Vroege vergeling bij erwten een aaltjesziekte

Summary The symptoms of early yellowing in peas, a disease occurring on sandy soils, could not be reproduced by inoculation withFusarium oxysporum formapisi race 3. Early yellowing in peas is most probably caused byHoplolaimus uniformis. Large numbers of this eelworm were found in the soil around the roots of diseased plants from several fields.     

Een virus inAtropa belladonna

Summary In a bgarden at Baarn, The Netherlands,Atropa belladonna plants, grown from seed, showed symptoms similar to those described bySmith (1946, 1957) for Belladonna mosaic. After inoculation of solanaceous test plants with sap from diseased plants, the following species showed symptoms:Atropa belladonna L.,Capsicum annuum L.,Hyoscyamus niger L.,Nicandra physaloides Gaertn.,Nicotiana glutinosa L.,Nicotiana tabacum L. var. Samsun,Petunia hybrida andPhysalis floridana Rydb. The symptoms suggest that the virus may be identical with that described bySmith. A high virus concentration was found inHyoscyamus niger. Nicandra physaloides, Petunia hybrida, Physalis floridana, in the roots and the pericarp of diseasedAtropa plants, and also inSolanum nigrum L. andDatura stramonium L. The latter two species showed hardly any symptoms. A. low virus concentration was found inCapsicum annuum, though this plant showed severe symptoms.The dilution end point of the virus was between 10^–3 and 10^–4; virusinactivation occurred between 70° and 80°C.In electron micrographs the rod-shaped virus particles appeared similar to those of rattle virus.Virus could be detected in the roots of tobacco plants after the leaves had been inoculated with sap of diseasedAtropa-plants (Table 1). The reverse did not occur. Following immersion of the roots of tobacco plants in virus-containing sap these plants were potted in steamed soil. Subsequently the roots proved to be infected but the stems and leaves contained no virus. However,Atropa plants treated in the same way, did show leaf symptoms.It appeared, that the roots of young, healthy tobacco plants could become infected with virus, when grown in naturally infested soil for only tow days (Table 2). Fungus cultures isolated from diseased roots did not show any infectivity. Nematodes are probably the vectors of this virus (Sol, Van Heuvel & Seinhorst, 1960).Met medewerking van Merr.J. M. Dekhuyzen-Maasland, Dr. S. Gayed (Karthoum), Mej.C. van Heuven, C. de Vooys en Mej.R. van Wessem.     

Enkele waarnemingen over het opreden van de verwelkingsiekte bij luzerne in Zeeland in 1957

Summary Some observations have been made on lucerne wilt disease during the growing season in 1957, and in experimental inoculation tests in a glasshouse in 1958. In the province of Zeeland the disease does harm to the crop and prevents many farmers from keeping their crops longer than two years.In a survey data have been collected on soil type, preceding crops, green manuring and manuring with stable dung, pH, structure and weeds. No correlations between these factors and the degree of attack by the disease could be proved, except that on heavy soils the disease was less severe than on lighter soils (as a mean of all observations).Development of the disease is facilitated by damage caused by mechanical equipment to the crop. Damage to the crown of the plants should be avoided as much as possible. The disease is distributed extensively after frequent mowing. On attacked leaves left behind on the mowed stalks, and on decayed leaves dropped to the soil, masses of spores ofVerticillium albo-atrum are produced, which form a potential source of infection in a weakened crop.It seems that the disease is more air-borne than soil-borne, since one year old crops are seldom attacked.From attacked lucerne plants in the field the following fungi have been isolated:Verticillium albo-atrum Reinke & Berth.,Gliocladium roseum Bain andFusarium avenaceum (Fr.) Sacc. (table 1).Isolations have been made from 50 different species of weeds, out of which the following fungi were obtained:Verticillium albo-atrum Reinke & Berth. fromCapsella bursa-pastoris Med. andPlantago major L.,V. dahliae Kleb. fromPrunella vulgaris L.,Capsella bursa-pastoris Med. andThlaspi arvense L., andV. lecanii (Zimm.) Viegas fromPlantago major L.In inoculation experiments with all these isolates, in roots, stalks and on cut plants of lucerne, onlyV. albo-atrum, both from lucerne and weeds, andV. lecanii proved to be able to cause wilting of leaves and stalks. WithGliocladium, Fusarium andVerticillium dahliae no such symptoms could be obtained. The results were the same whatever method of inoculation was used.     

