Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The response of phytoplankton community to the co-existing events of coastal upwelling and mud banks in the nearshore waters of Alappuzha (15 m depth), located in the southwest coast of India from April to November 2016, is described based on size-fractionated phytoplankton biomass (chlorophyll a), primary production and community composition. The study region exhibited well-distinct spatio-temporal hydrological changes because of the influence of wind-driven coastal upwelling, prevalent during the southwest monsoon (SWM) period. However, the formation of mud banks, in addition to coastal upwelling, was observed at station M2, which facilitated the substantial increase of water column turbidity and inorganic nutrients (ammonium, phosphate, and silicate) during and after the peak SWM period compared to the non-mud bank reference stations (M1 and M3). The prevailing hydrological changes were complemented the corresponding phytoplankton productivity patterns, in which profound domination of nanophytoplankton (2-20 µm) chlorophyll a and primary production was observed throughout the study region, irrespective of seasons. The SIMPER analysis, based on phytoplankton (mostly >20 µm) species composition data (microscopy), revealed the formation of certain characterizing species, mainly comprised of diatoms and dinoflagellates. The consistent predominance of the nanophytoplankton, established under variable hydrological scenarios, showed that the inorganic nutrient (specifically ammonium) availability was instrumental in defining the widespread growth of nanophytoplankton community compared to the prevailing light levels. The present study thus revealed that even the small-sized phytoplankton community could survive in the nutrient-enriched coastal waters, characterised by the co-existing upwelling and mud banks.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
261--275
Opis fizyczny
Bibliogr. 67 poz., fot., rys., tab., wykr.
Twórcy
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
autor
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
autor
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
autor
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
autor
- CSIR – National Institute of Oceanography, Regional Centre, Kochi, India
Bibliografia
- [1] Agustí, S., Llabrés, M., 2007. Solar radiation-induced mortality of marine pico-phytoplankton in the oligotrophic ocean. Photochem. Photobiol. 83 (4), 793-801. https://doi.org/10.1111/j.1751-1097.2007.00144.x.
- [2] Anabalón, V., Morales, C. E., Escribano, H. R., Varas, M. A., 2007. The contribution of nano- and micro-planktonic assemblages in the surface layer (0-30 m) under different hydrographic conditions in the upwelling area off Concepción, central Chile. Prog. Oceanogr. 75, 396-414.
- [3] Andersson, A., Haecky, P., Hagström, A., 1994. Effect of temperature and light on the growth of micro- nano- and picoplankton: impact on algal succession. Mar. Biol. 120, 511-520. https://doi.org/10.1007/bf00350071.
- [4] Azam, F., Fenchel, T., Field, J. G., Gray, J. S., Meyer-Reil, L. A., Thingstad, F., 1983. The ecological role of water-column microbes in the sea. Mar. Ecol. Prog. Ser. 10, 257-263.
- [5] Balachandran, K. K., 2004. Does subterranean flow initiate mud banks off the southwest coast of India? Estuar. Coast. Shelf Sci. 59, 589-598.
- [6] Banse, K., 1959. On upwelling and bottom-trawling off the southwest coast of India. J. Mar. Biol. Assoc. India 1, 33-49.
- [7] Bhattathiri, P. M. A., Pant, A., Sawant, S. S., Gauns, M., Matondkar, S. G. P., Mohanraju, R., 1996. Phytoplankton production and chlorophyll distribution in the eastern and central Arabian Sea in 1994-1995. Curr. Sci. 71, 857-862.
- [8] Bristow, R. C., 1938. History of Mudbanks. Cochin Govt. Press, I-II.
- [9] Calvo-Díaz, A., Morán, X. A. G., 2006. Seasonal dynamics of picoplankton in shelf waters of the southern Bay of Biscay. Aquat. Microb. Ecol. 42, 159-174.
- [10] Clarke, K. R., Gorley, R. N., 2015. PRIMER v7: User Manual/Tutorial. PRIMER-E, Plymouth.
