Naoki Hijii

Characterization and Identification of Strobilomyces confusus Ectomycorrhizas on Momi Fir by RFLP Analysis of the PCR-Amplified ITS Region of the rDNA

We identified ectomycorrhizal (ECM) roots formed byStrobilomyces confusus associated withAbies firma based on molecular analyses combined with ECM descriptions and examined the correspondence between above-groundS. confusus fruiting bodies and ECM roots below ground. Both mature fruiting bodies ofS. confusus and soil samples (1,000 cm3 in volume) from directly below the fruiting body were collected from three different spots in a 10 × 30-m plot in central Japan, in whichA. firma was the dominant species. Total of 6,156 root tips was collected from the area directly under the fruiting bodies ofS. confusus were classified representing 16 morphotypes. Among them, type 16 was identical in both the length of the internal transcribed spacer region and the restriction fragment length polymorphism profiles ofAlu I orHinf 1 digests, to those of the fruiting body ofS. confusus. Although a specific ECM association betweenS. confusus andA. firma was confirmed by using molecular tools, the abundance of the ECM roots was consistently low in every soil sample tested. These results suggest that even directly beneathS. confusus fruiting bodies, the occurrence of this species above-ground does not accurately reflect its relative abundance below ground, as evaluated in terms of the number of ECM roots.

Dynamics of the fungal symbionts in the gallery system and the mycangia of the ambrosia beetle, Xylosandrus mutilatus (Blandford) (Coleoptera: Scolytidae) in relation to its life history

The dynamics of the fungal symbionts in the gallery system and the mycangia of the ambrosia beetle,Xylosandrus mutilatus, were studied in relation to its life history using both isolation experiments and scanning electron microscopy (SEM). In the galleries,Ambrosiella sp. was predominant during the larval stages but its relative dominance gradually decreased during the development of the larvae. In contrast, yeasts (mainlyCandida sp.) andPaecilomyces sp. dominated continuously in the galleries after eclosion.Ambrosiella sp. was consistently stored in the mycangia in all adult stages, except in the teneral and overwintering adults when the other fungi were dominant. No fungal spores occurred in the mycangia of the adult beetles reared under aseptic conditions from the pupal stage, while onlyAmbrosiella sp. was stored in those reared from the teneral-adult stage. These results suggest that: (i) Xmutilatus is associated with at least three fungal species, among whichAmbrosiella sp. is the most essential food resource for development of the broods; (ii) immediately after eclosion, new female adults may take at least four associated fungal species, with no or incomplete selection, into their mycangia from the walls of the cradles; and (iii) conditions may well be produced in the mycangia of both matured and dispersing beetles whereby only the spores ofAmbrosiella sp. can proliferate.

Spatiotemporal distribution of fruitbodies of ectomycorrhizal fungi in an Abies firma forest

Abstract Spatial associations between ectomycorrhizal (ECM) fungi and their presumed host trees, and spatiotemporal associations among ECM fungi were surveyed for 3 years in an Abies firma-dominated forest in central Japan. A total of 39 species in 13 genera of ECM fungi were recorded, with more species in the Russulaceae than any other family. Russula ochroleuca, Russula sp.1 and Strobilomyces confusus tended to produce their fruitbodies on the forest floor directly under the crown of A. firma, whereas those of Inocybe cincinnata, Gomphus floccosus and G. fujisanensis were aggregated in limited areas outside the A. firma crown. Interspecific spatial associations were analysed for Russula sp.1, which was the most dominant species, and three other frequent species, I. cincinnata, S. confusus and R. ochroleuca. Pairwise, Russula sp.1 with I. cincinnata, with S. confusus or with R. ochroleuca showed an association which was exclusive, overlapping or independent, respectively. Fruiting phenologies differed in that S. confusus showed a peak density in the summer, whereas the other three species peaked in the autumn. These results suggest that the formation of ECM fruitbodies can be partitioned among the species both spatially and temporally.