Rotylenchus uniformis (Thorne) on carrots

Rotylenchus uniformis (Thorne) causes small orange lesions in the cortex of carrot roots and also orange discoloration of the stele in the vicinity of these lesions. The tolerance limit of carrots toR. uniformis was about 30 nematodes per 5 g soil in pot trials at about 17°C and 2 nematodes per 5g soil at 5° to 10°C. However, this temperature is too low for normal development of the plant. Field observations in the literature suggest that carrot yields are not reduced at densities ofR. uniformis up to 20 nematodes per 5 g soil. No field data are available for higher densities. From the frequency distribution of different densities ofR. uniformis in soil samples from carrot fields, and assuming a tolerance limit of 16 nematodes per 5 g soil, the area where losses occur is estimated to be between 10 and 15% of the total area under carrots. The total reduction of yield by the nematode would then be less than 1%. If the tolerance limit is 32 nematodes per 5 g soil, the damage would be negligible.Carrot, cauliflower andPhaseolus beans are among the best hosts ofR. uniformis.     

Verticillium albo-atrum as a parasite ofSenecio vulgaris

Many weeds, includingSenecio vulgaris, are virtually symptomless hosts ofVerticillium albo-atrum. Plants ofSenecio vulgaris were inoculated with spore suspensions ofV. albo-atrum by two different methods: root-dipping or injection. Infected plants rarely wilted but were stunted, their lower leaves died prematurely and numbers of lateral shoots were decreased.V. albo-atrum was isolated from all parts of the host including achenes. When placed on agar, infected achenes germinated more rapidly than healthy ones. Only small amounts of mycelium developed in the vessels. Severe wilting was possibly avoided because there is insufficient time for damaging amounts of mycelium to develop inSenecio which has a short period of vegetative growth. On the other hand its tolerance to infection may be attributed to the morphology of its vascular system with its narrow vessels and sparse parenchyma cells.In co-operation withH. van Geest, J. P. Overdulve andC. J. J. Richter.     

Effects of inoculum density,plant age and temperature on disease severity caused by pythiaceous fungi on several plants

Alfalfa, maize, sorghum and sugarbeet plants were inoculated with zoospores ofPhytophthora andPythium species in order to assess the effects of inoculum density, plant age and temperature on disease severity. Seedlings were grown axenically in test tubes and inoculated with zoospore suspensions. Disease severity was assessed by measuring the root growth and discoloration of treated and control seedlings. The incremental root length of all plants decreased and root discoloration increased as inoculum concentration of the pathogen increased. Changes were more intensive among low levels of zoospore concentrations and no significant differences in disease severity were found for inoculum densities higher than 10⁴ zoospores ml^-1. Disease severity was negatively related to plant age. Disease development on sugarbeet seedlings infected withPythium andPhytophthora species was affected by temperature, but the pattern of response was determined by the pathogen’s temperature preferences. The incremental root length decreased as temperature increased up to 25°C. The effect ofPythium dissimile andPhytophthora cactorum on root length was significantly lower at 35°C than at 25°C, whereasPythium aphanidermatum andPhytophthora nicotianae caused significant damage to roots even at 35°C. http://www.phytoparasitica.org posting Dec. 3, 2001.     

Relationships of aphid and mite infestations to control ofBotrytis cinerea byClonostachys rosea in rose(Rosa hybrida) leaves

Infestations of aphids(Macrosiphum rosae L.) and of twospotted spider mites(Tetranychus urticae Koch) were examined in relation to growth and sporulation ofClonostachys rosea andBotrytis cinerea, and to suppression of the pathogen by the agent, in green rose leaves. Leaves were infested artificially with 10 aphids/leaflet for 3 h, or naturally with 15-30 aphids/leaflet for 7-12 days or with undetermined numbers of mites for 10-12 days. Leaves that had or had not been infested were inoculated withC. rosea, withB. cinerea, or withC. rosea plusB. cinerea. Germination incidence and germ tube growth ofC. rosea andB. cinerea on the phylloplane in most instances were much greater in leaves previously infested with aphids or mites compared with noninfested leaves. After combined inoculation,C. rosea suppressed germination ofB. cinerea from 47% to 19% in noninfested leaves, but in leaves that had been infested the agent was ineffective and germination incidence of the pathogen increased to 75-93%. Previous infestation with naturally introduced aphids or mites, but not brief infestations of artificially introduced aphids, markedly increased sporulation ofC. rosea after the leaves died during an initial 7-15 days of incubation on a paraquat agar medium, regardless of whether or notB. cinerea was present. Sporulation ofB. cinerea was similarly increased when inoculated alone. After 15-20 days, however, conidiophores of the agent or pathogen covered most of the leaf surface in these treatments. In leaves inoculated withC. rosea plusB. cinerea, the agent suppressed sporulation of the pathogen almost completely in both previously infested and noninfested leaves. Thus, aphid and mite infestations did not compromise the ability ofC. rosea to suppress inoculum production byB. cinerea in the leaves. Increased nutrient availability on the phylloplane through exudation or as honeydew or frass is proposed as a basis to explain effects of the pest infestations onC. rosea andB. cinerea.     

