K. Elena & A. Grigoriou
52
P. primulae
causing brown core and root
rot of
Primula polyantha.
Tomlinson’s iso-
lates were also virulent to
P. vulgaris
, but not
to
P. veris
L. The new
Phytophthora
species
was very close taxonomically to
P. syringae
,
but Tomlinson has distinguished
P. primu-
lae
by the formation of large sporangia and
mainly from the compound sporangia. Also
P. primulae
has been recorded in New Zea-
land and Denmark, causing brown core of
P. polyantha
(1). In our pathogenicity tests,
strains of
P. primulae
from parsley were
not pathogenic to primula plants. There
is only one report of
P. primulae
,
causing
root and crown rot of parsley in UK (16).
Pathogenicity of
P. cryptogea, P. citrop-
hthora
,
P. porri
and
P. nicotianae
strains iso-
lated from other than parsley hosts was
tested on parsley since these species are
common to Greek crops.
P. nicotianae
and
P. cryptogea
are described as parasites of
parsley (3, 9).
There was a
P. citrophthora
isolate that caused root rot of parsley in
Greece; however this isolate has been lost
(K. Elena 1993, unpublished data).
Phytophthora s
pecies identification is of-
ten difficult since morphology and growth of
isolates can be variable. Kouyeas and Chitza-
nidis (13) examined Greek isolates from citrus
peach and apricot trees, having a low maxi-
mum growth temperature and character-
ized these as
Phytophthora syringae
(Klebahn)
Klebahn
,
based on morphological charac-
ters
.
The isolates formed hyphal swellings
in a chain-like fashion reminding the figures
and descriptions given by Tomlinson (18) for
the compound sporangia of
P. primulae
. Ad-
ditionally, in the above isolates the chain of
swellings ended occasionally to a sporangi-
um, a character that brought them even clos-
er to
P. primulae.
These characters are obvious
in Fig. 2 of the respective article (13). Howev-
er these isolates did not form oogonia except
the citrus isolate, which produced abundantly
oogonia with paragynous antheridia only the
first period after their isolation. According
to Kouyeas and Chitzanidis the characters
that Tomlinson used to distinguish
P. prim-
ulae
from
P. syringae
did not seem strong
enough. We were not able to compare our
Table 2.
Susceptibility of
Petroselinum crispum
plants to different
Phytophthora
species.
Phytophthora
species
Petroselinum crispum
plants
Disease index
P. cryptogea
BPIC1189
1
P. cryptogea
BPIC1191
1
P. citrophthora
BPIC1133
1
P. citrophthora
BPIC1185
1
P. nicotianae
BPIC2000
1
P. porri
BPIC1985
1
Disease index (average of 15 replications), 1: no infection, 5: 100% infection.
Table 3.
Susceptibility of different species to
Phytophthora primulae.
Plant species
Phytophthora primulae
BPIC2584
Disease index
Malus domestica
fruits
5
Solanum tuberosum
tubers
1
Allium cepa
bulbs
1
Disease index (average of ten replications), 1: no infection, 5: 100% infection.
1...,44,45,46,47,48,49,50,51,52,53 55,56,57,58,59,60