The occurrence of nitrogen-fixing root nodules on non-leguminous plants

At present it is known that some 13 genera of non-leguminous Angiosperms include at least some species which bear root nodules with the property of nitrogen fixation. Alnus is the best known example. To assist in the assessment of the ecological importance of these plants, the author has surveyed the relevant literature to discover how many species in each of the genera have been recorded to bear noduleS. He also provides evidence of this feature in several species not hitherto reported. Of an estimated total complement of 342 species in the 13 genera, 118 species haye so far been recorded to bear nodules. The remaining species do not appear to have been examined for the presence of nodules.     

Some effects of combined nitrogen on the nodule symbioses of Casuarina and Ceanothus

Summary 1. The effect of ammonium-nitrogen on the further growth and activity in fixation of nodules already present at the commencement has been studied inCasuarina cunninghamiana growing in water culture and inCeanothus velutinus var.laevigatus in Peralite culture. 2. In Casuarina, at a low level of ammonium-nitrogen nodule growth remained similar to that in plants in nitrogen-free solution, but was stimulated in Ceanothus. In both genera nodule growth was strongly retarded at higher levels. 3. Fixation of nitrogen fell continuously in Casuarina as the level of ammonium-nitrogen was increased, while that in Ceanothus was unaffected at a low level but markedly decreased at a higher one. These effects were compounded from the changes noted in 2 and a tendency for the efficiency of nodule tissues in fixation to fall in the presence of ammonium-nitrogen, though this was not always shown. 4. In both genera but especially in Casuarina the growth of plants entirely dependent on nodule nitrogen was inferior to that of plants additionally supplied with ammonium-nitrogen. The reasons are discussed. 5. The results indicate the effects likely to be produced in the field as the soil nitrogen level rises through the action of the nodules of these species.     

Isolation and characterization of non-Frankia actinobacteria from root nodules of Alnus glutinosa, Casuarina glauca and Elaeagnus angustifolia

Actinobacterial isolates randomly obtained on nitrogen-free BAP medium from surface sterilized root nodules of Alnus glutinosa, Casuarina glauca and Elaeagnus angustifolia sampled from fields were reported. They were assigned on the basis of partial 16S rRNA sequences to Micromonospora, Nocardia and Streptomyces genera. The isolates have been screened for hydrolytic activities, indole acetic acid (IAA) and siderophores production, phosphate solubilization and antagonistic activities. Results suggest putative traits as plant growth promoting bacteria proprieties of the isolates that occur in unique association in root nodules of the three analysed actinorhizal host species.     

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.     

Non-leguminous root nodules in Japan

Summary Among plants native to Japan, nodule formation is confirmed in 14 species and varieties of Alnus, 10 of Elacagnus, 2 of Myrica and 1 of Coriaria, in a number of instances for the first time. Plants of 20 foreign species, in 8 genera, which bear nodules in their native countries, were raised in the nursery in Tokyo; only species of Alnus, Myrica and Ceanothus formed nodules. No nodules were found on native plants ofDryas octopetala var.asiatica. In a trial extending over 12 years evidence was obtained that the growth ofPinus thunbergii was benefited by underplanting withMyrica rubra, a result attributed to nitrogen fixation in the root nodules of the latter species. In the attempted isolation of the endophytes from the nodules of Alnus and other non-legume Angiosperms, although actinomycetes peculiar to the host species were usually obtained from the nodules, none of the isolates induced nodules in re-inoculation tests. Also from Podocarpus nodules actinomycetal and bacterial strains were commonly isolated; re-inoculation tests with these are in progress.     

Sterols of roots and nitrogen-fixing root nodules of some non-leguminous species

Sterols of both roots and nodules of three species of Alnus were found to consist only of sitosterol, whereas Casuarina cunninghamiana contained substantial amounts of campesterol, stigmasterol and sitosterol. In all four cases more sterol was extracted from nodules than from roots.     

Symbiotic and nonsymbiotic hemoglobin genes of Casuarina glauca.

