Mj. Zwankhuizen et al., Inoculum sources and genotypic diversity of Phytophthora infestans in Southern Flevoland, the Netherlands, EUR J PL P, 106(7), 2000, pp. 667-680
Genotypic changes in populations of Phytophthora infestans in Southern Flev
oland (150 km(2)) were analysed by characterising isolates from potato refu
se piles, conventional and organic potato fields, and potatoes and tomatoes
in allotment gardens for mating type (1712 isolates) and DNA fingerprint p
attern using probe RG57 (1048 isolates). The overall percentages of genotyp
es (and of isolates) that were A2 varied from 32 (4) in 1994 to 45 (56) in
1996. Among the 1048 isolates 170 different genotypes were identified, of w
hich 138 (81%) were 'rare' (i.e., detected in only one sampling site in the
research area during 1993-1996). Many rare genotypes were encountered in o
rganic potato fields and in allotment gardens. In 1994 and 1995, four genot
ypes were abundant. The highest percentages of isolates with these 'common'
genotypes were encountered in refuse piles and conventional potato fields.
The common genotypes were nearly absent in 1996, suggesting that the popul
ation may have passed through a bottleneck at the transition from 1995 to 1
996. The Shannon index of genotypic diversity was high in allotment gardens
and in organic potato fields. For the total populations the normalised Sha
nnon index of genotypic diversity increased from 0.34 in 1994, with weather
favourable to late blight, to 0.61 in 1996, with unfavourable weather. The
high numbers of rare genotypes detected every year indicate that oospores
may act as an infection source in commercial potato fields. However, refuse
piles were identified as the most important infection sources for commerci
al fields in 1994 and 1995. In 1996 disease in commercial organic fields wa
s probably initiated by a few genotypes originating from seed tubers. In al
lotment gardens oospores were probably the most important infection source.