Adaptation of Salt-tolerant <Emphasis Type="Italic">Myxococcus</Emphasis> Strains and their Motility Systems to the Ocean Conditions

More and more studies have indicated that myxobacteria are able to live in seawater conditions, which, however, can decrease the fruiting body formation ability and also the adventurous (A) and social (S) motility systems of the myxobacteria. To learn the adaptation mechanism of the salt-tolerant myxobacteria to marine conditions, we analyzed 10 salt-tolerant Myxococcus strains of their fruiting body formation and motility. The isolates were from marine samples and possessed different levels of salt tolerance. They had the dual motility system and formed fruiting bodies in the presence of suitable seawater concentrations. Some high salt-tolerant strains even lost their fruiting abilities in the absence of seawater. In response to the presence of seawater, the S-motility was found to be increased in the high salt-tolerants but decreased in the low salt-tolerants. The A-motility, on the other hand, was observed in all the salt-tolerant Myxococcus strains, but increased or decreased in response to the presence of seawater. Perceived shifts of fruiting body formation abilities and motilities discovered in the salt-tolerant Myxococcus strains suggested an ecological adaptation of myxobacterial social behaviors to the marine environments.     

Modifications du rythme de fructification de Coprinus congregatus par le dépôt de carpophores mûrs exogènes à la surface des cultures

Changes in Fruiting Rhythm of Coprinus congregatus by Addition of Exogenous Mature Sporophores on the Surface of Cultures. Researches were performed over the regulating effect of mature sporophores on the fruiting rhythm of Coprinus congregatus Bull. ex Fr. Placing exogenous mature fruit-bodies on the vegetative mycelium before the accomplishment of the first flush gives an abundant and perfectly synchronized fructification for this flush. But the fruiting rhythm is then disturbed: compared to control cultures, less sporophores are produced in the following flushes, and, in most cases, the cultures are finally characterized by fewer flushes than the controls. The nature of the substance(s) hypothetically produced by mature sporophores, which may regulate the production of other fruit-bodies, and, correlatively, the fruiting rhythm, is as yet unknown.     

Spatio–temporal Variations in Post‐dispersal Seed Fate1

The post‐dispersal fate of Chrysophyllum lucentifolium (a canopy tree; Sapotaceae) seeds was analyzed in French Guiana over three consecutive years. Experiments using 750 thread‐marked seeds were performed to investigate seed removal, predation, and caching by terrestrial vertebrates on howler monkey (Alouatta seniculus) defecation sites, where clumps of intact C. lucentifolium seeds were observed. Year‐to‐year variations in seed fate during the peak fruiting period were considered in relation to overall fruit and seed resource availability estimated by a raked‐trail survey. The effect of two forest areas, which differed in soil and floristic composition, was examined with conspecific fruiting tree density as a covariant. Exclosure versus open treatment was used to discriminate small rodents (not larger than a spiny rat) from other vertebrates. The presence of fresh howler dung did not affect seed fate after 20 days as shown by comparisons between defecation sites and control during the first year. There was a significant effect of year on the percentage of seeds remaining after 20 days. Low seed removal in 1995 and 1996 (compared to 1997) corresponded to higher overall fruiting and higher fruiting of C. lucentifolium, or the presence of alternative resources for rodents. An effect of forest area was observed on the seed removal rate, which varied with years and protection. Comparatively, an effect of forest area on the percentage of seeds lost was observed in 1996 and an effect of treatment on the percentage of seeds eaten was seen in 1995. The mode of seed caching suggested that spiny rats were the main seed remover. Results of this study suggest that greater seedling recruitment may occur when large fruit crop and high howler dispersal co‐occur with a lower impact of rodents (i.e., when rodents are saturated by abundant and diversified fruit resources such as in 1995). Such event synchrony, however, is highly unpredictable after only three years of study.     

Identification of new mutant alleles of <Emphasis Type="Italic">pcc1</Emphasis> in the homobasidiomycete <Emphasis Type="Italic">Coprinopsis cinerea</Emphasis>

It is known that a mutation in the pcc1 gene of the homobasidiomycete Coprinopsis cinerea leads to pseudoclamp development and fruit-body formation in a homokaryon without mating. In this study we characterize two strains that were reported previously to exhibit pseudoclamp development and fruiting without mating, together with six new mutants exhibiting the same phenotype. A frame-shift, nonsense, or intron splice site mutation was present within pcc1 in each of the eight mutants. The results suggest that the Pcc1 protein is a key element in a pathway(s) leading to pseudoclamp development and fruiting.     