Casuarina glauca has a gene encoding hemoglobin (cashb-nonsym). This gene is expressed in a number of plant tissues. Casuarina also has a second family of hemoglobin genes (cashb-sym) expressed at a high level in the nodules that Casuarina forms in a nitrogen-fixing symbiosis with the actinomycete Frankia. Both the nonsymbiotic and symbiotic genes retained their specific patterns of expression when introduced into the legume Lotus corniculatus. We interpret this finding to mean that the controls of expression of the symbiotic gene in Casuarina must be similar to the controls of expression of the leghemoglobin genes that operate in nodules formed during the interaction between rhizobia and legumes. Deletion analyses of the promoters of the Casuarina symbiotic genes delineated a region that contains nodulin motifs identified in legumes; this region is critical for the controlled expression of the Casuarina gene. The finding that the nonsymbiotic Casuarina gene is also correctly expressed in L. corniculatus suggests to us that a comparable non-symbiotic hemoglobin gene will be found in legume species.     

Non-leguminous seed plants in Southern Africa which fix nitrogen symbiotically

Summary Of the various groups of non-leguminous seed plants that have been implicated by workers in other regions in symbiotic nitrogen fixation, though on evidence varying in quality, the indigenous flora of southern Africa includes 1 species of Stangeria, 26 of Encephalartos, 4 of Podocarpus, 9 of Myrica, 1 of Psychotria, 41 of Pavetta, 19 of Dioscorea and 1 of Gunnera. It is probable that all the indigenous cycads bear the coralloid, alga-infested roots found on cycads of other regions; evidence that nitrogen fixation occurs in these structures is presented for two of the species. The indigenous podocarps bear the numerous, nodular structures on their roots found in other species, and tests with one species indicated that a very small fixation of nitrogen might be associated with the nodules. All the 9 species of Myrica were found to bear root nodules which are shown to fix nitrogen vigorously. All the indigenous species of Pavetta that were examined bear leaf nodules; tests on two species indicated that nitrogen fixation is associated with the nodulated leaves, but only to a slight extent, so that the plants are unable to make appreciable growth in a nitrogen-free rooting medium. In testing for the occurrence of nitrogen fixation the N¹⁵, acetylene-reduction and long-term growth methods were used.     

Host-Frankia specificity within the Casuarinaceae

Summary Fifteen species from three genera of the Casuarinaceae were inoculated with suspensions ofFrankia prepared from single nodule-lobes collected from different species and genera within the Casuarinaceae. Host-endophyte specificity was expressed mainly at the generic level. There was marked cross-inoculation within Casuarina and little nodulation ofCasuarina species from Allocasuarina sources with the exception of 3 sources ofFrankia fromA. torulosa which showed a high tendency to nodulateCasuarina species. Few sources from Casuarina nodulated species of Allocasuarina and while cross-inoculation within Allocasuarina was frequent it was less marked than within Casuarina. SomeFrankia inocula had wider host ranges than others, nodulating outside the genus or series of origin. It was not possible to determine if these apparent wider ranges in host spectra reflected genotypic differences betweenFrankia or were associated with the presence of more than oneFrankia strain in some inocula.     

Root Nodule Symbiosis II

Nodule-roots of Myrica cerifera (Southern Wax Myrtle) and Casuarina cunning hamiana (Australian Pine) have a negative geotropic curvature. Studies of their endogenotts auxin content revealed a pattern of correlation: the absence of detectable auxin when the geotropisni was negative. Non-nodulated roots of Myrica exhibited a normal positive geotropic curvature and possessed an auxin content within an anticipated range (10 mg/kg). Root nodules of Alnus species, whose roots exhibit a positive geotropic curvature, contained measurable endogenous auxin (20 mg IAA/kg). The presence of an indoleaectic acid oxidase system in Myrica and Casuarina root nodules has heen described and correlations are drawn between non-detectable endogenous auxin concentrations and high enzymatic activities. It is suggested that the negative geotropic curvature of the nodule-roots of Myrica and Casuarina is due to the presence of a sub-optimal concentration of auxin which in turn results from the activity of an indoleacetic aeid destroying system.     

Host range ofFrankia endophytes

Summary Cross-inoculation experiments with 10 pure cultured strains and 17 host species were carried out. The 10 strains were isolated from the root nodules on actinorhizal trees ranging in 9 species, 5 genera and 4 families. The host species belong to 5 genera. The pure cultured strains fromAlnus are of strong ability to infect different species of the same genus. The seedlings inoculated with these strains are able to nodulate normally. These strains can also infect and nodulate the seedlings ofMyrica californica, but not the seedlings of Elaeagnus, Casuarina andMyrica rubra. The pure cultured strains from Elaeagnus can infect and nodulate the host species in the same genus and family with an exception ofE. viridis vardelavayi, which can be only poorly nodulated by a few strains from Elaeagnus. The strains from Elaeagnus cannot infect the seedlings of Alnus andMyrica rubra. The results presented here suggest thatFrankia endophytes can be divided into two groups: Alnus group and Elaeagnus group.     