Adaptation of native syrphid flies to new exotic plant (Impatiens spp.)-aphidant associations in Central Europe (Dipt., Syrphidae; Hom., Aphididae; Hym., Formicidae)

Impatiens parviflora andI. glandulifera, two invasive touchme-not species of exotic origin were found to be associated with two aphid groups in Central Europe: a) Exotic species subsequently following their invasive plant hosts (Impatientinum asiaticum Nevsky), b) native species secondarily adapted to the new exotic hosts (Aphis fabae cirsiiacanthoidis Scop.). The species number (listed) of associated syrphid flies in the newly developed guilds was rather high, consisting of broadly oligophagous species. The plant phenology and adaptation of the aphids have resulted in associations which apparently represent seasonally significant sources of prey, their importance apparently increasing with the decreasing season. Antattendance was determined in both aphid species, and no adverse interference with the preying syrphid larvae was observed. In spite of an overall classification of the target plants as expansive weeds, they are classified positively as contributing to the enhancement of syrphid fly populations in the biocorridors in the cultivated landscape.     

Influence of altitude on adult emergence and dynamics ofKaltenbachiola strobi (Winnertz) (Diptera: Cecidomyiidae) populations and its parasites in the Tatra National Park, Poland

A field study onKaltenbachiola strobi (Winnertz) (Diptera: Cecidomyiidae), was carried out between 1987 and 1993 in the highest mountain range in the Western Carpathians located within the Tatra National Park, in southern Poland. Rearing and analysis of 5 780 cones ofPicea abies (L.)Karst., collected from trees growing at different altitudes, yielded 30,478 individuals ofKaltenbachiola strobi, which infested 89.10% of the cones. In case of 29.81% of cones there were more than 20 larvae ofK. strobi per cone. It was shown thatK. strobi in the Tatra Mts. is more abundant in spruce stands of the upper mountain forest zone. Significant connections between the time of cone infestation byK. strobi and its parasitoids and characteristic phenophases in spruce foliage and cone development, and also the development of selected vegetation of the forest floor at different heights above sea level were determined. It was shown that the population dynamics ofK. strobi had tendency to alternate the increase and decrease in numbers every two years. It was also discovered that every two years spruce cones were inhabited by the population ofK. strobi with increased percentage of individuals having prolonged diapause. In total, the parasitoids reduced the population ofK. strobi by about 16–22.63%. Parasitism ofK. strobi in the lower mountain forest zone was higher than in the upper zone.Triplatygaster contorticornis Ratz. (Hymenoptera: Platygasteridae),Torymus azureus Boheman (Hymenoptera: Torymidae) andTetrastichus strobilanae Ratz. (Hymenoptera: Eulophidae) were most effiecient in reduction of the population ofK. strobi, and in the lower mountain forest zoneT. azureus was the dominant parasitoid species, while in the upper zoneT. contorticornis andT. strobilanae. It was shown that a considerable part of the populations ofT. azureus, T. contorticornis andT. strobilanae have their diapause prolonged and highly synchronized with the diapause of their host.     

Effects of organic wastes,Glomus intraradices andPseudomonas putida on the growth of tomato and on the reproduction of the Root-knot nematodeMeloidogyne incognita

Effects of organic wastes (biosolids, horse manure, sawdust and neem leaf litter [NLL]), an arbuscular mycorrhizal (AM) fungusGlomus intraradices, and a plant growth-promoting rhizobacteriumPseudomonas putida, were studied on the growth of tomato and on the reproduction ofMeloidogvne incognita. Pseudomonas putida andG. intraradices promoted tomato growth in nematode-infected and nematode-free plants but growth promotion was higher in the infected ones. WhenP. putida andG. intraradices were applied together, the increase in tomato growth was greater than when either agent was applied alone. Of the organic wastes, NLL was better in improving tomato growth of nematode-infected plants followed by biosolids, horse manure and sawdust. Combined use of NLL withP. putida plusG. intraradices was best in improving growth of the infected plants. Root colonization byP. putida was increased more when inoculated withG. intraradices than when inoculated singly. Of the organic wastes, use of sawdust withP. putida caused a greater increase in root colonization by fluorescent pseudomonads followed by NLL, horse manure and biosolids. Nematode parasitism had an adverse effect on root colonization byP. putida. Inoculation ofP. putida and organic wastes increased the root colonization caused by the AM fungus.P. putida was better in reducing galling and nematode multiplication thanG. intraradices, whereas use of the two together was better than that of either of them alone. Among organic wastes, NLL was better in reducing galling and nematode multiplication followed by biosolids, horse manure and sawdust. Combined use of NLL withP. putida plusG. intraradices was better in reducing galling and nematode multiplication than any other treatment.     

