References

1. L.J. McCook, Macroalgae, nutrients and phase shifts on coral reefs: scientific issues and management consequences for the Great Barrier Reef, Coral Reefs, 18 (1999) 357–367.
2. M. Nyström, C. Folke, F. Moberg, Coral reef disturbance and resilience in a human-dominated environment, Trends Ecol. Evol., 15 (2000) 413–417.
3. D.R. Bellwood, T.R. Hughes, C. Folke, M. Nyström, Confronting the coral reef crisis, Nature, 429 (2004) 827–833.
4. P. Janice, Lost Sea Cargo: Beach Bounty or Junk?. National GeographicNews. http://news.nationalgeographic.com/news/2001/06/0619_seacargo.html. 2001, Retrieved 2008, 04–08.
5. A.S. Petsas, M.C. Vagi, Effects on the photosynthetic activity of algae after exposure to various organic and inorganic pollutants: review, 4 (2017) 37–77.
6. C.C. Walters, The origin of petroleum. In: Practical Advances in Petroleum Processing, New York: Springer Science and Business Media Inc., 1 (2007) 79–101.
7. M. Lewis, R. Pryor, Toxicities of oils, dispersants and dispersed oils to algae and aquatic plants: Review and database value to resource sustainability, Environ. Pollut., 180 (2013) 345–367.
8. I.M.K. Saadoun, Impact of oil spills on marine life. In: M. Larramendy, S. Soloneski, editors., Emerging Pollutants in the Environment–Current and Further Implications, InTech., (2015) Chapter 4, DOI: 10.5772/60455.
9. L.E. Panetta, America’s living oceans: charting a course for sea change [Electronic Version, CD] Pew Oceans Commission, Chair, 2003.
10. A.M. Hammed, S. Kumar Prajapati, S. Simsek, H. Simsek, Growth regime and environmental remediation of microalgae, Algae., 31(3) (2016) 189–204.
11. N. Favero, F. Cattalini, D. Bertaggia, V. Albergoni, Metal accumulation in a biological indicator (Ulva rigida) from the Lagoon of Venice (Italy), Arch. Environ. Contam. Toxicol., 31 (1996) 9–18.
12. C.S. Karez, V.T. Magallhaes, W.C. Pfeiffer, G.M.A. Filho, Trace metal accumulation by algae in Sepatiba Bay, Brazil., Environ Pollut., 83 (1994) 351–356.
13. S.X. Hu, C.H. Tang, M.L. Wu, Cadmium accumulation by several seaweeds, Sci. Total Environ., 187 (1996) 65–71.
14. Y.H. Kim, J.Y. Park, Y.J Yoo, J.W. Kwak, Removal of lead using xanthated marine brown alga, Undaria pinnatifida, Process. Biochem., 34 (1999) 647–652.
15. R. Sobhan, S.P.K. Sternberg, Cadmium removal using Cladophora species, J. Environ. Sci. Health, Part A., 34 (1999) 53–72.
16. B.M. McHardy, J.J. George, Bioaccumulation and toxicity of zinc in the green alga, Cladophora glomerata, Environ. Pollut., 66 (1990) 55–66.
17. D. Warshawsky, T. Cody, Biotransformation of benzo[a]pyrene and other polycyclic aromatic hydrocarbons and heterocyclic analogs by several green algae and other algal species under gold and white light, Chem.-Biol. Interact., 97(2) (1995) 131–148.
18. U. Kirso, N. Irha, Role of algae in fate of carcinogenic PAHs in the aquatic environment, Ecotoxicol. Environ. Safety, 41 (1998) 83–89.
19. A.P. Lei, Y.S. Wong, N.F.Y. Tam, Pyrene induced changes of glutathione-s-transferase activities in different microalgal species, Chemosphere, 50 (2003) 293–301.
20. Q. Yu, J.T. Matheickal, P. Kaewsarn, Heavy metal uptake capacities of common marine macro-algal biomass, Water Res., 33 (1999) 1534–1537.
21. APHA, Standard Methods for the Examination of Water and Waste Water, 16th ed., Washington DC., 1985, 1268 p.
22. V. Krishnamurthy, Key to the Taxonomic Identification of Green and Brown Marine Algae of India, Recent advances on applied aspects of Indian Marine Algae with reference to global scenario, Volume 1, A. Tewari (Ed.), 2006, pp. 1–45.
23. M. Umamaheswara Rao, Key to the Identification of Indian Red Seaweeds Algae of India. Recent advances on applied aspects of Indian Marine Algae with reference to Global scenario, Vol. 1, A. Tewari (Ed.), 2006, pp. 46–140.
24. K. Babita, S. Vinay, Evaluation of nutritional component in some seaweeds from Rameshwaram coastal areas, Int. J. Biol. Technol., 4(1) (2013) 1–6.
25. S.P. Chu, The Influence of the mineral composition of the medium on the growth of planktonic algae: Part I. Methods and culture media, J. Ecology, 30(2) (1942) 284–325.
