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International Journal on Algae
SJR: 0.219 SNIP: 0.261 CiteScore™: 0.24

ISSN Печать: 1521-9429
ISSN Онлайн: 1940-4328

Выпуски:
Том 21, 2019 Том 20, 2018 Том 19, 2017 Том 18, 2016 Том 17, 2015 Том 16, 2014 Том 15, 2013 Том 14, 2012 Том 13, 2011 Том 12, 2010 Том 11, 2009 Том 10, 2008 Том 9, 2007 Том 8, 2006 Том 7, 2005 Том 6, 2004 Том 5, 2003 Том 4, 2002 Том 3, 2001 Том 2, 2000 Том 1, 1999

International Journal on Algae

DOI: 10.1615/InterJAlgae.v8.i3.60
pages 274-285

Optimization of conditions for cultivation of the Black Sea red alga Gelidium latifolium (Grev.) Born. et Thur. (Rhodophyta)

B. N. Belyaev
A.O. Kovalevsky Institute of Biology of Southern Seas, National Academy of Sciences of Ukraine, 2. Nakhimov Pr., 335011 Sevastopol, Republic of Crimea, Ukraine

Краткое описание

The results of experiments on intensive cultivation of the Black Sea red alga, Gelidium latifolium (Grev.) Born. et Thur. (Rhodophyta), performed by two techniques for suppression of epiphytes (pulse nutrition and dewatering) and also of nutrient media on water with salinity of 9; 18; 26, and 34°/oo are generalized. The combination of pulse nutrition (for 2 hours once in two days at the concentration of nitrogen (CN) 1500 μM and phosphorus (CP) 120 μM) and preliminary dewatering for 30 min proved to be the most effective. A temperature rise in spring within the supposed optimum of its values (from 15 to 20−25 °C) exerted a slight action on the average specific daily rate of biomass growth rate (μ). An increase in the concentration of biogenes (N/P) from 260/20 to 364/26 μM and illumination from 55 to 70 W/m2 causes an increase in μ by 20−30%. Depending on conditions of the preliminary maintenance of algae the value of μ may be 1.5−2 times as high that predetermines cyclicity of cultivation alternating with the rest phases. It has been established that at 34°/oo salinity the value of μ is 1.5−2.7 times more than at 9°/oo salinity and 1.3−1.4 more than at normal Black Sea salinity, the biomass of epiphytes decreasing by 6−8 times.


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