- [11] Damodaran, R., 1972. Meiobenthos of the mudbanks of Kerala coast. In: Proceedings of the Indian Academy of Science (Sect. B), 288-297.
- [12] Damodaran, R., 1973. Studies on the benthos of the mudbank regions of Kerala coast. Bulletin Department of Marine Science. Univ. Cochin, 6.
- [13] Dayana, M., Gireeshkumar, T. R., Udayakrishnan, P. B., Muraleedharan, K. R., Madhu, N. V., Nair, M., Revichandran, C., Balachandran, K. K., 2019. Inter-annual variations in the hydrochemistry of Alappuzha mud banks, southwest coast of India. Cont. Shelf Res. 177, 42-49.
- [14] Estrada, M., Delgado, M., Blasco, D., Latasa, M., Cabello, A. M., Benítez-Barrios, V., Fraile-Nuez, E., Mozetič, P., Vidal, M., 2016. Phytoplankton across tropical and subtropical regions of the Atlantic, Indian and Pacific oceans. PLoS One 11 (3). https://doi.org/10.1371/journal.pone.0151699.
- [15] Fenchel, T., 1988. Marine plankton food chains. Annu. Rev. Ecol. Syst. 19 (1), 19-38.
- [16] Gireeshkumar, T. R., Mathew, D., Pratihary, A. K., Naik, H., Narvekar, K. U., Araujo, J., Naqvi, S. W. A., 2017. Influence of upwelling induced nearshore hypoxia on the Alappuzha mud banks, South West Coast of India. Cont. Shelf Res. 139, 1-8.
- [17] Grasshoff, K., Ehrhardt, M., Kremling, K., 1983. Methods of Sea Water Analysis, second ed Verlag-Chemie, Weinheim.
- [18] Habeebrehman, H., Prabhakaran, M. P., Jacob, J., Sabu, P., Jayalakshmi, K. J., Achuthankutty, C. T., Revichandran, C., 2008. Variability in biological responses influenced by upwelling events in the Eastern Arabian Sea. J. Mar. Syst. 74, 545-560.
- [19] Jagadeesan, L., Jyothibabu, R., Arunpandi, N., Karnan, C., Balachandran, K. K., 2017. Dominance of coastal upwelling over Mud Bank in shaping the mesozooplankton along the southwest coast of India during the Southwest Monsoon. Prog. Oceanogr. 156, 252-275.
- [20] Jyothibabu, R., Balachandran, K. K., Jagadeesan, L., Karnan, C., Arunpandi, N., Naqvi, S. W. A., Pandiyarajan, R. S., 2018a. Mud Banks along the southwest coast of India are not too muddy for plankton. Sci. Rep. 8 (1), 1-13.
- [21] Jyothibabu, R., Madhu, N. V., Habeebrehman, H., Jayalakshmy, K. V., Nair, K. K. C., Achuthankutty, C. T., 2010. Re-evaluation of ‘paradox of mesozooplankton’ in the eastern Arabian Sea based on ship and satellite observations. J. Mar. Syst. 81, 235-251.
- [22] Jyothibabu, R., Pandi, A., Karnan, C., Jagadeesan, L., Manojkumar, T. M., Balachandran, K. K., Naqvi, S. W. A., 2018b. Fragilariopsis sp. bloom causes yellowish-brown waters off Alappuzha, south-central Kerala coast, India, during the mud bank-upwelling phase. Curr. Sci. 115 (1), 152-159.
- [23] Karnan, C., Jyothibabu, R., Arunpandi, N., Jagadeesan, L., Muraleedharan, K. R., Pratihari, A. K., Naqvi, S. W. A., 2017. Discriminating the biophysical impacts of coastal upwelling and mud banks along the southwest coast of India. J. Mar. Syst. 172, 24-42.
