumar N V, Mohan P M, Dhivya P & Kirubagaran R, Spatial distribution pattern of phytoplankton in relation to nutrients availability in the offshore waters of Andaman Sea, India, In: Recent Advances in Biodiversity of India, (Published by Director, Zool Surv India), 2012, pp. 149-168. ISBN: 978-81-8171-303-2
  • Pillai H U K, Jayaraj K A, Rafeeq M, Jayalakshmi K J & Revichandran C, Mesozooplankton distribution near an active volcanic island in the Andaman Sea (Barren Island), Environ Monit Assess, 176 (2011) 239-250. https://doi.org/10.1007/s10661-010-1579-0
  • Vinithkumar N V, Begam M, Dharani G, Biswas A, Abdul Nazar A K, et al., Distribution and biodiversity of Phytoplankton in the coastal seawaters of Andaman and Nicobar islands, India, In: Recent Advances in Biodiversity of India, (Published by Director, Zool Surv India), 2011, pp. 137-148. https://www.researchgate.net/ publication/259990973
  • Jha D K, Devi M P, Vinithkumar N V, Das A K, Dheenan P S, et al., Comparative investigation of water quality parameters of Aerial & Rangat Bay, Andaman Islands using in-situ measurements and spatial modelling techniques, Water Qual Expo Health, 5 (2) (2013) 57-67.
  • Indian Meteorological Department, Port Blair, India. https://mausam.imd.gov.in/Forecast/coastal_bulletin_new.php
  • Grasshoff K, Kremling K & Ehrhardt M, Methods of seawater analysis, 3rd Edn, (Verlag Chemie Weinheim, Germany), 1999, pp. 632. ISBN: 9783527295890
  • Subrahmanyan R, A systematic account of the marine plankton diatoms of Madras coast, Proc Indian Acad Sci, 24 (1946) 85–197.
  • Desikachary T V & Ranjithadevi K A, Atlas of Diatoms, 1st Edn, (Madras Science Foundation, Madras), 1986, pp. 1-367.
  • Tomas C R, Identifying Marine Diatoms and Dinoflagellates, (Academic Press, New York), 1996, pp. 598. ISBN: 978-0-12-693015-3
  • Conway D V P, White R G, Hugues-Dit-Ciles J, Gallienne C P & Robins D B, Guide to the coastal and surface zooplankton of the south-western Indian Ocean, (Occasional Publication of the Marine Biological Association of the United Kingdom, Plymouth, UK), No 15, 2003, pp. 354.
  • Parsons T R, Maita Y & Lalli C M, A Manual of chemical and biological methods for sea water analysis, (Pergamon Press, Oxford, New York), 1984. ISBN: 978-0-08-030287-4
  • Clarke K R & Gorley R N, Primer v6: User Manual/Tutorial, (Primer-E, Plymouth), 2006, pp. 190.
  • Jha D K, Vinithkumar N V, Sahu B K, Das A K, Dheenan P S, et al., Multivariate statistical approach to identify significant sources influencing the physico-chemical variables in Aerial Bay, North Andaman, India, Mar Poll Bull, 85 (1) (2014) 261-267.
  • Dharani G, Nazar A A, Kanagu L, Venkateshwaran P, Kumar T S, et al., On the recurrence of Noctiluca scintillans bloom in Minnie Bay, Port Blair: Impact on water quality and bioactivity of extracts, Curr Sci, 87 (7) (2004) 990-994.
  • Sahu B K, Begum M, Kumarasamy P, Vinithkumar N V & Kirubagaran R, Dominance of Trichodesmium and associated biological and physico-chemical parameters in coastal water of Port Blair, South Andaman Island, Indian J Geo-Mar Sci, 43 (9) (2014) 1739-1745.
  • Begum M, Sahu B K, Das A K, Vinithkumar N V & Kirubagaran R, Extensive Chaetoceros curvisetus bloom in relation to water quality in Port Blair Bay, Andaman Islands, Environ Monit Assess, 187 (5) (2015) 1-14.
  • Goswami P, Gupta S, Das A K, Vinithkumar N V, Dharani G, et al., Impact of a dinoflagellate bloom on the marine plankton community structure of Port Blair Bay, Andaman Island, Reg Stud Mar Sci, 37 (2020) p. 101320.
  • Sahu B K, Begum M, Khadanga M K, Jha D K, Vinithkumar N V et al., Evaluation of significant sources influencing the variation of physico-chemical parameters in Port Blair Bay, South Andaman, India by using multivariate statistics, Mar Poll Bull, 66 (1-2) (2013) 246-251.
  • Jha D K, Devi M P, Vidyalakshmi R, Brindha B, Vinithkumar N V, et al., Water quality assessment using water quality index and geographical information system methods in the coastal waters of Andaman Sea, India, Mar Poll Bull, 100 (1) (2015) 555-561.
  • Saravanae N, Sachithanandam V, Muruganandam M, Nagaarjunan P & Mohan P M, Climatic changes and anthropogenic influences on Rhizosolenia imbricata Brightwell 1858 Bacillariophyceae bloom in Sisostris Bay, Port Blair, Andaman, India, Indian J Geo-Mar Sci, 45 (3) (2016) 425-430.
  • Padhan S, Karthik R & Padmavati G, Diurnal variation of phytoplankton community in the coastal waters of South Andaman Island with special emphasis on bloom forming species, Indian J Geo-Mar Sci, 48 (9) (2019) 1383-1397.
  • Conley D J, Biogeochemical nutrient cycles and nutrient management strategies, Hydrobiologia, 410 (2000) 87-96.
  • Bergey D H & Holt J G, Bergey's Manual of Determinative Bacteriology, (Lippincott Williams & Wilkins, Baltimore, USA), 1994, pp. 787.
  • Eashwar M, Nallathambi T, Kuberaraj K & Govindarajan G, Noctiluca blooms in Port Blair Bay, Andamans, Curr Sci, 81 (2) (2001) 203-206.
  • Narayana S, Chitra J, Tapase S R, Thamke V, Karthick P, et al., Toxicity studies of Trichodesmium erythraeum (Ehrenberg, 1830) bloom extracts, from Phoenix Bay, Port Blair, Andamans, Harmful Algae, 40 (2014) 34-39.
  • Sachithanandam V, Mohan P M, Karthik R, Elangovan S S & Padmavathi G, Climate changes influence the phytoplankton bloom (prymnesiophyceae: Phaeocystis spp.) in North Andaman coastal region, Indian J Geo-Mar Sci, 42 (1) (2013) 58-66.
  • Kulkarni V A, Jagtap T G, Mhalsekar N M & Naik A N, Biological and environmental characteristics of mangrove habitats from Manori creek, West Coast, India, Environ Monit Assess, 168 (2010) 587-596.
  • Folt C L, An experimental analysis of costs and benefits of zooplankton aggregation, In: Predation: Direct and Indirect Impacts on Aquatic Communities, Chapter 20), edited by Kerfoot W C & Sih A, (University Press of New England, Hanover), 1987, pp. 300-314.
  • Padmavati G & Goswami S C, Zooplankton ecology in the Mandovi-Zuari estuarine system of Goa, west coast of India, Indian J Geo-Mar Sci, 25 (1996) 268-273.
  • Venkataramana V, Sarma V V S S & Reddy A M, River discharge as a major driving force on spatial and temporal variations in zooplankton biomass and community structure in the Godavari estuary India, Environ Monit Assess, 189 (9) (2017) 1-22.
  • Goswami S C, Kumari L K & Shivastava Y, Diel variation in zooplankton and their biochemical composition from Vengurla to Ratnagiri, west coast of India, Indian J Geo-Mar Sci, 29 (2000) 277-280.
  • Madhupratap M, Nair S S, Haridas P & Padmavati G, Response of zooplankton to physical changes in the environment: coastal upwelling along the central west coast of India, J Coast Res, 6 (2) (1990) 413-426.
  • Ganguly D, Robin R S, Vardhan K V, Muduli P R, Abhilash K R, et al., Variable response of two tropical phytoplankton species at different salinity and nutrient condition, J Exp Mar Biol Ecol, 440 (2013) 244-249.

