Abstract
The mechanism of infection by Vibrio sp. P11 promoting the ice-ice disease in Kappaphycus alvarezii was investigated in vitro. Its intensity of infection differs from that of another ice-ice promoter (Cytophaga sp. P25) by promoting the disease much faster. However, when secondary infection by other bacteria starts, its ability to compete with these bacteria gradually diminishes, whereas, infection by P25, although not displaying such drastic effects as P11, shows consistent competitive ability against other bacteria. Time-series infection experiments with application of polyclonal antibodies to specifically detect Vibrio sp. P11 revealed that this bacterium has a high affinity for the seaweed especially when the latter is stressed. It promotes the disease after a rapid increase in cell density of up to 107 g−1 (wet wt.) in the first 24 h. This bacterial cell build-up may take only 1–2 h on stressed thalli, but takes about 24 h on non-stressed thalli. Build-up is not sustainable in non-stressed thalli as high density is usually followed by a sudden decline in cell number believed to result from an algal defence against potential pathogens. Inoculation of the bacterium on thalli incubated in continuous culture system extends the time of bacterial attachment due to laminar flow and, possibly, competition by existing bacteria on the seaweed surface and in ambient seawater medium. Motility-driven cell attachment by this bacterium is suggested as an important factor for infection.
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Largo, D.B., Fukami, K. & Nishijima, T. Time-dependent attachment mechanism of bacterial pathogen during ice-ice infection in Kappaphycus alvarezii (Gigartinales, Rhodophyta). Journal of Applied Phycology 11, 129–136 (1999). https://doi.org/10.1023/A:1008081513451
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DOI: https://doi.org/10.1023/A:1008081513451