Phytoplankton Assessment in Danube Delta Biosphere Reserve

• Published in: Scientific Annals of the Danube Delta Institute Vol. 21; pp. 95 - 100
• Main Authors: SPIRIDON Cosmin, TOROK Liliana, TUDOR Iuliana Mihaela, IBRAM Orhan, TEODOROF Liliana, DESPINA Cristina, SECELEANU ODOR Daniela, TUDOR Marian, GEORGESCU Lucian P.
• Format: Journal Article
• Language: English
• Published: CITDD Publishing House 01.12.2016
• Subjects: Danube Delta; phytoplankton; rheophile ecosystems
• ISSN: 1842-614X; 2247-9902
• DOI: 10.7427/DDI.21.10

The term ”plankton” refers to those microscopic aquatic forms having little or no resistance to currents and living free-floating and suspended, in open or pelagic waters. Phytoplankton development has different consequences depending on biomass quality and quantity, the overgrowth result being eutrophication process. The eutrophication intensity can cause both a lower water transparency, by excessive algal growth, to fish death in the area. In this study, it was presented the ecological status and phytoplankton biomass dynamic, in the Danube branches from upstream to downstream. The measurements have been made in 2013, in March, June, September and November, using spectrofluorometer for algal biomass determination and a microscope for qualitative analyses of phytoplankton species. Shannon-Wiener index was calculated to compare phytoplankton species diversity. Also, the biodegradable organic matter loading the ecosystem was determined by computing the Saprobic index. The values obtained do not exceed the eutrophication limits according to the Water Framework Directive, transposed into Romanian legislation by Order 161/2006, with normal concentrations for rheophile ecosystems, as Danube's branches. In this area, water currents and high water turbidity inhibit phytoplankton growth, in contrast to lacustrine ecosystems, where light penetration to depths favors the development of different phytoplankton groups.