Bestaat er een verband tusschen het voorkomen van black heart en het optreden van virusziekten bij den aardappel?

Summary Biourge andSokal have claimed: firstly: Black heart is not caused by lack of oxygen, followed by suffocation of central part of the tuber, but it results from attack byBacillus mesentericus vulgatus;Flugge) andBacillus mesentericus ruber (Globig); Secondly: Tubers suffering from black heart develop plants suffering from the diseases, which have been ascribed to viruses. Therefore it is not necessary to suppose the existance of viruses. This type of disease is caused by the bacilli mentioned. Sanitation of the plants can be performed by keeping the tubers during 48 hours at 42 centigrades. The tubers withstanding this heating without turning black develop virus-free plants. The present author however has, in controlling experimentally the work of the writers mentioned above, not been able to detect any relation between the occurrence of black heart in the tubers and of viroses in the sprouts. Sensibility for black heart proved to be more dependent on the climate and the soil, than on hereditary characters of the potato variety. Between the melanine-value (as aimed byHaehn) and the intensity of black heart, thus far no correlation has been found by the present author.     

Induction of peroxidase as a disease resistance response in resistant (<Emphasis Type="Italic">Hibiscus trionum</Emphasis>) and susceptible (<Emphasis Type="Italic">Althea armeniaca</Emphasis>) species in the family malvaceae

The pathogen-induced biosynthesis of peroxidase (PO) in resistant and susceptible wild species of Malvaceae was studied. Specifically,Hibiscus trionum was found to be resistant to the wilt pathogenVerticillium dahliae, andAlthea armeniaca was susceptible. After inoculation withV. dahliae, PO activity increased more rapidly in the resistant plant: increased activity inH. trionum was noted within 1 h after inoculation, remained high for 5 h, and decreased after 18 h. After 5 days, the levels did not differ from the control. In the susceptibleA. armeniaca, PO activity did not differ statistically from the control even after 18 h, but was significantly higher after 5 days. Electrophoretic analysis of inoculated tissue extracts showed the occurrence of two new isoforms inh. trionum after inoculation; new isoforms did not occur inA. armeniaca. A chitin affinity chromatography column showed the presence of a chitin-binding peroxidase isozyme in healthyH. trionum that increased dramatically after inoculation. Two chitin-binding peroxidase isozymes were observed in healthyA. armeniaca: one (R _f 0.26) did not increase and the other (R _f 0.89) evinced only a small increase after inoculation.     

Over de cicadellidenfauna van de kers

Summary In connection with the investigation of a possible vector of the Eckelrader virus disease of sweet cherry in the Netherlands, an examination was made of the leaf hopper fauna of cherry. Five species were found breeding regularly on this hostplant viz.Typhlocyba quercus (F.),Erythroneura alneti (Dhlb.),Erythroneura flammigera (Geoffr.),Empoasca flavescens (F.), andEupteroidea stellulata (Burm.). Some details about their biology are given. Other leafhopper species found on cherry, but which are probably only there by accident, are mentioned.      

Chemical Control of Heterodera rostochiensis Woll.1)

In Dutch field experiments with Heterodera rostochiensis Woll. systemic nematicides at low and high nematode densities resulted in unfavourable cost/ benefit relations, as compared to other control procedures; on average, a 50 % reduction of the maximum multiplication of the nematode was observed. In England, better results were obtained at high nematode densities when higher dosages of nematicides were worked into the soil at a depth of 15 cm. In order to obtain a better effect of the mostly used contact nematicide DD-mixture at a moderate dosage, a special treatment of the soil surface with the non-fumigant dazomet was combined with the fumigation. On clay soil more than 99 % kill of stem nematodes was obtained with 30 g dazomet + 50 ml DD-mixture per m When 10 g dazomet was added a 80% kill of Rolylenchus uniformis (Thorne) could be obtained on sandy soil; this was equivalent to 2 applications of the DD-mixture alone. The combined treatment offers the great advantage of increasing the chances by 3 times to make the appropriate choice of the year for the treatment. Eggs of R. uniformis and H. rostochiensis are less susceptible to DD-mixture than free living larvae and adults.     

