, 2009), these three pathogens all declined substantially within

, 2009), these three pathogens all declined substantially within 24 h no matter how they responded to pH initially. Only a small population of these pathogens can survive longer. This suggests that populations of these pathogens may decline depending upon the time required to spread. Thus, extending their time in water by locating the pump house far from the runoff entrance may

mitigate the dispersal of these three pathogens via recycled irrigation water (Hong et al., 2003). Third, extended survival of a small population of all these pathogens occurred over a broad pH range through the formation of compact hyphae. These structures may be important for the survival of these pathogens in aquatic environments because they were long lasting and formed secondary sporangia that can lead to new cycles of zoospore production. On the other hand, these structures are likely to settle out AUY-922 cost of the water column over time because they probably are heavier than individual zoospores or cysts. During sedimentation, they could be subject to degradation by other microorganisms in the sediments. Based on this, the addition of selleck chemical a sedimentation or retention pond to recycling systems may be an additional means of preventing

them from being dispersed to crops in recycled water. Differences in pH responses also are present among these three pathogens. First, P. alni had quite distinct zoospore behavior at initial exposure compared with P. kernoviae and P. ramorum. Its zoospores remained motile for at least 24 h at pH 5–9, which may allow sufficient time for it to spread actively. In contrast, zoospores of P. kernoviae and P. ramorum encysted rapidly irrespective of pH. Although they lose the advantage of spreading actively when they encyst, they may gain a form of resistance against environmental stress.

Phosphatidylethanolamine N-methyltransferase Such resistance may allow these pathogens to survive longer or to be carried away effectively by water currents. Phytophthora nicotianae has been shown to survive better with cysts formed when pressurized CO2 was applied (Ahonsi et al., 2010). Secondly, the extended survival of these pathogens in response to pH is divergent from initial survival. Phytophthora alni and P. ramorum became more tolerant of basic pHs. Basic pH is widespread in nursery irrigation water reservoirs, typically found during summer days because of photosynthetic activity of algae and other aquatic plants (Chen et al., 2003; Cirelli et al., 2008; Hong et al., 2009). Seasonal and diurnal fluctuation of pH in irrigation water ponds based on our most recent observations can range from low pH 6 to close to pH 11. However, such fluctuation is unlikely to become an issue for the survival of these pathogens in irrigation water systems because they can survive well at pH 5–7 despite the fact that only a small population of them can survive long. More concern should be given to P.

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