Hiroshi Yorozuya scite author profile

2006

Entomological Science

In a host-parasitoid system comprising mycophagous drosophilids and their parasitoids, the drosophilid and parasitoid species assemblages, host use, and the prevalence of parasitism were assessed, and the "disproportionate parasitism hypothesis" was examined with consideration given to yearly variations. The mycophagous drosophilids, their fungal food resources and parasitoids were studied by carrying out an intensive census throughout the activity seasons of 4 years (2000)(2001)(2002)(2003) in Hokkaido, northern Japan. Five hymenopterous parasitoid species, four braconids and one eucoilid, were found. Parasitoids of mycophagous drosophilids are reported for the first time from Asia. Most parasitism (99.2%) was by braconids, in contrast to the dominance of eucoilids in Europe. Parasitism was restricted to the summer, and the rate was high from early July to early August every year. There was considerable yearly variation in the composition of abundant fungus, drosophilid and parasitoid species, especially between 2000 and 2001. The alternation of dominant host species was coupled with the alternation of dominant parasitoid species that differed in host use. Despite the yearly variation in the system, the most dominant host species suffered disproportionately heavy parasitism by the correspondingly dominant parasitoid species every year. The parasitism rate was positively correlated with the relative host abundance. This thus indicates that the disproportionate parasitism mechanism may operate, via which species coexistence is promoted by a higher rate of parasitism of the dominant species.

Analysis of tea plant resistance to tea green leafhopper, Empoasca onukii, by detecting stylet‐probing behavior with DC electropenetrography

Entomologia Exp Applicata

2017

The tea green leafhopper, Empoasca onukiiMatsuda (Hemiptera: Cicadellidae: Typhlocybinae), is a serious pest of tea plants in East Asia. Previous work has shown that two tea germplasms, Cd19 and Cd289, sustain less hopperburn damage by E. onukii than does Camellia sinensis (L.) O. Kuntze cv. ‘Yabukita’ (Theaceae), and E. onukii excretes less honeydew on these germplasms than on the susceptible Yabukita. This study investigated the feeding behavior of E. onukii with a direct current electropenetrograph (DC EPG) to compare feeding behaviors, including ingestion, on resistant tea germplasms and Yabukita. Feeding behaviors on the resistant germplasms were significantly restricted, with few bouts of active ingestion of short duration and long periods of non‐probing, whereas E. onukii engaged in active ingestion of long duration many times on the susceptible cv. Yabukita. The tea germplasms, Cd19 and Cd289, therefore showed strong resistance to E. onukii. Furthermore, the shape of puncture holes left after probing was compared between the susceptible Yabukita and the resistant germplasms. The puncture holes on Cd19 and Cd289 were indistinct in shape and closed compared with those on Yabukita.

International Biodiversity Observation Year in Western‐Pacific and Asian regions (DIWPA‐IBOY): a case report on species rarity and spatio‐temporal variability of species composition in Lepidoptera and Coleoptera communities from a temperate forest of northern Japan

Hirao

Murakami

Kogi

et al. 2006

Ecological Research

An international project, DIWPA‐IBOY, took place for simultaneously observing biodiversity throughout the Western‐Pacific and Asian regions in 2001–2003, as one of the core projects for International Biodiversity Observation Year, a crosscutting network activity of DIVERSITAS (an international programme of biodiversity science). DIWPA‐IBOY provides extensive data on species diversity obtained by the standardized method. Under this project, 51,742 individuals of Lepidoptera and 11,633 of Coleoptera were collected by light traps from the Tomakomai Experimental Forest of Hokkaido University, one of the core DIWPA‐IBOY sites, in the cool‐temperate region of northern Japan. Based on these data, this study examined the relative abundance distribution (RAD) to evaluate the amount of rare species in the Lepidoptera and Coleoptera communities. The beta diversities between sampling seasons, forest strata, and trap sites were also assessed to evaluate the spatio‐temporal variability of species composition in these communities. In the analysis of the RAD, the best‐fit model was selected from the log‐Normal, Zipf–Mandelbrot, and Zipf models differing in the tail length of the RAD, i.e., the proportion of rare species. To explore the beta diversity between samples, the abundance‐based Jaccard index with an unseen species estimator was calculated, and then a hierarchical clustering analysis was conducted. As a result of RAD analysis, the Coleoptera community was regarded as containing a larger proportion of rare species than the Lepidoptera community. The seasonal compartmentalization of the community, deduced from the beta‐diversity analysis, was finer in Lepidoptera (seven assemblages recognized) than in Coleoptera (three assemblages). The spatial (vertical and horizontal) compartmentalization was negligible in both communities. The coincidence of the larger proportion of rare species and the lower beta diversity between seasons in the Coleoptera community was explained by the longer life spans of beetles compared to moths, based on the assumption that the length of life span acts as a temporal agent for mass effect on the analogy of the migration rate as a spatial agent for mass effect.

The degrees of feeding damage and the numbers of probing punctures by tea green leafhopper, Empoasca onukii Matsuda in tea germplasms.

Yorozuya¹,

Tanaka²

2012

Kyushu Pl. Prot Res.

