The isolation,culture and infectivity of aFrankia strain fromGymnostoma papuanum (Casuarinaceae)

A strain ofFrankia was isolated fromGymnostoma papuanum(Casuarinaceae) nodules harvested from rooted cuttings which had been inoculated with a suspension of crushedCasuarina equisetifolia nodules. Designated HFPGpI1 (catalogue #HFP021801), this strain is pigmented and similar to other pigmentedFrankia strains in cultural characteristics. A previously unknown spiraled hyphal morphology was observed at very low frequency in some cultures of this strain. HFPGpI1 is infective and effective onG. papuanum but not on anyCasuarina species tested. It also infects members of the family Elaeagnaceae andMyrica gale. The host plantG. papuanum can be infected with a wide range ofFrankia isolates and thus can be considered a promiscuous host, unlike its close relatives in the genera Casuarina and Allocasuarina which are very restrictive as to which strains may nodulate them.     

THE RED ALGAL EPIPHYTES MICROCLADIA COULTERI AND M. CALIFORNICA (RHODOPHYCEAE,CERAMIACEAE). II. BASIPHYTE SPECIFICITY1

The phenomenon of basiphyte specificity in the settlement and growth of the red algal epiphytes Microcladia californica Farl. and M. coulteri Harv. was examined by studying the interface with their respective basiphytes and by cross-inoculation experiments. Microcladia californica attaches only to the surface of its single basiphyte Egregia menziesii (Aresch.) Turn. whereas M. coulteri penetrates the tissue of a wide range of basiphytes. The pattern of primary rhizoid development in both epiphytes determines the mode of attachment and may influence the range of basiphytes possible for each epiphyte. Cross-inoculation experiments show that Microcladia californica is not able to colonize the basiphytes of M. coulteri, Iridaea and Prionitis, or Ulva. The mechanisms by which these algae restrict the growth of epiphytes include short life-span, “cuticle peeling” and chemical defense. Microcladia coulteri, which naturally colonizes Iridaea and Prionitis, has evolved mechanisms to counteract the antifouling effects of those basiphytes. The question of why Egregia is the exclusive substratum for M. californica remains undetermined. However, Egregia may provide the appropriate ecological conditions and a surface topography conductive to M. californica spore settlement and growth.     

Phylogenetic analyses and cross-infection studies of Phytophthora species infecting cacao and durian in South-Central Mindanao,Philippines

Phytophthora pathogens have contributed largely to the production losses of plantation crops such as cacao and durian. Correct identification and knowledge of the diversity of the pathogen is a requisite in the formulation of effective management strategies. Fifty-eight putative Phytophthora isolates were collected from cacao and durian orchards in South-Central Mindanao, Philippines, with 43 from cacao and 15 from durian. Molecular identification of isolates based on DNA sequences of the internal transcribed spacer (ITS), partial β-tubulin (β-tub) and mitochondrial gene (cox2+spacer) regions combined with morphocultural characterization identified 57 Phytophthora palmivora isolates from cacao and durian typically showing variations in colony morphology and sporangial shape. However, these variations were not phylogenetically informative. One Phytophthora meadii (CDDS-P3) causing pod rot of cacao was phylogenetically isolated from P. palmivora. Phylogenetic analysis of isolates using combined ITS, β-tubulin (β-tub) and mitochondrial (cox2+spacer) DNA regions showed an intraspecific variation within P. palmivora. Representative isolates of P. palmivora used for cross-inoculation showed more aggressiveness on its original host with higher lesion diameter and less aggressiveness on its potential hosts with smaller lesion diameter on artificially inoculated detached plant part. All Phytophthora isolates were tested pathogenic to cacao, durian and its potential hosts (rubber and coconut); therefore, cross-infection in the field is possible in an intercrop system. Implementation of combined control strategies should be done against highly diverse pathogens such as P. palmivora and the potentially destructive pathogen P. meadii, which was tested pathogenic and virulent to its original (cacao) and potential hosts (coconut, durian and rubber).     

Nodulation of Trifolium repens with modified Bradyrhizobium and the nodulation of Parasponia with Rhizobium leguminosarum biovar trifolii

Thirty one strains of Rhizobium leguminosarum biovar trifolii isolated from the North and South American continents, New Guinea, USSR, Turkey and Australia, nodulated P. andersonii ineffectively when grown in plant growth tubes and in Leonard jars. Nodules were slow to form, sometimes taking over 100 days. Reisolates of R. leguminosarum biovar trifolii from P. andersonii nodulated Trifolium repens and their identity was confirmed using serological techniques. Dual occupation of nodules by Rhizobium and Bradyrhizobium in P. andersonii is reported. The reduced effectiveness of the Bradyrhizobium symbiosis depended on the relative numbers of Rhizobium occupants in this dual system. R. leguminosarum biovar trifolii and Bradyrhizobium strains from Parasponia were able to co-exist in nodules on P. andersonii and maintain similar populations in the rhizosphere and on culture media. Bradyrhizobium strains, separated from R. leguminosarum biovar trifolii, were able to initiate and form nodule-like structures on T. repens. Bradyrhizobium bacteria were identified as the sole occupants of the cells of the nodule-like structures on Trifolium repens using an immunogold labelling technique applied to ultrathin sectins. The re-isolates of Bradyrhizobium obtained from these nodule-like structures on T. repens were able to effectively nodulate P. andersonii.     

Pathogénie Comparée et Signe Sexuel des Isolats Marocains de Pyricularia grisea (Magnaporthe grisea) Originaires de Riz et de Stenotaphrum secundatum

Moroccan isolates of Pyricularia grisea (Magnaporthe grisea) from Oryza sativa and Stenotaphrum secundatum were crossed with standard fertile isolates (mating type Mat 1.1 and Mat 1.2) by using the three‐points culture method on oatmeal agar. Only Mat 1.1 isolates from rice were identified and considered to have only the ability to function as males, whereas no isolate from S. secundatum mated with Mat 1.1 or Mat 1.2. Cross‐inoculation studies using Pyricularia grisea (M. grisea) isolates from Oryza sativa and S. secundatum show that rice varieties cultivated in Morocco were susceptible to isolates originating from S. secundatum. Similarly, S. secundatum was susceptible to some isolates from O. sativa.     

PCR-amplified 16S rRNA sequence analysis to confirm nodulation of Datisca cannabina L. by the endophyte of Coriaria nepalensis Wall

Different Frankia strains and crushed nodule suspensions were tested for their ability to nodulate Coriaria nepalensis and Datisca cannabina. Datisca cannabina seedlings were nodulated effectively by both crushed nodule suspension from Coriaria nepalensis and Datisca cannabina. The origin of the endophyte in Datisca nodules induced by crushed nodules of Coriaria was confirmed by comparing partial PCR-amplified 16S rRNA sequences with those of the endophytes of both plants. Coriaria seedlings could only be nodulated by crushed nodule suspensions of Coriaria nepalensis. All pure cultures of Frankia used as a single inoculum source or in combinations with a nodule filtrate, failed to induce nodulation on Coriaria. Two atypical Frankia strains Cn3 and Cn7 isolated from Coriaria nodules showed no acetylene reduction activity and did not induce nodulation on the host seedlings.