Effects of low pH and aluminum on root morphology of Japanese red cedar saplings

The effects of low pH or excess Al on the root morphology and nutritional status of Japanese red cedar (Cryptomeria japonica D. Don) saplings were separately examined using glass beads as a medium. We also compared the effects of pH or Al determined by the glass-beads method with those determined by soil-acidification treatment using brown forest soil. An increased number of branching roots, reduced root length and decreased concentrations of Ca and Mg in the white roots were the common symptoms induced by low pH and excess Al. Browning and reduction of K were specific symptoms in white roots subjected to low-pH treatment. The effects of excess Al were characterized by an increase of root diameter and increased concentrations of P and Al in the white roots. Moreover, the effects of Al were very similar to those resulting from exposure to pH 2.0 solution in brown forest soil. These results suggest that the root morphology of the saplings was adversely influenced not by low pH but by excess Al in brown forest soil, indicating that this type of soil may have the potential for producing a decline in the root systems of Japanese red cedar.

Effects of mushroom size on the structure of a mycophagous arthropod community: Comparison between infracommunities with different types of resource utilization

The effects of the size of a patchy resource on the structure of a mycophagous arthropod community were examined by comparing numerical responses to the size of individual mushrooms between visitor and dweller communities. A total of 17 fungal genera in nine families were identified during the 13 month survey period. A total of 35 arthropod families from nine orders were recorded, with the Hypogastruridae (Collembola) forming 97% of the number of individuals in the visitor community. The response of the visitor community (i.e. number of families, number of individuals, density per mushroom size and diversity) to mushroom size varied in each survey month according to hypogastrurid density. The response of the community composition to mushroom size also varied monthly with hypogastrurid density. In the dweller community, 12 families in three orders were recorded, and one coleopteran and five dipteran families accounted for 90% of the number of individuals. Although the density of dwellers in a mushroom varied between months, the response of the community properties to mushroom size was consistent throughout the survey period. Community composition varied monthly with mushroom size. These results suggest that the size of individual mushrooms is likely to have a greater effect on the structure of dweller communities than visitor communities. Thus, the characteristics of a patchy resource may exert different impacts on the structure of different arthropod communities utilizing the same resource, but in a different manner.

Reproduction and resource utilization of the ambrosia beetle, Xylosandrus mutilatus, in field and experimental populations

The reproduction process of the ambrosia beetle, Xylosandrus mutilatus (BLANDFORD) (Coleoptera: Scolytidae), was examined by successive censuses of field populations and by artificial rearing experiments. The reproductive strategy is discussed in relation to utilization of fungal resources, the amount of which was evaluated by total gallery length (main gallery and side galleries) for the field populations or fungal area in the laboratory. Fecundity of mother adults increased with the expansion of gallery systems for cultivating their associated fungi. The number of offspring also depended on the amount of fungal resource, whereas the variation of female body size within a brood was not affected by the fungal amount. The body size apparently declined with delay in larval feeding period expressed as the order of pupation and eclosion in the field and with decreasing fungal area per larva in the laboratory. These results suggested that the combination of resource‐dependent oviposition by a mother beetle and dominant resource utilization by earlier‐hatched individuals in a brood can contribute to the efficient production of larger females when resources are limited.

The composition and abundance of microarthropod communities on arboreal litter in the canopy of Cryptomeria japonica trees

In a Cryptomeria japonica plantation, we examined the composition and seasonal abundance of microarthropods in communities associated with “habitat substrates” in the canopy (defined as dead leaves, dead branches, and living leaves) and compared them with those in soil communities. Habitat substrates and microarthropods were periodically collected by the branch-clipping and washing method from the canopy and by the Tullgren method from the soil. Oribatida, Collembola, and larvae of the Chironomidae, most of which are detritivorous or fungivorous, were dominant in the canopy. The dominant oribatid and collembolan families differed markedly between the canopy and the soil. Numbers of all microarthropods per unit dry weight of leaf or per unit area of branch ranged from 4.2 to 11.7 g−1 dry wt on dead leaves, 0.13–0.48 cm−2 on dead branches, and 1.3–6.4 g−1 dry wt on living leaves. In the soil, the number of individuals per unit ground area ranged from 24 000 to 220 000 m−2. The total abundances of microarthropods on dead leaves and dead branches were almost constant throughout the year. These results suggest that the arboreal litter characteristic of C. japonica canopies is utilized consistently by large numbers of detritivorous and fungivorous microarthropods, and that the decomposition of dead foliage and branches is initiated in the canopy.

