Vertical Disentrainment of Anabaena circinalis in the Turbid, Freshwater Darling River, Australia: Quantifying Potential Benefits from Buoyancy

doi:10.1093/plankt/23.1.47

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Journal of Plankton Research Vol.23 no.1 pp.47-55, 2001
© Oxford University Press 2001

Vertical Disentrainment of Anabaena circinalis in the Turbid, Freshwater Darling River, Australia: Quantifying Potential Benefits from Buoyancy

Simon M. Mitrovic¹^,2^,3, Lee C. Bowling² and Rodney T. Buckney¹

¹ University of Technology, Sydney, Department of Environmental Sciences, PO Box 123, Broadway, NSW 2007, Australia and ² Department of Land and Water Conservation, River Health Unit, PO Box 3720, Parramatta NSW 2124, Australia

³ To whom correspondence should be addressed

The migration patterns of phytoplankton through time and depthwere measure in the Darling River at Revallyn, New South Wales,Australia during a bloom of Anabaena circinalis. Anabaena circinaliswas able to disentrain and maintain position witin surface watersduring the early morning, coinciding with the diel period ofleast wind speeds and a state of no detectable thermocline (0.1°Cdetection limit). Anabaena circinalis concentrations were upto 10 times higher in the surface waters than in the bottomwaters during the morning sampling periods. Afternoon and midnightsampling periods revealed either a small amount of surface accumulationor none. All other phytoplankton were found to have a relativelyeven distribution throughout the water column at all time periodsmeasured (except Aulacoseira on one occasion). These verticaldistribution data were used to determine the potential benefitbuoyant A. circinalis could gain over an evenly distributedpopulation using a quantitative estimate of primary productivity.The buoyant population was found to have a daily integral ofphotosynthetic O₂ production of 3.63 mol m ^–2, five timesgreater than that for the evenly distributed population. Lossesdue to respiration were greater for the evenly distributed population(29.5%) than the buoyant population (4.8%), probably due tothe amount of time cells spent outside the euphotic zone. Itis suggested that buoyancy may offer considerable advantageto A.circinalis in gaining dominance in turbid freshwater rivers.Further, buoyancy may offer some advantage even without strongthermal gradients.

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