Effect of bryophytes on survival of conifer seedlings in subalpine forests of central Japan

Bryophytes form the major seedbed for coniferous trees in the subalpine forests of central Japan. Field experiments were conducted on the floor of a closed stand dominated byTsuga on Mt Fuji to examine the seedling survival ofAbies veitchii andTsuga diversifolia in seven substrate types in relation to the morphological characteristics of the seeds and seedlings. NeitherAbies norTsuga seedlings could survive on dwarf-bamboo litter beyond 2 years after the seed rain.Abies seedlings survived not only in all types of bryophyte communities but also in larch litter. In contrast, the survival ofTsuga seedlings was restricted to communities of smaller-statured bryophytes found on logs. The seeds and 1st year seedlings ofA. veitchii were larger than those ofT. diversifolia. Abies seedlings produced hypocotyls taller than any bryophyte community and radicles which were long enough to penetrate into the moist humus layer, whereasTsuga seedling radicles presumably penetrate into humus only in bryophyte communities forming a thin mat on logs. The effect of bryophytes on survival of tree seedlings therefore depends on the relationships between the morphology of seeds and seedlings and the structure of bryophyte communities.     

Production of parthenolide in organ cultures of feverfew

In vitro culture ofTanacetum parthenium (L.) Sch.Bip. was initiated from aseptically germinated seedlings. culture was derived from nodal explants of the seedlings on MS medium containing 4.44 μM (1.0 mg 1⁻¹ ) 6-benzylaminopurine (BA) and 0.54 μM (0.1 mg 1⁻¹) of α-naphthaleneacetic acid (NAA). Transformed roots were obtained by infection of the stems of aseptically grown seedlings withAgrobacterium rhizogenes LBA 9402. The parthenolide content in the cultivated plant organs was investigated by RP-HPLC. The production of the compound was strongly influenced by the genotype of the parent plant and ranged from 0.13% to 0.75% dry weight in the shoots of the rooted plantlets grownin vitro. The yield of the compound in multiple shoot cultures ofT.parthenium reached 60% of that found in the shoots of rooted plantlets. In contrast to shoots, only trace amounts of parthenolide could be detected in some clones of transformed roots and the roots of plantlets.     

Bio-production of compost with low pH and high soluble phosphorus from sugar cane bagasse enriched with rock phosphate

Summary Aspergillus niger and Trichoderma viride strains were used together as a fungal activator in the presence or absence of farmyard manure (FM) for composting of bagasse enriched with rock phosphate. Quality of the composts produced was compared with that obtained from non-inoculated bagasse. The composts were evaluated as organic phosphatic fertilizers, for broad bean plants. The results showed that composting of bagasse without microbial inoculation or FM addition was not complete after 105 days of fermentation. An excellent decomposition in a relatively short time however was obtained with the use of A. niger and T. viride as inoculant agents with or without FM. The inoculation with A. niger + T. viridewith or without FM, also represented the most suitable conditions for phosphate solubilization. Acidic conditions (pH 4–5) at the end of the experiment were obtained in all piles receiving Aspergillus niger and there was a correlation between the amounts of soluble phosphorus and the reduction in pH values in the compost piles. There were no phosphate-dissolving fungi present in any composted piles except those treated with Aspergillus niger and Trichoderma viride. The number of phosphate-dissolving bacteria increased only in the treatments that were treated with FM. The non-fertilized sandy soil and the non-inoculated bagasse compost did not provide broad bean plants with phosphorus while the composts produced by inoculation with A. niger + T. viride provided the plants with the highest amounts of phosphorus.     

Studies on some fungi isolated from the rhizosphere of tomato plants and the consequent prospect for the control of Verticillium wilt

Summary Biological control of Verticillium wilt disease with antagonistic micro-organisms was studied. Antagonism of some fungi, isolated from tomato rhizosphere, toVerticillium albo-atrum R & B. was observedin vitro. A clearly defined zone, in which the growth of the pathogen was inhibited, was observed withPenicillium spp. (includingPenicillium chrysogenum Thom) andFusarium culmorum (S.G. Sm) Sacc., whileTrichoderma viride pers. ex Fries,Gliocladium spp. andPenicillium vermiculatum Dangeard, suppressed the growth ofV. albo-atrum by penetrating, and overgrowing it. OnlyT. viride andP. vermiculatum culture filtrate added to the Dox's agar, reduced the radial growth ofV. alboatrum. Root-dip application of culture filtrates ofT. viride andP. chrysogenum was found to be most effective in controlling the disease, followed by other species ofPenicillium andGliocladium spp. WhileFusarium culmorum provided no control. Improvement of plant height and vigour with a better yield due to culture filtrate treatment occurred. Root-dip application of antagonistic fungal propagules (T. viride, P. chrysogenum) to tomato seedlings was also very effective in controlling wilt in tomato plants grown inV. albo-atrum infested soil. Dedicated to the memory of the late Prof. Ivor Isaac with whom I had the pleasure of working     