26. APHA, Standard Methods for the Examination of Water and Wastewater. 21st ed. American Public Health Association, Washington, D.C., 2005.
27. C.J. Dawes, C. Kovach, M. Friedlander, Exposure of Gracilaria to various environmental conditions II. The effect on fatty acid composition, Botanica Marina., 36 (1993) 289–296.
28. G. MacKinney, Absorption of light by chlorophyll solution, J. Biol. Chem., 140 (1941) 315–322.
29. M. Dubois, K.A. Gilles, J.K. Hamilton, P.A. Rebers, F. Smith, Colorimetric method for determination of sugars and related substances, Anal. Chem., 28 (1956) 295–297.
30. O.H. Lowry, N.J. Rosebrough, A.L. Farr, R.J. Randall, Protein measurement with folin-phenol reagent, J. Biol. Chem., 193 (1951) 265–275.
31. H. Barnes, J. Blackstock, Estimation of marine animal and tissues. Detailed investigation of the sulphovanillin method for total lipids, J. Exp. Mar. Biol. Ecol., 12 (1973) 103–115.
32. M.R. Preston, Sewage and nutrients in the marine environments: stimulants for good or vectors for harm? A. Gianguzza et al., eds., Mar. Chem., (1997) 259–273.
33. M.J. Costello, To know, research manages and conserves marine biodiversity, Oceanies, 24(4) (1998) 25–49.
34. S. Senthilkumar, P. Santhanam, P. Perumal, Diversity of phytoplankton in Vellar estuary, Southeast Coast of India. In: Proc. 5th Indian Fisheries Forum (Eds.: S. Ayyappan, J.K. Jena and M. Mohan Joseph). Published by AFSIB, Mangalore and AeA, Bhubanewar, India, 2002, 245–248.
35. P. Santhanam, P. Perumal, Diversity of zooplankton in Parangipettai coastal waters, southeast coast of India, J. Mar. Biol. Ass. India., 45 (2003) 144–151.
36. M. Gadhia, R. Surana, E. Ansari, Seasonal variations in physico-chemical characterstics of Tapi estuary in Hazira industrial area, Our Nature, 10 (2012) 249–257.
37. R.M. Atlas, E.A. Schofield, F.A. Moreli, R.E. Cameron, Effects of petroleum pollutants on Arctic microbial populations, Environ. Pollut., 10 (1976) 35–45.
38. T.R. Parsons, W.K.W. Li, R. Waters, Some preliminary observations on the enhancement of phytoplankton growth by low levels of mineral hydrocarbons, Hydrobiology, 51 (1976) 85–89.
39. M. Rajasegar, Physico-chemical characteristic of the vellar estuary in relation to shrimp farming, J. Environ. Biol., 24 (2003) 95–101.
40. X. Tang, L.Y. He, X.Q. Tao, Z. Dang, C.L. Guo, G.N. Lu, X.Y. Yi, Construction of an artificial microalgal-bacterial consortium that efficiently degrades crude oil, J. Hazard. Mater., 181 (2010) 1158–1162.
41. R.B. Clark, Marine Pollution, Clarendon Press, Oxford, 1989 220 pp.
42. J.W. Carraway, J.R. Doyle, Innovative remedial action at a wood-treating superfund site, Tappi J., 74(7) (1991) 113–118.
43. R.Z. Hoff, Bioremediation: an overview of its development and use for oil spill cleanup, Marine Pollut. Bull., 29 (1993) 476–481.
44. R.M. Atlas, Petroleum biodegradation and oil spill bioremediation, Marine Pollut. Bull., 31(4212) (1995) 178–182.
45. R.M. Atlas, Bioremediation of petroleum pollutants, Int. Biodeter. Biodegrad., 35(123) (1995) 317–327.
46. E.E. Erdogan, A. Karaca, Bioremediation of crude oil polluted soils, Asian J. Biotechnol., 3 (2011) 206–213.
47. B.R. Shmaefsky, Bioremediation: Panacea or fad? Access Excellence@ the national health museum, http://www.accessexcellence.org/LC/ST/st3bg.php, 1999.
48. D. Cheney, Y.C. Liu, D. Aulisio, K. Gardner, T. Cruz-Uribe, G. Rorrer, Seaweed uptake, concentration and Detoxification of organic pollutants in marine waters: TNT and Pahs, Abstract, The Annual International Conference on Contaminated Soil, Sediments, and Water, (Amherst, umass, USA)., 2006.
49. Y.W. Hong, D.X. Yuan, Q.M. Lin, T.L. Yang, Accumulation and biodegradation of phenanthrene and fluoranthene by the algae enriched from a mangrove aquatic ecosystem, Mar. Pollut. Bull., 56 (2008) 1400–1405.
50. N.R. Jacques, D.W. McMartin, Evaluation of algal phytoremediation of light extractable petroleum hydrocarbons in subarctic climates, Remediat. J., 20 (2009) 119–132.