Pathogenic fungi involved in root rot of peas in the Netherlands and their physiological specialization

Research on root rot pathogens of peas in the Netherlands has confirmed the prevalence ofFusarium solani, F. oxysporum, Pythium spp.,Mycosphaerella pinodes andPhoma medicaginis var.pinodella. Aphanomyces euteiches andThielaviopsis basicola were identified for the first time as pea pathogens in the Netherlands. Other pathogens such asRhizoctonia solani andCylindrocarpon destructans were also found on diseased parts of roots. F. solani existed in different degrees of pathogenicity, and was sometimes highly specific to pea, dwarf bean of field bean, depending on the cropping history of the field.A. euteiches was specific to peas, whereasT. basicola showed some degree of physiological specialization.     

Induction of systemic resistance toColletotrichum falcatum in sugarcane by a synthetic signal molecule, acibenzolar-S-Methyl(CGA-245704)

The effect of a novel synthetic signal molecule, acibenzolar-S-methyl (CGA-245704; benzo [1,2,3] thiadiazole-7-carbothioic acid S-methyl ester), in inducing resistance in sugarcane against red rot disease caused by the fungusColletotrichum falcatum Went was studied. Application of CGA-245704 as a soil drench or along with marcotting rooting mixture induced resistance in sugarcane to challenge inoculation withC. falcatum. When the pathogen was inoculated by the plug method, it caused discoloration in the untreated control stalk tissues; however, in the stalk tissues pretreated with acibenzolar-S-methyl, pathogen colonization was considerably reduced. When the pathogen was inoculated by nodal swabbing, its penetration was arrested in the sensitized stalk tissues. An induced systemic resistance effect was found to persist up to 30 days in the pretreated cut canes. Increased phenolic content and accumulation of pathogenesis-related (PR) proteins,viz., chitinase, β-1,3-glucanase and thaumatin-like protein (PR-5), were observed in sugarcane plants treated with acibenzolar-S-methyl.     

Selective accumulation of Trichoderma species in soils suppressive to radish damping-off disease after repeated inoculations with Rhizoctonia solani, binucleate Rhizoctonia and Sclerotium rolfsii

Artificial suppression of radish damping-off disease was induced by repeated soil inoculations with Rhizoctonia solani, binucleate Rhizoctonia (BNR) and Sclerotium rolfsii in pot systems. Soils repeatedly inoculated with R. solani and BNR showed suppressive to disease caused by R. solani and S. rolfsii, while soils repeatedly inoculated with S. rolfsii were suppressive to disease caused by S. rolfsii but not by R. solani. Species of Trichoderma were consistently isolated from soils repeatedly inoculated with R. solani, BNR and S. rolfsii. These Trichoderma spp. accumulated selectively in relation to the fungal species that was repeatedly added to the soils. The ratios of the frequencies of T. viride, T. harzianum and T. hamatum were 5:2:2 and 8:5:2 in soils repeatedly inoculated with R. solani and BNR, respectively. In S. rolfsii- inoculated soils, T. koningii was predominantly isolated. T. viride, T. harzianum and T. hamatum isolates obtained from either R. solani or BNR after repeated additions to the soils suppressed radish damping-off disease caused after challenge inoculations with R. solani or S. rolfsii. Among the Trichoderma species, T. viride consistently yielded high levels of suppression. However, isolates of T. koningii obtained from S. rolfsii-infested soils suppressed disease caused by S. rolfsii but failed to suppress disease caused by R. solani. Generally, the species of Trichoderma accumulated in a selective pattern that was closely related to the species of fungal pathogen used to induce the suppressive soil.     