Acetylene reduction and indoleacetic acid production by Azospirillum isolates from Cactaceous plants

Azospirillum isolates were obtained from rhizosphere soil and roots of three cactaceae species growing under arid conditions. All Azospirillum isolates from rhizosphere and roots ofStenocereus pruinosus andStenocereus stellatus were identified asA. brasilense; isolates of surface-sterilized roots fromOpuntia ficus-indica were bothA. brasilense andA. lipoferum. Azospirilla per g of fresh root in the three species ranged from 70×10³ to 11×10³. The most active strains in terms of C₂H₂ reduction (25–49.6 nmol/h·ml) and indoleacetic acid (IAA) production (36.5–77 μg/ml) were those identified asA. brasilense and isolated from Stenocereus roots.A. lipoferum isolated from Opuntia roots produced low amounts of IAA (6.5–17.5 μg/ml) and low C₂H₂-reduction activity (17.8–21.2 nmol/h·ml).     

<Emphasis Type="Italic">In vitro</Emphasis> shoot regeneration from cotyledonary node explants of a multipurpose leguminous tree <Emphasis Type="Italic">Pterocarpus marsupium</Emphasis> Roxb.

Summary A protocol has been developed for in vitro plant regeneration from cotyledonary nodes of Pterocarpus marsupium Roxb. Multiple shoots were induced from cotyledonary nodes derived from 20-d-old axenic seedlings grown on Murashige and Skoog (MS) medium containing 2.22–13.32 μM benzyladenine (BA) or 2.32–13.93 μM kinetin alone or in combination with 0.26 μM α-naphthaleneacetic acid (NAA). The highest frequency of responding explants (85%) and maximum number of shoots per explant (9.5) were obtained on MS medium supplemented with 4.44 μM BA and 0.26 μM NAA after 15 wk of culture. A proliferating shoot culture was established by repeatedly subculturing the orginal cotyledonary nodal explant on fresh medium after each harvest of the newly formed shoots. Nearly 30% of the shoots formed roots after being transferred to half-strength MS medium containing 9.84 μM indole-3-butyric acid after 25 d of culture. Fifty percent of shoots were also directly rooted as microcuttings on peat moss, soil, and compost mixture (1∶1∶1). About 52% plantlets rooted under ex vitro conditions were successfully acclimatized and established in pots.     

<Emphasis Type="Italic">In vitro</Emphasis> shoot regeneration from cotyledonary node explants of a multipurpose leguminous tree, <Emphasis Type="Italic">Pterocarpus marsupium</Emphasis> roxb

Summary A protocol has been developed for in vitro plant regeneration from cotyledonary nodes of Pterocarpus marsupium Roxb. Multiple shoots were induced from cotyledonary nodes derived from 20-d-old axenic seedlings grown on Murashige and Skoog (MS) medium containing 2.22–13.32 μM benzyladenine (BA) or 2.32–13.93 μM kinetin alone or in combination with 0.26 μM α-naphthaleneacetic acid (NAA). The highest frequency for shoot regeneration (85%) and maximum number of shoots per explant (9.5) were obtained on the medium supplemented with 4.44 μM BA and 0.26 μM NAA after 15 wk of culture. A proliferating shoot culture was established by repeatedly subculturing the original cotyledonary nodal explant on fresh medium after each harvest of the newly formed shoots. Nearly 30% of the shoots formed roots after being transferred to half-strength MS medium containing 9.84 μM indole-3-butyric acid (IBA) after 25 d of culture. Fifty percent of shoots were also directly rooted as microtuttings on a peat moss, soil, and compost mixture (1∶1∶1). About 52% of plantlets were successfully acclimatized and established in pots.     