Monitoring and characterization of DC electrical penetration graph waveforms of tea green leafhopper, Empoasca onukii, on tea plants

2016

Entomological Science

The tea green leafhopper, Empoasca onukii (Homoptera: Cicadellidae), is a serious pest of “Yabukita”, the most popular tea cultivar in Japan. This study investigated its stylet‐probing behavior with a direct current (DC) electrical penetration graph (EPG) system. The EPG signals were classified into four distinct waveforms according to amplitude, frequency, voltage level and electrical origin. The waveforms were then characterized by fast Fourier transformation. The waveforms were correlated with distinct feeding behaviors: Np, non‐probing, when stylets were not inserted; Eo1, putative pathway and channel‐cutting phase, when stylets were inserted but not ingesting sap; Eo2, putative phloem phase, when the leafhoppers were probably ingesting from phloem; and Eo3, putative non‐phloem phase, when the leafhoppers were probably ingesting from mesophyll. Mean durations of waveforms showed that E. onukii likely ingested plant fluid mainly from phloem and partly from mesophyll. The description of DC EPG waveforms associated with feeding behaviors of this serious pest constitutes a fundamental step toward the understanding of the resistance mechanisms of the host plants against herbivorous insects.

Characterization of Direct Current-Electrical Penetration Graph Waveforms and Correlation With the Probing Behavior of Matsumuratettix hiroglyphicus (Hemiptera: Cicadellidae), the Insect Vector of Sugarcane White Leaf Phytoplasma

Roddee¹,

Kobori²,

Yorozuya³

et al. 2017

The leafhopper Matsumuratettix hiroglyphicus (Matsumura) (Hemiptera: Cicadellidae) is an important vector of phytoplasma causing white leaf disease in sugarcane. Thus, the aim of our study was to understand and describe the stylet-probing activities of this vector while feeding on sugarcane plants, by using direct current (DC) electrical penetration graph (EPG) monitoring. The EPG signals were classified into six distinct waveforms, according to amplitude, frequency, voltage level, and electrical origin of the observed traces during stylet penetration into the host plant tissues (probing). These six EPG waveforms of probing behavior comprise no stylet penetration (NP); stylet pathway through epidermis, mesophyll, and parenchymal cells (waveform A); contact at the bundle sheath layer (waveform B); salivation into phloem sieve elements (waveform C); phloem sap ingestion (waveform D); and short ingestion time of xylem sap (waveform E). The above waveform patterns were correlated with histological data of salivary sheath termini in plant tissue generated from insect stylet tips. The key findings of this study were that M. hiroglyphicus ingests the phloem sap at a relatively higher rate and for longer duration from any other cell type, suggesting that M. hiroglyphicus is mainly a phloem-feeder. Quantitative comparison of probing behavior revealed that females typically probe more frequently and longer in the phloem than males. Thus, females may acquire and inoculate greater amounts of phytoplasma than males, enhancing the efficiency of phytoplasma transmission and potentially exacerbating disease spreading. Overall, our study provides basic information on the probing behavior and transmission mechanism of M. hiroglyphicus.

Field evaluation of resistance to tea green leafhopper, Empoasca onukii, in tea plant

Entomologia Exp Applicata

Sudo

Sato

2021

The tea green leafhopper, Empoasca onukii Matsuda (Hemiptera: Cicadellidae, Typhlocybinae), is a serious pest of tea plants in East Asia. In the laboratory, tea genotypes CA278, Cd19, and Cd289 [Camellia sinensis (L.) O. Kuntze (Theaceae)] sustain fewer feeding damage symptoms known as hopperburn than the susceptible cultivar ‘Yabukita,’ and E. onukii excretes less honeydew on them than on Yabukita. Here, we evaluated whether these genotypes have practical and sufficient resistance under field conditions. The densities of E. onukii eggs, larvae, and adults on tea shoots and the degree of feeding damage were compared as indicators of resistance. Genotypes Cd19 and Cd289 showed strong resistance and CA278 showed moderate resistance under field conditions. Therefore, Cd19 and Cd289 are favorable materials for breeding tea cultivars with resistance to tea green leafhopper. We propose selection methods for breeding new resistant tea cultivars.

Time-course in attractiveness of pheromone lure on the smaller tea tortrix moth: a generalized additive mixed model approach

Sudo¹,

Sato²,

Yorozuya³

2020

Preprint

Long-term pest insect monitoring in agriculture and forestry has advanced population ecology. However, the discontinuation of research materials such as pheromone lure products jeopardizes data collection continuity, which constrains the utilization of the industrial datasets in ecology. Three pheromone lures against the smaller tea tortrix moth Adoxophyes honmai Yasuda (Lepidoptera; Tortricidae) were available but one was recently discontinued. Hence, a statistical method is required to convert data among records of moths captured with different lures. We developed several generalized additive mixed models (GAMM) separating temporal fluctuation in the background male density during trapping and attenuation of lure attractiveness due to aging or air exposure after settlement. We collected multisite trap data over four moth generations. The lures in each of these were unsealed at different times before trap settlement. We used cross-validation to select the model with the best generalization performance. The preferred GAMM had nonlinear density fluctuation terms and lure attractiveness decreased exponentially after unsealing. The attenuation rates varied among lures but there were no differences among moth generations (seasons). A light trap dataset near the pheromone traps was a candidate for a male density predictor. Nevertheless, there was only a weak correlation between trap yields, suggesting the difficulty of data conversion between the traps differing in attraction mechanisms.