Strain typing of shiitake (<Emphasis Type="Italic">Lentinula edodes</Emphasis>) cultivars by AFLP analysis,focusing on a heat-dried fruiting body

To validate strain typing by amplified fragment length polymorphism (AFLP) analysis in shiitake (Lentinula edodes) cultivars, the reproducibility of AFLP markers with DNA extracted from the heat-dried fruiting body was evaluated. DNAs were extracted from three different portions of the heat-dried fruiting body – the stipe, pileus, and gill – and AFLP analysis of all parts was carried out using two combinations of selected amplification primer pairs. AFLP profiles of DNA from the gill tissue of heat-dried fruiting body were almost identical to those of cultured mycelia in the same strains, although it was difficult to detect reproducible AFLP profiles from stipe and pileus DNA. These results indicated that AFLP analysis would be applicable for strain typing with heat-dried fruiting bodies of L. edodes by using the DNA extracted from gills.Contribution No. 364 of the Tottori Mycological Institute     

Flowering and fruiting phenology of Normanbya normanbyi (W. Hill) L. H. Bailey (Arecaceae), a palm endemic to the lowland tropical rainforest of north‐eastern Australia

Abstract Normanbya normanbyi (W. Hill) L. H. Bailey (Arecaceae) is a monoecious, arborescent palm with a very small distribution area within the Daintree rainforest in north‐eastern Australia. Our 2‐year study was focused on the reproductive phenology at the individual and population level. At the population level flowering peaked in the dry season, whereas fruiting was confined to the wet season. Each palm can bear up to three inflorescences/infructescences at the same time. Flowering of each inflorescence is separated from each other by a couple of weeks. A single inflorescence consists of about 1900 staminate and 800 pistillate flowers. The flowering of N. normanbyi is protandrous with a staminate phase lasting 40 days and a pistillate phase of approximately 2 weeks. Between both phases is a non‐flowering phase of about 9 days. Fruit ripening takes 21 weeks, with an average of about 280 ripe fruit per tree. Comparison of three study plots revealed a moderate synchrony of flowering and fruiting initiation in this species of palm. The male phase of flowering shows a higher degree of synchrony than the female phase at the population level. Seasonal regularity of flowering and fruiting peaks appears to be predictable. The general flowering and fruiting phenology of N. normanbyi follows a subannual pattern with a strong tendency towards a continual pattern.     

Phylogeny of Physarida (Amoebozoa,Myxogastria) Based on the Small‐Subunit Ribosomal RNA Gene,Redefinition of Physarum pusillum s. str. and Reinstatement of P. gravidum Morgan

Myxomycetes (also called Myxogastria or colloquially, slime molds) are worldwide occurring soil amoeboflagellates. Among Amoebozoa, they have the notable characteristic to form, during their life cycle, macroscopic fruiting bodies, that will ultimately release spores. Some 1,000 species have been described, based on the macroscopic and microscopic characteristics of their fruiting bodies. We were interested in Physarum pusillum (Berk. & M.A. Curtis) G. Lister, a very common species described with two variants, each bearing such morphological differences that they could represent two distinct species. In order to test this, we observed key characters in a large selection of specimens attributed to P.  pusillum, to its synonyms (in particular Physarum gravidum), and to related species. In addition, the small‐subunit ribosomal RNA gene was obtained from seven of these specimens. Based on these data, we provide a comprehensive phylogeny of the order Physarida (Eukaryota: Amoebozoa: Conosa: Macromycetozoa: Fuscisporidia). Morphology and phylogeny together support the reinstatement of P. gravidum Morgan 1896 with a neotype here designated, distinct from P. pusillum, here redefined.     

Diversity of Breadfruit (<Emphasis Type="Italic">Artocarpus altilis</Emphasis>, Moraceae) Seasonality: A Resource for Year-Round Nutrition<Superscript>1</Superscript>