Wood biodeterioration control potential of Acalypha hispida leaf phenolic extract in combination with Trichoderma viride culture filtrate

The phenolic extract of Acalypha leaves inhibited growth of Gloeophyllum sepiarium and Pleurotus sp. (test wood-rot fungi) in potato dextrose agar, starch agar, starch glucose agar, carboxyl methyl cellulose agar and carboxyl methyl cellulose glucose agar. Fungicidal or fungistatic concentration of the extract (10–14 mg/ml) depended on the medium. However a lower concentration of the extract (8–10 mg/ml) in combination with Trichoderma viride culture filtrate caused a similar inhibitory pattern. Degradation of obeche (Triplochiton scleroxylon), mahogany (Khaya ivorensis) and walnut (Lovoa trichilioides) by the test fungi was limited or prevented by extract treatment of 8–10 mg/g wood. A similar inhibitory effect again occurred when a combination of T. viride filtrate and lower extract concentration (6–8 mg extract per gram of wood) was used. On-going wood decay was limited or halted by a combined treatment involving 8–12 mg extract per gram of wood depending on the fungal residence period. Treated stakes exposed to 6 months of tropical wet season retained resistance to fungal attack including soft rot. The phenolic extract of A. hispida may prove useful in an integrated chemical and biological approach to wood treatment.     

Restoration of vigor and rooting competence in stem tissues of mature citrus by repeated grafting of their shoot apices onto freshly germinated seedlings in vitro

Summary Repeated grafting of 0.2-cm shoot tips from fruiting-age trees ofCitrus reticulata Blanco ‘Ponkan’ mandarin andC. sinensis Osbeck ‘Liu Tseng’ sweet orange onto freshly germinated ‘Troyer’ citrange [Poncirus trifoliata (L.) Raf. X.C. sinensis Osbeck] seedlings in vitro resulted in progressive restoration of rooting competence and vigor of regenerated roots and shoots. The restored traits were retained through the course of the investigation and suggested a phase reversal phenomenon.     

Selection and micropropagation of nodulating and non-nodulating clones ofAlnus crispa (Ait.) Pursh

Summary 600,000 seedlings ofAlnus crispa were inoculated with a 111 mixture of theFrankia strains ACN1 ^AG , AGN1 _exo ^AG and MGP10i. After 3 successive inoculations and screenings, one individual, AC-4, was selected as non-nodulating (Nod^–) with Frankiae. This selected individual AC-4 (Nod^–) and two other clones ofA. crispa, AC-2 and AC-5, known for their ability to nodulate (Nod⁺) and two other clones ofA. crispa, AC-2 and AC-5, known for their ability to nodulate (Nod⁺) withFrankia werein vitro propagated. The different clones ofA. crispa in culture required different kinds and concentrations of sugar during the in vitro multiplication and rooting stages. Nodulation tests using 7Frankia strains indicated that the clone AC-4 (Nod^–) was non-nodulating with 6 of the 7Frankia strains tested. One strain,Frankia ANNI, isolated from one unique nodule produced on the mother-plant AC-4, induced 38% of the AC-4 plantlets to nodulate but with a number of nodules 10 to 20 times less than the clones AC-2 (Nod⁺) and AC-5 (Nod⁺). Morphological observations of the roots of AC-4 (Nod^–) indicated that this clone had few and abnormally short root hairs.     

Artificial induction of the apple replant problem byPenicillium claviforme inoculation

Inoculation of apple seedling roots withPenicillium claviforme reduced plant growth and resulted in morphological changes of roots resembling those found in seedlings growing in ‘apple replant problem’ soil (apple-sick soil). The introduced fungus persisted in the rhizosphere throughout the 30-month test period. The numbers of colony-forming units (CFU) ofPenicillium claviforme, as well as the ‘total’ number of CFU of micromycetes, were higher in the rhizoplane of the inoculated seedling in comparison with uninoculated plants. The numbers of CFU of phytotoxic micromycetes in the rhizosphere soil of inoculated seedlings were also proportionally higher. Apple tree growth was also reduced when seedlings were inoculated with the flucrescent bacteriumPseudomonas putida; however, no morphological changes were observed in the roots. Both micro-organisms introduced into the apple seedling rhizosphere caused changes in the microbial community. Inoculation withPenicillium claviforme andPseudomonas putida caused a decrease in the number of mycolytic bacteria in the rhizoplane of apple seedlings.     