51. X.C. Wang, H.M. Zhao, Uptake and Biodegradation of Polycyclic Aromatic Hydrocarbons by Marine Seaweed. J. Coastal Res., SI 50 (Proceedings of the 9th International Coastal Symposium), Gold Coast, Australia, 2007, pp. 1056–1061.
52. S. Kathi, A.B. Khan, Phytoremediation approaches to PAH contaminated soil, Indian J. Sci. Technol., 4(1) (2011) 56–63.
53. S.I.C. Hsiao, D.W. Kittle, M.G. Foy, Effects of crude oils and the oil dispersant Corexit on primary production of Arctic marine phytoplankton and seaweed, Environ. Pollut., 15 (1978) 209–221.
54. K. Chan, S.Y. Chiu, The effects of diesel oil and oil dispersants on growth, photosynthesis and respiration of Chlorella salina, Arch. Environ. Contam. Toxicol., 14 (1985) 325–331.
55. M.M. El-Sheekh, A.H. El-Naggar, M.E.H Osman, A. Haieder, Comparative studies on the green algae Chlorella homosphoera and Chlorella vulgaris with respect to oil pollution in the River Nile, Water Air Soil Pollut., 124 (2000) 187–204.
56. A.D.W. Sekatresna, R. Zein, Z. Chaidir, N. Nasir, Chlorophyll and total carotenoid contents in microalgae isolated from local industry effluent in West Sumatera, Indonesia, Der Pharma Chemica., 9(18) (2017) 9–11.
57. R.M. Atlas, E.A. Schofield, F.A Moreli, R.E. Cameron, Effects of petroleum pollutants on Arctic microbial populations, Environ. Pollut., 10 (1976) 35–45.
58. V. Sornalakshmi, Venkataraman Kumar, Effect of fly ash on the growth and biochemicals of some seaweed, Biosci. Discovery, 5(1) (2014) 01–05.
59. B. Volesky, Z.R. Holan, Biosorption of heavy metals, Biotechnol. Prog., 11 (1995) 235–250.
60. S. Schiewer, B. Volesky, Biosorption by Marine Algae, In: Ed. J.J. Valdes, Bioremediation, Kluwer, Dordrecht, The Netherlands, 2000, 139–169.
61. D. Praepilas, K. Pakawadee, Effects of wastewater strength and salt stress on microalgal biomass production and lipid accumulation, World Acad. Sci. Eng. Technol., 60 (2011) 1163–1168.
62. M. Takagi, T. Karseno Yoshida, Effect of salt concentration on intracellular accumulation of lipids and triacylglyceride in marine microalgae Dunaliella cells, J. Biosci. Bioeng., 101 (2006) 223–226.
63. M.P. Abishek, J. Patel, A.P. Rajan, Algae oil: a sustainable renewable fuel of future, Biotechnol. Res. Int., (2014) 1–8.
64. P. Gani, N.M. Sunar, H. Matias-Peralta, A.A.Abdul Latiff, U.K. Parjo, A.R.A. Razak, Phycoremediation of wastewaters and potential hydrocarbon from microalgae: a review, Adv. Environ. l Biol., 9(20) (2015) 1–8.
65. A.R. Delile, Description of Egypt our recueile and observations and researches that were made in Egypt during the expedition of the French army, Natural history, Tom. Second, Natural History, Flight, 2 (fasc 2 ‘third delivery’), 1813, pp. 145–320, [Flora of Egypt, explanation of the pains], Paris: Imperial Printing, 1826, p 1–62.
66. F.T. Kützing, Diagnosen und Bemerkungen zu neuen oder kritischen Algen, Botanische Zeitung., 5 (1847) 1–5, 22–25, 33–38, 52–55, 164–167, 177–180, 193–198, 219–223.
67. J.G. Agardh, Till algernes systematik. Nya bidrag. (Tredje afdelningen.), Lunds Universitets Års-Skrift, Afdelningen for Mathematik och Naturvetenskap., IV pls, 19(2) (1883) 1–177.
68. J.G. Agardh, Species genera et ordines algarum, seu descriptiones succinctae specierum, generum et ordinum, quibus algarum regnum constituitur. Volumis secundi: Algas florideas complectens, Part 2, fasc. 2., 1852, pp. 577–700.
69. F. Børgesen, Sur une collection d’algues marines recueillies à une profondeur remarquable près des Iles Canaries, Revue Algologique., 11 (1938) 225–231.
70. J.G. Agardh, Species genera et ordines algarum, seu descriptiones succinctae specierum, generum et ordinum, quibus algarum regnum constituitur. Volumen Primum. Algas fucoideas complectens, Lundae [Lund]: C.W.K. Gleerup., 1848, pp. [i–vi], [i]– viii– 363.
71. N. Zavodnik, Seasonal variations in rate of photosynthetic activity and chemical composition of the littoral seaweeds common to North Adriatic. Part 1. Fucus virsoides (Dow), J. Ag. Bot., 26 (1973) 155–165.