Diversity
of Ceratium Schrank (Dinophyceae) species in the surface waters of
Dhamra, Odisha, Eastern India
S.P.
Pradhan, S. Nayak, S.N. Sharma, S. Nayak, P. Nayak, N. Muduli and L. Patnaik*
Department of Zoology, Centre of
Excellence in Environment and Public Health, Ravenshaw University, Cuttack
–753 003, India
*Corresponding
Author Email :
lipikapat@gmail.com
*ORCiD:
https://orcid.org/0000-0003-3114-1802
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Abstract
Aim:
To study the diversity of Ceratium Schrank (Dinophyceae) species in
the surface waters of Dhamra, Odisha, Eastern India.
Methodology: The present study was carried out at six GPS
coordinated stations in the coastal waters of Dhamra, Odisha during
pre-monsoon, monsoon and post-monsoon periods (March 2021, October 2021 and
February 2022). Standard methods were followed for measuring sea surface
temperature, transparency, dissolved oxygen, pH, alkalinity, salinity,
silicate, nitrite, nitrate and phosphate. Samples were collected by
filtration as well as towing method. Light microscopy and scanning electron
microscopy were carried out for the identification of Ceratium
species.
Results:
A total of twenty-eight species of Ceratium were observed. Out of the
reported twenty-eight species, C. massiliense var. armatum and C.
breve var. breve have not been reported earlier in the coastal
waters of Dhamra, Odisha. Diversity of Ceratium species was influenced
by various parameters. Analyses of water quality parameters, showed that the
transparency, salinity, alkalinity, nitrite and phosphate were maximum during
pre-monsoon whereas temperature and silicate concentration were higher in
monsoon. Similarly, during post-monsoon, pH and nitrate concentration were
maximum. Availability of nutrients might have probably influenced the
distribution of Ceratium species in the coastal waters and one of the
sources was from the riverine influx.
Interpretation: Abundance of
Ceratium species is probably regulated by alkalinity, high transparency,
salinity and phosphate concentration in the surrounding water. Dhamra coastal
water is conducive for the growth of Ceratium sp. which primarily uses
phosphate for developing the horns.
Key words: Abundance plot, Bray-Curtis, Ceratium,
Dinophyceae, Species diversity
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