Zamski, E. (2017) Chapter: Plants Origin. In: Magnes, Y.L., Ed., Processes and Mechanisms in G the Plant World, Books Publisher, the Hebrew University, Jerusalem, 9-12. (In Hebrew)
has been cited by the following article:
TITLE: The Impact of Nitrogen and Phosphorus Dynamics on the Kinneret Phytoplankton: I: Cyanophytes-Peridinium Alternate
AUTHORS: Moshe Gophen
KEYWORDS: Nitrogen, Phosphorus, Cyanobacteria, Peridinium, Kinneret
JOURNAL NAME: Open Journal of Modern Hydrology, Vol.7 No.4, September 30, 2017
ABSTRACT: During 1970-2001, several ecological changes were documented in the Lake Kinneret Ecosystem: Decline of total Nitrogen (TN) and increase of total Phosphorus (TP) loads with a corresponding decline of TN/TP ratio. The phytoplankton assemblages indicated consequence Increase of Cyanobacteria accompanied by elevation of the biomass of Chlorophyta and Diatoms. The Kinneret ecosystem functioning represented two superimposed events: the decline of TN enhanced Cyanobacteria and elevation of TP that was reflected by an increase of Chloropytes and Diatoms. Removal of Nitrogen was achieved but P load remained high enough to enhance Chlorophyta and Diatoms. Consequently, a top priority of future management perspective should be reduction of Phosphorus inputs.