2022 article

Field Occurrence and Overwintering of Oospores of Pseudoperonospora cubensis in the Southeastern United States

Kikway, I., Keinath, A. P., & Ojiambo, P. S. (2022, August 8). PHYTOPATHOLOGY.

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
author keywords: cucurbits; dormancy; ecology; germination; oomycetes; oospore formation; oospore viability; pathogen survival
MeSH headings : Cucumis melo; Cucumis sativus; North Carolina; Oomycetes; Peronospora; Plant Diseases; Soil; United States
Source: Web Of Science
Added: August 22, 2022

In the United States, the cucurbit downy mildew pathogen, Pseudoperonospora cubensis, has been shown to form oospores under laboratory conditions, but there are no reports on the formation of oospores in naturally infected cucurbit plants in the field. This study investigated the occurrence of oospores in naturally infected leaves from cucurbit fields in North Carolina and South Carolina from 2018 to 2020. Oospore viability and survival was also determined outdoors during the winter in North Carolina during this study period using soil containing leaves infested with oospores. About 5% of 1,658 naturally infected cucumber and cantaloupe leaves sampled during the study had oospores, with a mean density of 585 oospores per cm 2 of infected leaf tissue. Absolute oospore viability, as assessed using the plasmolysis method, declined linearly (slope = βˆ’0.27; P < 0.0001) over the 6-month exposure period from 67.8% in November to 19.3% in May. Other variables being equal, the decrease in oospore viability was significantly affected by soil temperature (b = βˆ’0.03 to βˆ’0.05; P < 0.0001) and number of rainy days (b = 21.6 to 40.46; P < 0.05), while the effects of soil moisture on oospore viability were less clear. About 20% of the oospores exposed to outdoor conditions at the end the study period were putatively viable and deemed potentially infective. However, these putatively viable oospores failed to germinate or initiate disease when inoculated onto cucumber or cantaloupe leaves. These results indicate that oospores might require some unrecognized stimuli or physiological factors to initiate germination and infection. Nonetheless, viability of oospores at the end of the winter season suggests that once exposed to the right conditions that stimulate germination, these oospores could potentially serve as a primary inoculum source in the southeastern United States where winter temperatures are cold enough to kill cucurbits plants.