Spread of Phytophthora Root and Crown Rot in Saintpaulia, Gerbera and Spathiphyllum Pot Plants in ebb-and-flow-systems

Spread of Phytophthora root and crown rot in three pot plant species was studied on ebb-and-flow benches where the nutrient solution was recirculated. The plant species and their respective pathogens were: Saintpaulia ionantha – P. nicotianae, Gerbera jamesonii – P. cryptogea, and Spathiphyllum wallissii – Phytophthora spp. Ebb-and-flow benches were infested with the pathogen using different methods: 18–25% of the plants on a bench were inoculated or potted in soil infested with the pathogen or the nutrient solution was infested by either zoospores or mycelium fragments. More than 80% of the inoculated Saintpaulia plants and 22% of plants potted in infested soil developed disease but no spread of the disease was observed. Infestation of the nutrient solution did not result in any diseased Saintpaulia plant. More than 70% of the Gerbera plants developed disease as a result of spread of the pathogen irrespective of the infestation method used. No significant spread of the disease was observed with inoculated Spathiphyllum plants nor from plants potted in infested soil. A few Spathiphyllum plants developed disease symptoms after infestation of the nutrient solution with zoospores. In one experiment, nearly all Spathiphyllum plants were diseased after infestation of the nutrient solution with mycelium fragments. The presence of an irrigation mat significantly reduced the spread of the Phytophthora disease in Gerbera and Spathiphyllum. The possibility of an irrigation mat acting as a filter for zoospores is discussed.     

Effect ofMelia azedarach fruit extract on juvenile hormone titer and protein content in the hemolymph of two species of noctuid lepidopteran larvae [insecta: Lepidoptera: Noctuidae]

The effect of an enriched methanolic extract ofMelia azedarach L. (Meliaceae) fruits on the size of the corpora allata (CA), the juvenile hormone (JH) titer and the protein content in the hemolymph of two lepidopteran pests in Egypt,Spodoptera littoralis (Boisd.) andAgrotis ipsilon (Hufn.), was studied. Different concentrations of the extract were incorporated into an artificial diet on which the larvae were allowed to feed. InS. littoralis, a significant reduction in the CA volume of larvae treated at the 1000 ppm extract levelvs that of control larvae was observed. In A.ipsilon, a reduction was found in the right CA gland only. Larvae of both species that had fed on a diet withMelia extract had a higher mean JH-II titer in the hemolymph than did control larvae. In both species, the content of hemolymph protein was decreased significantly after feeding for 6 days on a diet treated with concentrations above 50 ppm extract, followed by 6 days on a normal diet. The results show that aM. azedarach fruit extract has an effect on the neuroendocrine control in the insects. The effect on the hemolymph protein levels is discussed in connection with changes in the morphology/physiology of the gut.     

Over de vatbaarheid van niet-kruisbloemige planten voor het zoösporangium-stadium vanPlasmodiophora brassicae Woron

Samenvatting en bespreking Een vijftiental plantensoorten werd onderzocht op vatbaarheid voor het zoösporangium-stadium vanP. brassicae. Hiervan werdenTrifolium pratense, Reseda odorata enLolium perenne in zeer geringe mate, enPapaver rhoeas iets sterker aangetast. De mate van aantasting van deze laatste was echter nog aanzienlijk minder dan van als vergelijkingsobject gebruikte bloemkoolplantjes. Gezien deze resultaten is het niet waarschijnlijk, dat niet-cruciferen enigermate kunnen bijdragen tot de instandhouding of vermeerdering van de schimmel bij afwezigheid van kruisbloemigen. Evenmin is er reden te veronderstellen, dat niet-cruciferen als vangplanten voor het uitroeien van de rustsporen van groot practisch belang kunnen zijn.Summary Webb's (1949) discovery of zoosporangia ofP. brassicae in non-crucifers raises the question of further means of multiplication and survival in the soil (MacFarlane, 1952). Perhaps the fungus can maintain itself in successive generations of zoosporangia in root hairs of these plants. From there it might in turn infect crucifers and produce a fresh crop of resting spores. This must be kept in mind when considering the possibility of eradicating the fungus from the soil by growing non-crucifers which stimulate the resting spores to germinate. If survival in root hairs were important, plants for this purpose would need to resist the zoosporangial stage as well as stimulate spore germination.In the present study a number of non-crucifers was tested for susceptibility to the zoosporangial stage by a method already described (Kole, 1955). In addition, the rate of infection of susceptible non-crucifers was compared with that of cabbage grown under the same conditions. Of seven non-crucifers, not tested before, onlyTrifolium pratense became infected.MacFaralane's findings of non-cruciferous hosts were confirmed forPapaver rhoeas, Reseda odorata andLolium perenne (Table 1). In all the susceptible non-crucifers exceptPapaver rhoeas, infection was very sligth. There were more infections onPapaver rhoeas than on the other non-crucifers but fewer than on cabbage, which was heavily infected. On the basis of these results it is not thought that the occurrence of non-cruciferous hosts ofP. brassicae will generally be of great practical importance.