Optimal clutch size of the chestnut gall-wasp,Dryocosmus kuriphilus yasumatsu (Hymenoptera: Cynipidae)

Optimal clutch size of the chestnut gall-wasp,Dryocosmus kuriphilus Yasumatsu (Hymenoptera: Cynipidae), was examined in galls on wild and resistant chestnut trees in 1988 and 1989. The rate of escape success of newly-emerged adults from galls was an average of 60%, irrespective of cell numbers per gall. Dry mass per cell of a gall (as an index of nutritive condition) decreased with increasing cell number per gall, but was proportional to the mean number of mature eggs of new adults per gall. The number of cells per gall that occurred most frequently did not agree with that attained by the maximum survival rate from young larva to adult emergence of the gall-wasp. This discrepancy was examined from the viewpoint of three factors: 1) quality of offspring, 2) defensive response of the host plant causing mortality of the gall-wasp before cell formation, and 3) fitness per gall vs. fitness per egg. It is concluded that the third factor is most likely to be the one best in explaining the discrepancy.

Arthropod communities in a Japanese cedar (Cryptomeria japonica D. Don) plantation: Abundance, biomass and some properties

Arboreal arthropod communities were censused by insecticidal knockdown in a plantation of Japanese cedar,Cryptomeria japonica, in central Japan from April 1983 to February 1985 at intervals of two months. All arthropods sampled were allocated to higher taxonomic groups or guilds and the composition of the communities was analyzed with respect to abundance, biomass and their seasonal trends. The total densities fluctuated seasonally from 200 to 3500 m−2; corresponding biomass values ranged from 7 to 600 mg fresh weight m−2. Maximum density and biomass generally occurred in summer and were minimum in winter. The consistently dominant guild in terms of abundance were the detritivores, mostly comprising Collembola and oribatid mites, accounting for 36–93% of all arthropods; phytophages, predators and detritivores were major guilds in terms of biomass, showing average proportions of 27%, 23% and 20%, respectively.Biomass ratios of predators to prey were generally high in some canopy communities, suggesting the importance of predation pressure in regulating the population levels of arthropods in forests. Average individual size of predators was approximately proportional to that of prey, irrespective of tree locality. Soil arthropod communities maintained densities approximately 102–103 times as large as the corresponding canopy communities throughout the year. The seasonal variations in abundance were much greater in canopy than in soil communities.

Density, biomass, and guild structure of arboreal arthropods as related to their inhabited tree size in aCryptomeria japonica plantation

Arboreal arthropods in a 15-year-old plantation ofCryptomeria japonica were surveyed using the smoking method under open conditions and also in the enclosed condition in which the whole above-ground part of a tree was covered by a cloth bag. Per tree, the number of individuals collected was 8200–14000, with a biomass of 340–1700 mg d.wt. Collembola and Acarina were major components in number, while Diplopoda, Collembola, and Araneae occupied the larger part of the biomass. About 60–70% of total numbers of individuals dropped within two hours after the open fumigation. Clear power-form regressions between total numbers of individuals and biomasses of all animals and their host tree size (stem diameter at clear length,DB) showed they were approximately proportional toDB2. The guilds of scavengers and tourists demonstrated the most significant correlations between their numbers and biomasses and the tree size. Numbers and biomasses of Collembola, Diptera, and Araneae revealed remarkable dependence on the tree size. From these regressions, numbers of individuals and biomasses per unit ground area were estimated for all arthropods to be 3755/m2 and 165.87 mg d.wt./m2, respectively. Power-form regressions were observed between numbers and biomasses of prey and predators. The number-and biomass ratios of all predators to all prey tended to decrease with increasing tree size. A similar trend was observed in the corresponding ratios of parasitic Hymenoptera to lepidopteran larvae, while those of Araneae to Collembola were almost constant, irrespective of tree size.