- [24] Kumar, Hareesh, V., P., Joshi, M., Sanilkumar, K. V., Anand, P., Anilkumar, K., Rao., A. D., Prasada Rao, C. V. K., 2009. Growth and Decay of Arabian Sea Mini Warm Pool during May 2000 — Observations and Simulations. Deep-Sea Res. 56, 528-540.
- [25] Kurup, P. G., 1972. Littoral currents in relations to the mud bank formations along the coast of Kerala. Mahasagar 5 (3), 158-162.
- [26] Kuvaldina, N., Lips, I., Lips, U., Liblik, T., 2010. The influence of a coastal upwelling event on chlorophyll a and nutrient dynamics in the surface layer of the Gulf of Finland, Baltic Sea. Hydrobiologia 639, 221-230.
- [27] Lassiter, A. M., Wilkerson, F. P., Dugdale, R. C., Hogue, V. E., 2006. Phytoplankton assemblages in the CoOP-WEST coastal upwelling area. Deep-Sea Res. Pt. II 53, 3063-3077.
- [28] Lips, I., Lips, U., 2010. Phytoplankton dynamics affected by the coastal upwelling events in the Gulf of Finland in July-August 2006. J. Plank. Res. 32 (9), 1269-1282.
- [29] Madhu, N. V., 2005. Seasonal studies of primary production and associated environmental parameters in the Indian EEZ Ph.D. Thesis. Cochin Univ. Sci. Technol., Cochin, India.
- [30] Madhu, N. V., Anil, P., Gireeshkumar, T. R., Muraleedharan, K. R., Kiran, K., Vishal, C. R., 2020. Phytoplankton characterisation in the Alappuzha mud banks during the pre-/post phases of a redtide, Prorocentrum shikokuense Hada. Reg. Stud. Mar. Sci. 40. https://doi.org/10.1016/j.rsma.2020.101486.
- [31] Madhu, N. V., Martin, G. D., Haridevi, C. K., Nair, M., Balachandran, K. K., Ullas, N., 2017. Differential environmental responses of tropical phytoplankton community in the southwest coast of India. Reg. Stud. Mar. Sci. 16, 21-35.
- [32] Madhu, N. V., Reny, P. D., Meenu, Paul., Ullas, N., Resmi, P., 2011. Occurrence of red tide caused by Karenia mikimotoi (toxic dinoflagellate) in the Southwest coast of India. Ind. J. Geo-Mar. Sci. 40 (6), 821-825.
- [33] Mallik, T. K., Mukherji, K. K., Ramachandran, K. K., 1988. Sedimentology of the Kerala mud banks (fluid muds?). Mar. Geol. 80, 99-118.
- [34] Malone, T. C., 1980. Size fractionated primary productivity of marine phytoplankton. In: Falkowski, P. G. (Ed.), Primary productivity in the sea. Plenum, New York, 301-319.
- [35] Martin, G. D., Jyothibabu, R., Madhu, N. V., Balachandran, K. K., Nair, M., Muraleedharan, K. R., Arun, P. K., Haridevi, C. K., Revichandran, C., 2013. Impact of eutrophication on the occurrence of Trichodesmium in the Cochin backwaters, the largest estuary along the west coast of India. Environ. Monit. Assess. 185, 1237-1253.
- [36] Mathew, K. J., Gopinathan, C. P., Regunathan, A., Rao, D. S., Murty, A. V. S., 1984. Ecology of mudbanks - zooplankton. CMFRI Bull 31, 35-39.
- [37] Matsumoto, K., Abe, O., Fujiki, T., Sukigara, C., Mino, Y., 2016. Primary productivity at the time-series stations in the northwestern Pacific Ocean: Is the subtropical station unproductive? J. Oceanogr. 72 (3), 359-371. https://doi.org/10.1007/s10872-016-0354-4.
- [38] Menzel, D. W., Hulburt, E. M., Ryther, J. H., 1963. The effect of enriching Sargasso Sea water on the production and species composition of the phytoplankton. Deep-Sea Res. 10, 209-219.
