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New Zealand Journal of Marine and Freshwater Research abstractsSubmerged vegetation of the Rotorua and Waikato lakes *4. Lake RotomaJ. S. CLAYTONV. J. CHAPMANJ. M. A. BROWNBotany Department University of Auckland Private Bag Auckland, New ZealandAbstract A preliminary scuba survey of oligot-rophic Lake Rotoma in 1972 revealed a vegetation mainly composed of native hydrophytes in which exotics were at an early stage of colonisation. In 1973 the presence of species was recorded in 5708 quadrats (625 cm2) at 1 m intervals along a total of 50 line transects placed systematically around the lake. Water depth was measured, and quadrat cover and substrate type were subjectively estimated. Species frequency calculations showed that the dominant vegetation pattern was a characean meadow of Chara fibrosa f. acanthopitys (A.Br.) R.D.W., Nitella leptostachys var. leonhardii (R.D.W.) R.D.W., and N. pseudoflabellata var. mucosa (Nordst.) Bailey. The charophytes extended over a depth range of 1-17.5 m on a wide variety of substrates and gradients. Native vascular plants were absent from many transects, and had a depth range only from 0 to 4.5 m, with most occurring above 3.5 m. The Low Mixed Community, found in shallow water less than 1.25 m in depth at the northeast end of the lake, provided this area with a high species diversity. Exotic hydrophytes had established in many areas around the lake. The distribution of Lagarosiphon major (Ridley) Moss and Elodea canadensis Michx. appeared to coincide with boating access and fallen submerged trees over a depth range of 0-6.0 m, although much of the available habitat had not yet been exploited. Emergent species were most abundant within the southwest inlet and also in the lagoons surrounding the lake where sheltered conditions and shallow gradients prevail.Keywords Lake Rotoma; Characeae; aquatic plants; freshwater weeds; biological surveys; freshwater lakes. New Zealand Journal of Marine and Freshwater Research, 1981, Vol. 15:447-451 Received 13 November 1980 PDF file of entire paper: medium quality (841K); (scanned from paper original: notes about this process) This year's abstracts | Journal home page | All abstracts | Publishing home page |