Diversity of Breadfruit ( Artocarpus altilis , Moraceae) Seasonality: A Resource for Year-Round Nutrition. Breadfruit, Artocarpus altilis (Parkinson) Fosberg, is an important but underutilized staple crop cultivated throughout Oceania and much of the wet tropics. Indigenous peoples have selected and cultivated cultivars with different fruiting seasons to effectively extend fruit production for most of the year. In the present study, the seasonality of 219 breadfruit accessions originating from 17 Pacific island groups, the Seychelles, the Philippines, and Indonesia, and now growing in the National Tropical Botanical Garden’s (NTBG) Kahanu Garden, Hana, Hawaii, were evaluated. The predominant season of male flower production for most cultivars was from May to September, and fruit was produced most frequently between August and January. However, there were differences in the duration of the fruiting season from year to year and among cultivars. Over the 10-year period, 14 cultivars did not reliably produce fruit; most of this group were ‘ulu afa’ trees collected from Tokelau. About 24 cultivars exhibited very little seasonality and produced fruit throughout the year. The rest of the cultivars could be clustered into seasonality groups with characteristic fruiting patterns. Comparison of literature values indicates that unlike Hawaii, the breadfruit season in most locations begins around the date the sun reaches zenith prior to the summer months and extends throughout the summer months. Five cultivars asexually propagated from the NTBG collection growing in Kiribati (1°28′ N) exhibit similar fruiting patterns as in Hawaii, except that they begin 2–3 months earlier. These data predict that cultivars with complementary fruiting seasons in Hawaii may experience a temporal shift in their seasonality but will maintain their compatibility when cultivated in different locations and could enable year-round fruit production in many regions.     

Changes in phenol oxidases and superoxide dismutase during fruit-body formation of <Emphasis Type="Italic">Pleurotus </Emphasis>on sawdust culture

 Peroxidase and laccase activities increased rapidly up to the formation of primordia and then declined throughout the entire stage of fruiting. In the case of Pleurotus ostreatus, the level of Mn-dependent peroxidase was very low in primordia and fruiting stages but gradually increased with the growth of the fruit-body, whereas no activity was detected in Pleurotus sajor-caju during all growth stages. Superoxide dismutase activity was observed mainly at the fruiting stages. These results show that changes in concentration of lignin-related enzymes are associated with the fruiting process. Received: December 11, 2000 / Accepted: March 28, 2002     

Bed and bed-site reuse by western lowland gorillas (<Emphasis Type="Italic">Gorilla g. gorilla</Emphasis>) in Moukalaba-Doudou National Park,Gabon

In this paper we describe bed (nest) and bed-site reuse by western lowland gorillas (Gorilla g. gorilla) in Moukalaba-Doudou National Park, south-eastern Gabon. During an eight-month study 44 bed sites and 506 beds were found. Among these, 38.6% of bed sites and 4.1% of beds were reused. We analyzed the monthly frequency of bed-site reuse in relation to rainfall, fruit abundance, and fruit consumption by the gorillas. The different frequency of bed-site reuse in the rainy and dry seasons was not significant. More bed-site reuse was observed during the fruiting season than during the non-fruiting season. Results from fecal analysis suggested that gorillas ate more fruit in the fruiting season than in the non-fruiting season. The frugivorous diet of western gorillas may possibly cause gorillas to stay in some areas and, consequently, reuse their bed sites. Reuse of bed sites by gorillas suggests their frequent return to an area where preferred fruit is readily available. A higher percentage of arboreal beds may also affect bed-site reuse, because of the shortage of bed material.     

Variation of bioactive secondary metabolites in <Emphasis Type="Italic">Hypericum origanifolium</Emphasis> during its phenological cycle

The genus Hypericum has received considerable interest from scientists, as it contains the variety of structurally diverse natural products which possess a wide array of biological properties. The present study was conducted to determine ontogenetic and morphogenetic variation of hypericin, chlorogenic acid and flavonoids, as rutin, hyperoside, apigenin-7-O-glucoside, quercitrin and quercetin content in Hypericum origanifolium growing in Turkey. Wild growing plants were harvested at vegetative, floral budding, full flowering, fresh fruiting and mature fruiting stages and dissected into stem, leaf and reproductive tissues and assayed for bioactive compounds by HPLC method. Hypericin, quercetin and quercitrin content in whole plant increased during course of ontogenesis and the highest level was reached in blooming stage. On the contrary, hyperoside content of whole plant decreased linearly with advancing of development stages and the highest level was observed at vegetative stage. Plants produced similar amount of chlorogenic acid at all stages of plant phenology except for mature fruiting at which the amount of this compound was decreased sharply. Among different tissues, reproductive parts accumulated the highest level of hypericin, quercetin and quercitrin, however, leaves produced substantially higher amount of chlorogenic acid and hyperoside. Rutin and apigenin-7-O-glucoside were detectable in all tissues only during fruit maturation. The presence and variation of these bioactive substances in H. origanifolium were reported for the first time.     

