Anna Padovan scite author profile

The total protein, carbohydrate, lipid and ash compositions, and fatty acid contents of two species of marine microalgae, the eustigmatophyte Nannochloropsis oculata (formerly 'Chlorella sp., Japan') and the chrysophyte Isochrysis sp. (Tahitian) used in tropical Australian mariculture, were studied. The microalgae were grown under a range of culture conditions (4 1 and 60 1 laboratory culture, 300 1 bag culture, and 8000 1 outdoor culture) and four light regimes (100 to 107 ktE m -2 -, 240 to 390 E m-2 s -', 340 to 620 iE m-2 s -1, and 1100 to 1200 ,tE m-2 s-1 respectively) to determine the effect of light intensity on the chemical composition of large scale outdoor cultures. Laboratory and bag cultures were axenic and cultured in Walne medium while outdoor cultures were grown in a commercial medium designed for optimum nutrition in tropical outdoor aquaculture operations. Change in growth medium and photon flux density produced only small changes in the proximate biochemical composition of both algae.

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Detection and differentiation of phytoplasmas in Australia: an update

Schneider¹,

Padovan²,

Rue³

et al. 1999

Aust. J. Agric. Res.

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Phytoplasmas were found in 33 plant species that were not described as host plants in an earlier Australian survey. Plants displayed characteristic symptoms of little leaf, proliferation, and floral abnormalities. Restriction fragment length polymorphism analysis revealed 13 different restriction patterns. The majority of phytoplasmas showed a restriction pattern identical to that of either the tomato big bud (TBB) or sweet potato little leaf V4 (SPLL-V4) phytoplasma. Phytoplasmas from 6 plant species showed a restriction pattern similar to that of the pigeonpea little leaf (PLL) phytoplasma. One phytoplasma from garden bean displayed a restriction pattern identical to that found in papaya dieback and Australian grapevine yellows (AGY) phytoplasmas. Seven new restriction fragment patterns have been detected and sequence analysis of the 16S/23S spacer region revealed that 3 of these phytoplasmas are related to the faba bean phyllody (FBP) group. The spacer region of a graminaceous phytoplasma was most similar to phytoplasmas from the sugarcane white leaf group. Another graminaceous phytoplasma was identical to a phytoplasma from Indonesia. The spacer region of a phytoplasma from poinsettia (PoiBI) was identical to the western X-disease phytoplasma from North America and Europe. The spacer region of a phytoplasma in stylosanthes contained no tRNAIle. Full-length 16S rRNA gene sequences from selected new phytoplasmas were determined to corroborate results obtained from the spacer region analyses. Three of these phytoplasmas (galactia little leaf, vigna little leaf, and stylosanthes little leaf) are, along with the PoiBI phytoplasma and the graminaceous phytoplasmas, members of phytoplasma groups that have not been reported before in Australia.

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Studies on Sweet Potato Little-Leaf Phytoplasma Detected in Sweet Potato and Other Plant Species Growing in Northern Australia

Gibb¹,

Padovan²,

Mogen³

1995

Phytopathology

109

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Weed hosts ofFusarium oxysporumf. sp.cubensetropical race 4 in northern Australia

Hennessy

Walduck

Daly³

et al. 2005

Austral. Plant Pathol.

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Anna Padovan

Effect of light intensity on the proximate biochemical and fatty acid composition of Isochrysis sp. and Nannochloropsis oculata for use in tropical aquaculture

Detection and differentiation of phytoplasmas in Australia: an update

Studies on Sweet Potato Little-Leaf Phytoplasma Detected in Sweet Potato and Other Plant Species Growing in Northern Australia

Weed hosts ofFusarium oxysporumf. sp.cubensetropical race 4 in northern Australia

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