- [39] Muraleedharan, K. R., Kumar, P. K. D., Kumar, S. P., Srijith, B., John, S., Kumar, K. R. N., 2017. Observed salinity changes in the Alappuzha mud bank, southwest coast of India and its implication to hypothesis of mudbank formation. Cont. Shelf Res. 137, 39-45.
- [40] Nair, S. R. S., Devassy, V. P., Madhupratap, M., 1992. Blooms of phytoplankton along the west coast of India associated with nutrient enrichment and the response of zooplankton. Sci. Total Environ. 819-828.
- [41] Paczkowska, J., Brugel, S., Rowe, O., Lefébure, R., Brutemark, A., Agneta Andersson, A., 2020. Response of Coastal Phytoplankton to High Inflows of Terrestrial Matter. Front. Mar. Sci. https://doi.org/10.3389/fmars.2020.00080.
- [42] Padmakumar, K. B., Smitha, B. R., Thomas, L. C., Fanimol, C. L., Sreerenjima, G., Menon, N. R., Sanjeevan, V. N., 2010b. Blooms of Trichodesmium erythraeum in the South Eastern Arabian Sea during the onset of 2009 summer monsoon. Ocean Sci. J. 45 (3), 151-157.
- [43] Padmakumar, K. B., Sreerenjima, G., Fanimol, C. L., Menon, N. R., Sanjeevan, V. N., 2010a. Preponderance of heterotrophic Noctiluca scintillans during a multi-species diatom bloom along the southwest coast of India. Int. J. Oceans and Oceanogr. 4, 45-53.
- [44] Parsons, T. R., Maita, Y., Lalli, C. M., 1984. A Manual of Chemical and Biological Methods for Seawater Analysis. Pergamon Press, Oxford, 173 pp.
- [45] Pauly, D., Christensen, V., 1995. Primary production required to sustain global fisheries. Nature 374, 255-257.
- [46] Philip, A. S., Babu, C. A., Hareeshkumar, P. V., 2013. Meteorological aspects of mud bank formation along south west coast of India. Cont. Shelf Res. https://doi.org/10.1016/j.csr.2013.05.016.
- [47] Qasim, S. Z., 2003. Indian Estuaries. Allied Publication Pvt. Ltd., Heriedia Marg, Ballard estate, Mumbai, 259 pp.
- [48] Ramaiah, N., Paul, J. T., Fernandes, V., Raveendran, T. V., O., Raveendran., D., Sundar., Revichandran, C., Shenoy, D. M., G. M., Kurien, S., Gerson, J., V., Shoji, D. T., Madhu, N. V., Sreekumar, S., Lokabharathi, P. A., Shetye, S. R., 2005. The September 2004 stench off the southern Malabar coast — A consequence of holococcolithophore bloom. Curr. Sci. 88 (4), 551-554.
- [49] Ramasastry, A. A., Myrland, P., 1959. Distribution of temperature, salinity and density in the Arabian Sea along the South Malabar Coast (South India) during the post-monsoon season. Indian J. Fisheries. 6, 223-255.
- [50] Rao, G. D., Kanuri, V. V., Kumaraswami, M., Ezhilarasan, P., Rao, V. D., Patra, Sivaji, Dash, S. K., Peter, Magesh, Ranga Rao, V., Ramu, K., 2017. Dissolved nutrient dynamics along the southwest coastal waters of India during northeast monsoon: a case study. Chem. Ecol. 33 (3), 229-246.
- [51] Raven, J. A., 1986. Physiological consequences of the extremely small size of autotrophic organisms in the sea. Can. Bull. Fish. Aquat. Sci. 214, 1-70.
- [52] Reghunathan, A., Mathew, K. J., Rao, D. S., Gopinathan, C. P., Kurup, N. S., Murty, A. V. S., 1984. Fish and fisheries of the mudbanks. CMFRI Bull 31, 60-71.
