MYALL LAKES Temporal and spatial variability in the phytoplankton community of Myall Lakes, Australia, and influences of salinity Natasha J. Ryan Æ Simon M. Mitrovic Æ Lee C. Bowling Ó Springer Science+Business Media B.V. 2008 Abstract The variability in the phytoplankton communities of the Myall Lakes, a series of four interconnected coastal lakes on the lower north coast of New South Wales, was studied between 1999 and 2002. There was considerable spatial variability across the lake system. Bombah Broadwater experi- enced blooms of Anabaena in 1999 and early 2000, but these were replaced from late 2000 onwards by Chroococcus and a variety of eukaryotic taxa, particularly flagellates and diatoms. In comparison, the phytoplankton community of Myall Lake was dominated for much of the study period by Chroo- coccus, Merismopedia and chlorophyte taxa. The sites located midway between these two main lakes represent an ecotone, with elements of the phyto- planktonic flora of both main lakes being present. Changes in phytoplankton community composition in Bombah Broadwater occurred fairly frequently. In contrast, the phytoplankton community in Myall Lake changed little during the course of the study and can be considered as being at long-term equilib- rium. The reasons for this lie in the morphology and hydrology of the lake system, which in turn create gradients in a number of physico-chemical water quality attributes. Bombah Broadwater is influenced by episodic and stochastic freshwater inflows from the upper Myall River catchment, and in times of drought by saline marine incursions via the lower Myall River. Myall Lake however represents a cul- de-sac, with only a small hydraulic connection to the remainder of the lake system. As it has little input from its small catchment, the limnological conditions within this lake remain relatively constant for long periods of time. Although no patterns of seasonal succession were discernable in any of the lakes, some longer-term (annual) changes did occur, and certain taxa displayed enhanced growth in summer. Salinity was found to be an important factor in determining phytoplankton community composition and abun- dance. Canonical Correspondence Analysis of phytoplankton and environmental data for all sites combined, showed ammonia, total nitrogen and salinity (measured as electrical conductivity) to have the most influence on the phytoplankton community composition and abundance. Anabaena growth was positively related to ammonia concentration and negatively related to conductivity. Guest editors: J. Wilson, L. Bowling & J. Tibby The Myall Lakes: patterns and processes in an unusual coastal lake system in eastern Australia N. J. Ryan New South Wales Department of Water and Energy, Water Management Division, P.O. Box 2213, Dangar, Newcastle, NSW 2302, Australia S. M. Mitrovic Á L. C. Bowling (&) New South Wales Department of Water and Energy, Water Management Division, P.O. Box 3720, Parramatta, NSW 2124, Australia e-mail: Lee.Bowling@dnr.nsw.gov.au 123 Hydrobiologia (2008) 608:69–86 DOI 10.1007/s10750-008-9375-3