Organic acids and water-soluble phenolics produced by Paxillus sp. 60/92 together show antifungal activity against Pythium vexans under acidic culture conditions

Ectomycorrhizal fungi can produce antifungal compounds in vitro as well as in symbiosis with the host plant that can reduce root diseases. The objective of this study was to isolate antifungal compounds from culture filtrate of Paxillus sp. 60/92, which can form mycorrhizas with Picea glehnii seedlings. Culture filtrate of Paxillus sp. 60/92 showed antifungal activity against Pythium vexans at pH 3–4 but not at pH 5–10, although sterile MMN-b liquid medium (pH 3–10) did not show antifungal activity. Upon separation of antifungal compounds in the culture filtrate, antifungal activity was detected in the organic acid and water-soluble phenolics fractions adjusted to pH 3. Although antifungal activity of individual fractions was lower than that of the culture filtrate, a mixture of these fractions showed antifungal activity similar to that of the culture filtrate. Furthermore, antifungal activity of oxalic acid, which is known to be produced by Paxillus involutus, was increased by mixing with the water-soluble phenolic fraction. Our findings indicate that Paxillus sp. 60/92 produces organic acids and water-soluble phenolics that together show antifungal activity at pH 3–4 against P. vexans.     

Interaction of yeasts and some nitrogen fixing bacteria on nodulation of legumes

Summary Combined inoculation ofRhizobium trifolii withSaccharomyces cerevisiae and other yeasts generally enhanced the number of nodules, length of plants and dry weight of Egyptian clover (Trifolium alexandrinum) seedlings grown on agar slopes. Similar effects were observed when seedlings were inoculated withR. trifolii in the presence of dialyzed culture filtrate ofS. cerevisiae.     

Agrobacterium rhizogenes-mediated transformation of Taraxacum platycarpum and changes of morphological characters

Transformed hairy roots were efficiently induced from seedlings of Taraxacum platycarpum by infection with Agrobacterium rhizogenes 15834. Root explants produced transformed roots at a higher frequency (76.5±3.5%) as compared to stem (32.7±4.8%) or cotyledon (16.2±5.7%). Hairy roots exhibited active elongation with high branching of roots on growth regulator-free medium. The competence of plant regeneration from non-transformed adventitious roots and transformed hairy roots was compared. The frequency of adventitious shoot formation from transformed roots was much higher (88.5±9.8%) than that of non-transformed roots (31.7 ±9.5%) on hormone-free medium. Rooting of hairy root-derived adventitious shoots occurred easily on growth regulator-free medium but no rooting was observed on non-transformed shoots. The stable introduction of rol genes into Taraxacum plants was confirmed by PCR and Southern hybridization. Transgenic plantlets showed considerable differences in their morphology when compared to the corresponding wild-type (non-transgenic) plants. Plantlets formed from transformed roots had numerous fibrous roots with abundant lateral branches instead of the thickened taproots in non-transformed plants. The differences observed may reflect the modification of morphological root characters by introduction of rol genes.Communicated by M.R. Davey     

Seasonal variation of growth and development of the roots of five second year conifer species in the nursery

Every other week over their second growing season, stem height, collar diameter, shoot and root dry masses, number of lateral roots and length of the tap root were measured on nursery grown seedlings ofAbies balsamea L. Mill.,Pinus banksiana Lamb.,Pinus resinosa Ait.,Picea mariana Mill. BSP andPicea glauca Moench Voss. Root elongation, branching and mycorrhizal development were also recorded.Given species showed distinct seasonal growth patterns. The rate and timing of maximum root growth (mg/dry weight/week) differed markedly between species.Except for the increase in height ofPinus banksiana, root and shoot growth were not negatively correlated.The results are discussed in relation to the performance of tree seedlings in the nursery.     

Ectomycorrhiza formation ofTricholoma matsutake onPinus densiflora

Mycorrhizal association ofTricholoma matsutake withPinus densiflora was studied. A naturally establishedP. densiflora stand (age: ca. 45 yr) where occurrences ofT. matsutake sporocarps had been confirmed was studied in lbaraki Prefecture, Japan. Pine root systems connected withT. matsutake sporocarps via the fungal white mycelia were sampled in October 1997. The sampled pine roots were covered overall with mycelia. Under a dissecting microscope, the mycelia were confirmed to form fungal sheaths on the lateral roots. Under a light microscope, transverse and longitudinal sections of these roots showed the presence of both fungal sheaths and Hartig nets, which are typical of ectomycorrhizas. The fungal sheath was ca. 1.5–20 μm. in thickness, and felt prosenchymatous in texture. Hartig nets developed continuously at the cortex and extended to the boundary between cortical cells and endodermal cells. The same ectomycorrhizal morphotype on the pine was also recovered from inside the same mycelial colony (i.e., “shiro”) ofT. matsutake from winter to summer. These results suggest thatT. matsutake has a perennial ectomycorrhizal association withP. densiflora.     