Abstract Views: 123

PDF Views: 54




  • A Comparative Investigation of Physicochemical and Biological Variables of Aerial & Port Blair Bays, Andaman Islands With Focus on the Anthropogenic Influence

Abstract Views: 123  |  PDF Views: 54

Authors

B. K. Sahu
Atal Centre for Ocean Science & Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Port Blair, India
P. Goswami
Atal Centre for Ocean Science & Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Port Blair, India
M. Begum
Atal Centre for Ocean Science & Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Port Blair, India
D. K. Jha
Atal Centre for Ocean Science & Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Port Blair, India
N. V. Vinithkumar
Atal Centre for Ocean Science & Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Port Blair, India
G. Dharani
Ocean Science and Technology for Islands, National Institute of Ocean Technology, Ministry of Earth Sciences, Government of India, Chennai – 600 100, India

Abstract


Major anthropogenic activities surround the Port Blair Bay, while Aerial Bay remains as a pristine environment. A field study was carried out during the south-west monsoon season (July – August, 2011) in the two bays to compare the physico-chemical parameters and their effect on phytoplankton community structure. Among the physico-chemical parameters, water temperature (p < 0.01, n = 18), DO (p < 0.01, n = 18) and TP (p < 0.05, n = 18) showed significant variation between the Bays. Salinity and Redfield ratio (N:P) was lower in Aerial Bay as compared to Port Blair Bay; while the Si:N ratio was higher in the Aerial Bay. The average chlorophyll-a concentration as well as species richness was found to be higher in the Port Blair Bay as compared to the Aerial Bay. The highest phytoplankton density and centric diatom abundance were observed in Port Blair Bay. In Aerial Bay, the centric diatoms like Dactyliosolen fragilissimus (44.5 %) and Guinardia flaccida (7.1 %) dominated, while in the Port Blair Bay, the centric diatom Skeletonema costatum (25.0 %) and a pennate diatom Nitzschia closterium (24.3 %) dominated the phytoplankton. The phytoplankton community was influenced by the nutrients from the tidal mud flats and rain-fed rivulets in the Aerial Bay; while, in the Port Blair Bay, the phytoplankton abundance was influenced by nutrients from land runoff, inundated areas and anthropogenic sources.

Keywords


Biomass, Chlorophyll-a, Physicochemical parameters, Phytoplankton, Oceanic island, Zooplankton

References