A comparison of two methods and different media for isolatingFrankia from Casuarina root nodules

Four species of Casuarina were raised in the glasshouse and inoculated with nodules collected from nine different geographical areas within Australia. Isolations ofFrankia were attempted from 10 of the Casuarina-Frankia nodule combinations using two methods, a nodule dissection and a filtration method. With both techniquesFrankia isolates were obtained from four of the 10Frankia sources. Spores were not observed in sections of nodules from the four sources from whichFrankia was isolated, whereas spores were observed in the remaining six nodule sources. For selected nodule sources a range of isolation media were tried, but no improvement in the isolation success rate was achieved. The effect of host species on ease of isolation was studied. The results obtained suggested it was theFrankia strain and not the host plant species which determined the ease of isolation from Casuarina nodules.     

Genetic diversity amongFrankia isolated from Casuarina nodules

The nodulation ability of variousFrankia strains isolated from the nodules of Casuarina were tested on two Casuarina species (C. equisetifolia andC. glauca), and onHippophaë rhamnoides. We found that the isolates could be separated into two groups, some of them being unable to reinfect the Casuarina host-plant but infective onH. rhamnoides. Other isolates effectively nodulated the original Casuarina host-plant. The second purpose of this study was to examine the genetic diversity among the Casuarina-isolated strains using well-characterized symbiotic genes as hybridization probes. We found a relationship between nodulation characteristics and hybridization patterns.     

Specificity among the Casuarinaceae in root nodulation byFrankia

Pure cultured isolates ofFrankia made from root nodules of plant species from among three genera of the host family Casuarinaceae were used in inoculation trials of seedlings grown in water culture. A large number of host species among the genera Allocasuarina, Casuarina and Gymnostoma from Australia, Papua New Guinea and other South Pacific Islands were tested. The most widely infectiveFrankia strains were CcI3 and AllI1; theFrankia strains with the narrowest host range within the Casuarinaceae were CcI2 and GpI1. Intrafamily cross-inoculations were uncommon. The most broadly receptive host species wasG. papuanum. For many species ofAllocasuarina tested, no infection by anyFrankia available for testing could be observed.     

Using matK sequence data to unravel the phylogeny of Casuarinaceae

Casuarinaceae are a Gondwanic family with a unique combination of morphological characters not comparable to any other family. Until recently, the 96 species in the family were classified in a single genus, Casuarina s.l. A recent morphological revision of the family resulted in the splitting of Casuarina s.l. into four genera-Allocasuarina, Casuarina s.s., Ceuthostoma, and Gymnostoma. This study uses matK sequence data from 76 species of Casuarinaceae and eight outgroup taxa to examine the phylogenetic structure within the Casuarinaceae. The study demonstrates the monophyly of the four genera and examines the relationships within the family; it tests the validity of the infra-generic subdivision of Allocasuarina; it discovers geography-based infra-generic subdivisions within Gymnostoma and Casuarina; and, finally, provides a molecular framework on which to trace the evolution of xeromorphy in the Casuarinaceae.     

Endophyte sporulation in root nodules of actinorhizal plants

All strains of isolated Frankia possess the genetic capacity to form sporangia since, when grown in vitro, they usually sporulate freely, depending on the physical and chemical environment in which they are cultured. Endophytic sporulation involving Frankia differentiation of sporangia within root nodules has been described in only 16 host species in 9 genera within six families of actinorhizal plants. From studies published to date, endophytic sporulation cannot be correlated with specific environmental conditions surrounding the host plants. Based on the literature and on previously unpublished observations from field and greenhouse studies, an account is given of the occurrence of sporulation in actinorhizal plants with emphasis on Alnus, Casuarina, Comptonia, Elaeagnus and Myrica . The possible role of the host plant in controlling Frankia sporulation as contrasted to the control exerted by the genetic constitution of the microbial symbiont is explored.     