- [53] Sahayak, S., Jyothibabu, R., Jayalakshmi, K. J., Habeebrehman, H., Sabu, P., Prabhakaran, M. P., Jasmine, P., Shaiju, P., Rejomon, G., Thresiamma, J., Nair, K. K. C., 2005. Red tide of Noctiluca miliaris off south of Thiruvananthapuram subsequent to the ‘stench event’ at the southern Kerala coast. Curr. Sci. 89, 1472-1473.
- [54] Samiksha, S. V., Vethamony, P., Rogers, W. E., Pednekar, P. S., Babu, M. T., Dineshkumar, P. K., 2017. Wave energy dissipation due to mudbanks formed off southwest coast of India. Estuar. Coast. Shelf Sci. 196, 387-398. https://doi.org/10.1016/j.ecss.2017.07.018.
- [55] Shangguan, Y., Glibert, P. M., Alexander, J. A., Madden, C. J., Murasko, S., 2017. Nutrients and phytoplankton in semi enclosed lagoon systems in Florida Bay and their responses to changes in flow from Everglades restoration. Limnol. Oceanogr. 62 (S1), S327-S347.
- [56] Shynu, R., Rao, V. P., Samiksha, S. V., Vethamony, P., Naqvi, S. W. A., Kessarkar, P. M., Dineshkumar, P. K., 2017. Suspended matter and fluid mud off Alleppey, southwest coast of India. Estuar. Coast. Shelf Sci. 185, 31-43.
- [57] Sieburth, J. M., Smetacek, V., Lenz, Jr, 1978. Pelagic ecosystem structure: heterotrophic compartments of the plankton and their relationship to plankton size fractions. Limnol. Oceanogr. 23, 1256-1263.
- [58] Silas, E. G., 1984. Mud Banks of Kerala — Karnataka — Need for integrated study. Bull. Central Mar. Fisheries Res. Inst. 31, 1-2.
- [59] Smitha, A., Joseph, K. A., Jayaram, C., Balchand, A. N., 2014. Upwelling in the southeastern Arabian Sea as evidenced by Ekman mass transport using wind observations from OCEANSAT-II Scatterometer.
- [60] Sommer, U., 2012. Plankton Ecology: Succession in Plankton Communities. Springer Science & Business Media.
- [61] Stolte, W., McCollin, T., Noordeloos, A. A. M., Riegman, R., 1994. Effect of nitrogen source on the size distribution within marine phytoplankton populations. J. Exp. Mar. Biol. Ecol. 184, 83-97.
- [62] Subrahmanyam, R., 1959. Studies on the phytoplankton of the west coast of India. Proceedings of the Indian Academy of Science Pt. I, 508, 113-187.
- [63] Tatavarti, R., Narayana, A. C., 2006. Hydrodynamics in a mud bank regime during Nonmonsoon and monsoon seasons. J. Coast. Res. 226, 1463-1473.
- [64] Tomas, C. R., 1997. Identifying Marine Phytoplankton. Academic Press/Harcourt Brace, San Diego, CA, USA, 858 pp.
- [65] Utermöhl, H., 1958. Zur vervolkommung der quantitativen phytoplankton-methodik. Mitt. Int. Ver. Theor. Angew. Limnol. 9, 1-38 (in German).
- [66] Vijay, J. G., Madhu, N. V., Jyothibabu, R., Balachandran, K. K., Nair, M., Revichandran, C., 2014. Oscillating environmental responses of the eastern Arabian Sea. Indian J. Mar. Sci. 43 (1), 67-75.
- [67] Wilkerson, F. P., Dugdale, R. C., Kudela, R. M., Chavez, F. P., 2000. Biomass and productivity in Monterey Bay, California: contribution of the large phytoplankton. Deep Sea Res. Pt. II. Top. Stud. Oceanogr. 47 (5-6), 1003-1022.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-331e1be0-bd63-4f40-8536-6c950658022d