Control of the take-all fungus byMicrodochium bolleyi,and interactions involvingM. bolleyi,Phialophora graminicola andPericonia macrospinosa on cereal roots

Summary In glasshouse experiments,Microdochium bolleyi (Mb) significantly reduced infection of wheat roots by the take-all fungus,Gaeumannomyces graminis vartritici (Ggt), when inocula were dispersed in soil at ratios of 10∶1 (Mb:Ggt) or more. Spread of take-all lesions up roots from a layer of inoculum also was reduced when Mb was inoculated immediately below the crown. In contrast,Periconia macrospinosa did not control take-all even at an inoculum ratio of 100∶1. M. bolleyi interfered with growth on roots byPhialophora graminicola, a known biocontrol agent of take-all. It is suggested that this phenomenon and control of take-all by these fungi occur by competition for cortical cells that senesce in the normal course of root development.     

Saccharification of used paper with different cellulases

Various used paper materials have been exposed to the action of cellulases from Penicillium funiculosum, Trichoderma reesei, Trichoderma viride and Aspergillus niger. A 2 h incubation period showed cellulase from T. viride the most active except for office paper that was maximally degraded by A. niger cellulase. Cellulase mixtures increased saccharification while sequential treatment with cellulases from T. reesei and P. funiculosum increased biodegradation at values between 15% and 190%. The maximum increase of saccharification (190%) was obtained when T. reesei cellulase initiated the sequential treatment of newspaper relative to the sole action of P. funiculosum cellulase on this non-pretreated and pretreated material.     

Colonization of the root zone ofAmmophila arenaria by harmful soil organisms

The role of harmful soil organisms in the degeneration ofAmmophila arenaria at coastal foredunes was examined by the growing of seedlings ofA. arenaria in soil samples collected from its root zone. Three sites, each representing a successive stage in foredune succession were examined: (1) a highly mobile dune (sand accretion of 80 cm year⁻¹) with vigorousA. arenaria, colonizing only the upper 30-cm of the annually deposited layer of sand, (2) a mobile dune with vigorousA. arenaria (sand accretion of 22 cm year⁻¹) and a 1-metre soil profile completely colonized by roots and (3) a stable dune (no sand accretion) with degeneratedA. arenaria and young roots mainly present in the upper 0–10 cm. In the upper part of the highly mobile site, the presence of harmful soil organisms was confined to the root layers and at the mobile site for all depth layers a significant growth reduction ofA. arenaria was observed due to the activity of harmful soil organisms. At the stable site, however, growth had only been reduced in some of the depth layers. At all sites newly formed roots ofA. arenaria had been colonized by harmful soil organisms within one year. If present in sand prior to root growth harmful soil organisms reduced root length and root hair formation severely and they enhanced branching of the roots. It is concluded that harmful soil organisms initiate degeneration ofA. arenaria in stable dunes by attack of the root system, which makes the plants suffer from abiotic stress.     

<Emphasis Type="Italic">Penicillium frequentans</Emphasis> isolated from<Emphasis Type="Italic"> Picea glehnii</Emphasis> seedling roots as a possible biological control agent against damping-off

Picea glehnii seedlings are affected by damping-off fungi in nurseries. The aims of this study were (1) to isolate fungi grown in the seedling rhizosphere in forest soil of P. glehnii, (2) to select fungi that produce antifungal compounds against Pythium vexans, and (3) to examine whether or not selected fungi can protect seedlings from P. vexans. Penicillium frequentans from Picea glehnii seedling roots produced antibiotic penicillic acid. Penicillic acid did not cause significant phytotoxicity to the seedlings. Penicillium frequentans increased the average percentage of surviving seedlings when inoculated together with Pythium vexans, but the increase was not significant. Vigorous mycelial growth of P. frequentans around seedling roots seems to be one of the mechanisms for protection, but the amount of penicillic acid was too low to show antifungal activity in the seedling rhizosphere.