Isolation and characterization of α‐(1→3)‐glucan‐degrading bacteria from the gut of Diaperis boleti feeding on Laetiporus sulphureus

Bacteria degrading α‐(1→3)‐glucan were sought in the gut of fungivorous insects feeding on fruiting bodies of a polypore fungus Laetiporus sulphureus, which are rich in this polymer. One isolate, from Diaperis boleti, was selected in an enrichment culture in the glucan‐containing medium. The bacterium was identified as Paenibacillus sp. based on the results of the ribosomal DNA analysis. The Paenibacillus showed enzyme activity of 4.97 mU/cm³ and effectively degraded fungal α‐(1→3)‐glucan, releasing nigerooligosaccharides and a trace amount of glucose. This strain is the first reported α‐(1→3)‐glucan‐degrading microorganism in the gut microbiome of insects inhabiting fruiting bodies of polypore fungi.     

Dikaryotic fruiting body development in a single dikaryon of <Emphasis Type="Italic">Agrocybe aegerita</Emphasis> and the spectrum of monokaryotic fruiting types in its monokaryotic progeny

Using monokaryotic offspring from several dikaryotic parental strains, the phenomenon of monokaryotic fruiting has been previously analysed in the commercially cultivated high-quality edible mushroom Agrocybe aegerita, revealing a variety of monokaryotic fruiting types. Here, we report a single dikaryotic A. aegerita strain, A. aegerita AAE-3, and 40 monokaryons derived from it, which exhibit a wide spectrum of monokaryotic fruiting types, including a rare, previously unknown type. Advantageously, the selected parental strain A. aegerita AAE-3 completes its life cycle within three weeks by the formation of dikaryotic fruiting bodies of typical agaric morphology on malt extract agar plates. In order to morphologically compare normal dikaryotic fruiting to monokaryotic fruiting, histology was performed from all dikaryotic fruiting body development stages and all fruiting types of monokaryotic origin. No clamp connections or dikaryotic hyphae were observed within the plectenchyma of monokaryotic fruiting stages. Among the monokaryotic fruiting types of the A. aegerita AAE-3-derived monokaryons, we also characterised the rare ‘stipe type’ here described as ‘elongated initials type’ as no differentiation into a future cap and stipe was seen. The two mating-compatible monokaryotic strains representing the extremes of the fruiting type spectrum observed, A. aegerita AAE-3-13 (‘mycelium type’) and A. aegerita AAE-3-32 (‘abortive?+?true homokaryotic fruiting fruiter type, AHF?+?THF fruiter type’), were also found to readily produce oidia (arthrospores). In order to obtain a set of mating-compatible monokaryons covering the whole observed spectrum of monokaryotic fruiting, the two monokaryons A. aegerita AAE-3-40 (‘initials type’) and A. aegerita AAE-3-37 (‘elongated initials type’) have been selected for their mating compatibility with A. aegerita AAE-3-32 and A. aegerita AAE-3-13, respectively. Together with the parental dikaryotic strain A. aegerita AAE-3, this set of standard monokaryons could prove useful for studies exploring the factors regulating monokaryotic fruiting in comparison to dikaryotic mushroom formation.     

Cocultivation of <Emphasis Type="Italic">Pleurotus ostreatus</Emphasis> (Jacq.) P. Kumm. with yeasts

Cocultivation of Pleurotus ostreatus with eight yeast species were investigated on water agar. Special mycelial structures contacting with yeast cells were found in such cultures: nipple-like appendages and coralioid hyphae. Three out of eight species, Hanseniaspora uvarum, Rhodotorula minuta, and Saccharomyces cerevisiae were identified as trophic preferendum for P. ostreatus. These three yeast species were used for mushroom cultivation on sunflower seed peel. The biomass of fruiting bodies increased by 52.8–75.7% with the H. uvarum and S. cerevisiae suspension presence in the substrate.     

Cross-species microarray hybridization to identify developmentally regulated genes in the filamentous fungus <Emphasis Type="Italic">Sordaria macrospora</Emphasis>

The filamentous fungus Sordaria macrospora forms complex three-dimensional fruiting bodies that protect the developing ascospores and ensure their proper discharge. Several regulatory genes essential for fruiting body development were previously isolated by complementation of the sterile mutants pro1, pro11 and pro22. To establish the genetic relationships between these genes and to identify downstream targets, we have conducted cross-species microarray hybridizations using cDNA arrays derived from the closely related fungus Neurospora crassa and RNA probes prepared from wild-type S. macrospora and the three developmental mutants. Of the 1,420 genes which gave a signal with the probes from all the strains used, 172 (12%) were regulated differently in at least one of the three mutants compared to the wild type, and 17 (1.2%) were regulated differently in all three mutant strains. Microarray data were verified by Northern analysis or quantitative real time PCR. Among the genes that are up- or down-regulated in the mutant strains are genes encoding the pheromone precursors, enzymes involved in melanin biosynthesis and a lectin-like protein. Analysis of gene expression in double mutants revealed a complex network of interaction between the pro gene products.     

