Germinants at pH 5–9 grew and formed massive hyphae and secondary

Germinants at pH 5–9 grew and formed massive hyphae and secondary sporangia as observed at exposure

day 7 (Fig. 2). At pH 3, germinants or cysts had little further growth, although a small population of them still formed colonies when plated on media as shown in the Table 2. However, colonies from these cysts developed much more slowly, normally a 2–3 day Vorinostat mw delay, than those in pH 5–9. Behavior of P. ramorum zoospores in response to pH fell between P. alni and P. kernoviae. Like P. kernoviae, they lost motility immediately after exposure (Fig. 2), and most of them lysed before encystment. But the cysts that did form germinated early as did P. alni. Also, like P. kernoviae, the cysts formed compact swollen hyphae or mycelia after a 5-day exposure at pH 5–9. They also formed hyphae at pH 11 like P. alni, although their hyphae appeared much thinner and formed nipple-like swellings on branches of hyphae (Fig. 2). Hyphae and cysts at pH 3 were not viable, forming no colonies on culture media (Table 2). The only significant differences NVP-BGJ398 mouse in the water quality analyses (between solutions) were in EC, alkalinity, Na, Cl and Ca levels at extreme pHs (Table S1). This is not surprising, because the pH levels were adjusted with NaCl and NaOH solutions. The difference in EC levels between treatments was relatively small, and the EC of all solutions (0.22–0.68 dS m−1)

was well within the range of ECs found in the root zone of fertilized

ornamental plants in commercial nurseries. Variation in alkalinity CYTH4 was significant, especially at pH 11 (83.3 mg L−1) (Table S1). However, this value is much lower than the alkalinity (< 100 meq or 5004 mg L−1) associated with groundwater (and hence irrigation water) in many areas of the United States. Similarly, variation in Cl and Na concentrations was also significant at extreme pHs. Na at pH 3 and pH 11 was elevated 12.8- and 21.2-fold, respectively, compared with that at pH 7. At pH 9, the elevation was smaller (3.1-fold), and at pH 5, the level was reduced 4.9-fold. Significant elevation in Cl was only present at pH 3 and pH 11; 19.8- and 2.4-fold, respectively, compared with pH 7. However, the maximum concentrations of each of these ions in solution (41.2 mg Na·L−1 and 88.9 mg Cl·L−1) (Table S1) are again well within root zone concentrations tolerated by most ornamental crop species. Significant variation in Ca occurred only at pH 11 where the level reduced by half compared with that at other pHs. The difference in Ca levels did not affect cyst counts (Table S1, Fig. 1). Survival of P. alni, P. kernoviae and P. ramorum in response to pH has three things in common, and each has an important implication in managing these pathogens. First, their initial responses to pH at immediate exposure are very similar. They all survived best at neutral pH were favored by basic pH over acidic pH and were sensitive to pH 3 and 11.

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