Plant-endophyte symbiosis in non-leguminous plants

Summary A wide taxonomic range of non-leguminous dicotyledonous plants bear root nodules and are able to fix atmospheric nitrogen. These plants belong to the orders Casuarinales, Myricales, Fagales, Rhamnales, Coriariales, and Rosales. Actinomycetes are involved in the root-nodule symbiosis. Nitrogen fixation is inhibited by hydrogen and carbon monoxide. Combined nitrogen depress nodule formation, but nitrogen fixation still occurs in the presence of combined nitrogen in the medium. In nitrogen-free medium Alnus plants fix in one season of 48 weeks 500 mg N per plant and Ceanothus plants 760 mg N per plant. Fixation by the other plant species is about of the same order. Field estimates showed that the nitrogen increase of the soil was about 61.5–157 kg N per ha per annum, depending on the age of the trees, under Alnus, 58.5 kg N per ha per annum under Casuarina, about 60 kg N per ha per annum under Ceanothus, 27–179 kg N per ha per annum underHippopha? rhamnoides, and about 61.5 kg N per ha per annum underDryas drummondii with someShepherdia spp. Non-leguminous root nodules belong to two types: coralloid root nodules and root nodules where the apex of each nodule lobe produces a negatively geotropic root. The primary infection occurs through the root hairs where a curling effect is observed. In the host cells the endophyte presents itself in three forms: hyphae, vesicles and bacteria-like cells. Vesicles are probably associated with nitrogen fixation, whereas the bacteria-like cells function in the endophyte's survival and dispersal. The endophyte is an obligate symbiont. TheAlnus glutinosa endophyte has been isolated and grownin vitro in root-nodule callus tissue. However, the isolated endophyte produces only ineffective root nodules in re-inoculation tests.     

Root-nodule formation in non-leguminous angiosperms

Summary The world-wide survey under the IBP of root-nodule formation in non-leguminous Angiosperms is progressing reasonably satisfactorily, and it is anticipated that when all the results have been collated a useful body of new data will be yielded. In recent studies, also forming part of the IBP, in the author's laboratory, the nodules of further species in the genera Alnus, Myrica, Ceanothus, Coriaria and Dryas have been examined for nitrogen-fixing properties, with positive results. Also the extent to which the nodule endophytes from species of Alnus and Myrica respectively are able to symbiose satisfactorily with other host species in the same genus has been investigated, and the conclusion reached that especially in Myrica there is very considerable specialisation among the endophytes. A marked diurnal variation in the rate of fixation of nitrogen in the nodules of non-legumes growing in a glasshouse lit by daylight has been found, with maximal rates being attained around midday. The implication is that this is the period of the maximal availability of carbohydrates in the nodules, but actual analyses have so far failed to reveal this. Analyses of the amino acid composition of the nodules in several genera have shown that except in Alnus, where citrulline is prominent, asparagine is in most cases the dominant amino acid.     

Species distribution profiles of the neotropical orchids Masdevallia and Dracula (Pleurothallidinae,Orchidaceae); implications for conservation

The orchid genera Masdevallia and Dracula bear very strange and bizarre flowers. They are, however, very popular with plant enthusiasts and there is a fair amount of commercial trade in these genera. The genera belong to a sub-tribe of the orchids, the Pleurothallidinae, which otherwise mostly have small and insignificant flowers. The majority of the species of Masdevallia and Dracula have been reported from single localities and approximately two thirds of all species are found at three or fewer sites. Most genera in the sub-tribe have similar distribution patterns. Using published deforestation rates and species distribution profiles we calculate that 402 of the total 3405 pleurothallid species may have been driven to extinction by random deforestation events. It is possible that as many as 46 Masdevallia species and 14 Dracula species have already been lost and that annual extinction rates for the two genera are 1 and 0.3 species per year respectively. It has been suggested that the two genera should be protected, by listing them in CITES Appendix I. It is unlikely that embargoes on trade would change extinction rates caused by forest conversion. Such embargoes might actually hamper ex situ conservation efforts.     

The abilities of three Frankia isolates to nodulate and fix nitrogen with four species of Casuarina

Three isolates of Frankia from nodules of Casuarina sens, strict. (JCT287. JCT295 and 20607) were compared in their abilities to nodulate and fix N, when associated with four species of Casuarina ( C. cunninghamiana Miq., C. equisetifolia Forst., C obesa Miq. and C. glauca Sieb. ex Spreng) growing in a N-deficient soil.
All three Frankia isolates nodulated each of the four species of Casuarina . At 27 weeks after inoculation, growth (dry weight) of inoculated plants was 3.6 to 5.0 times greater than that of uninoculated plants. There were no significant differences in plant dry weight, the N concentration of shoots or roots, or the amount of N, fixed per plant among the Frankia isolates for each of the species of Casuarina studied. The infectivity and effectiveness in N, fixation of Frankia strain JCT287 with C. cunninghamiana was similar when two different defined media were used for culture of the inoculum.