Toucans (Ramphastos ambiguus) facilitate resilience against seed dispersal limitation to a large‐seeded tree (Virola surinamensis) in a human‐modified landscape

Large‐seeded plants may suffer seed dispersal limitation in human‐modified landscapes if seed dispersers are absent or unable to disperse their seeds. We investigated dispersal limitation for the large‐seeded tree Virola surinamensis in a human‐modified landscape in southern Costa Rica. During two fruiting seasons, we monitored crop size, seed removal rates, the number of fruiting conspecifics within 100 m, and feeding visitation rates by frugivores at trees located in high and low forest disturbance conditions. Seed removal rates and the total number of seeds removed were high regardless of the disturbance level, but these parameters increased with tree crop size and decreased with the number of fruiting V. surinamensis trees within a 100 m radius. Trees at low disturbance levels were more likely to be visited by seed dispersers. Black mandibled toucans (Ramphastos ambiguus) and spider monkeys (Ateles geoffroyi) were the most important seed dispersers, based on visitation patterns and seed removal rates. Spider monkey feeding visits were more frequent at high disturbance levels, but the monkeys preferentially visited isolated trees with large yields and surrounded by a low number of fruiting Virola trees within 100 m. Toucan visitation patterns were not constrained by any of the predictors and they visited trees equally across the landscape. We suggest that isolated and highly fecund Virola trees are an important food resource for spider monkeys in human‐modified landscapes and that toucans can provide resilience against seed dispersal limitations for large‐seeded plants in human‐modified landscapes in the absence of hunting.     

Erythricium atropatanum sp. nov. (Corticiales) from Iran, based on morphological and molecular data

A new corticioid species with a pinkish fruiting body is described from East Azerbaijan Province, Iran, based on nuclear ITS and LSU sequence data and morphology. Erythricium atropatanum sp. nov. is recognized by its closely adnate, pinkish fruiting body, large and broadly ellipsoid to fusoid basidiospores with densely granulate contents, and lack of clamps. The species is nested in Corticiales and the grounds for its generic designation are discussed. A key to the known species of Erythricium is presented.     

Isolation and characterization of a sporeless mutant in <Emphasis Type="Italic">Pleurotus eryngii</Emphasis>

 A sporeless mutant dikaryon, completely defective in sporulation, was isolated from mycelial protoplasts of Pleurotus eryngii mutagenized by UV irradiation. Newly established dikaryons between one component monokaryon from the mutant, and 12 different wild type monokaryons from 3 other wild type dikaryons, all exhibited the sporeless phenotype, whereas those between the other monokaryon and the same wild type monokaryons all produced normal fruiting bodies. These results indicated that the sporeless mutation was induced in one of two nuclei of the mutant and was dominant. In the wild type basidia, the pattern of nuclear behavior during sporulation corresponded to the pattern C nuclear behavior as defined by Duncan and Galbraith. Cytological observation revealed that in the sporeless mutant meiosis was blocked at the meta-anaphase I in most basidia and hence basidiospores and sterigmata were not produced. Although fruiting bodies of the sporeless mutant showed a somewhat leaning growth, their gross morphology and its fruiting body productivity were comparable to that of the original wild type strain. Based on these results, it was considered that the sporeless mutant could serve as a potential material in breeding of sporeless P. eryngii commercial strains. Received: September 5, 2002 / Accepted: October 16, 2002 Acknowledgments We are grateful to Mrs. Motoe Masuda for her skillful technical assistance. Contribution no. 358 from the Tottori Mycological Institute Correspondence to:Y. Obatake     

Carbon autonomy of reproductive shoots of Siberian alder (<Emphasis Type="Italic">Alnus hirsuta</Emphasis> var.<Emphasis Type="Italic"> sibirica</Emphasis>)

Carbon autonomy of current-year shoots in flowering, and of current-year shoots plus 1-year-old shoots (1-year-old shoot system) in fruiting of Siberian alder (Alnus hirsuta var. sibirica) was investigated using a stable isotope of carbon, ¹³C. The current-year shoot and 1-year-old shoot systems were fed ¹³CO₂ and the atom% excess of ¹³C in flowers and fruits was determined. The majority of photosynthate allocated to flower buds was originally assimilated in the leaves of the flowering current-year shoots. Of all the current-year shoots on fruiting 1-year-old shoots, only those nearest to the fruits allocated the assimilated photosynthate to fruit maturation. These results indicate that the current-year shoots and 1-year-old shoot systems are carbon-autonomous units for producing flowers and maturing fruits, respectively.