Regional and temporal variations in prey selected by Golden Eagles Aquila chrysaetos during the nestling period in Japan

We examined regional and temporal variations in prey selection by Golden Eagles Aquila chrysaetos during the nestling period in Japan. We made direct video recordings of a pair of Golden Eagles in Akita prefecture as they delivered prey to the nest for two consecutive nestling periods. We also assembled data from previous studies in Japan, eventually obtaining 14 data sets with which we compared prey composition during nestling periods. Among them, four sets of data were recorded daily by video and used to investigate the temporal change in prey selection and the amount delivered to the nest. The prey item composition varied considerably among the data sets. Japanese Hares Lepus brachyurus were predominantly selected in three data sets, reflecting the lowest dietary breadths that were determined by prey composition. Data sets with higher dietary breadths consisted mainly of Japanese Hares, snakes and Copper Pheasants Syrmaticus soemmerringii . Temporal change in prey selection during nestling periods showed marked variation, but similarities were found in later deliveries of snakes and in total prey weights (83.7–89.9 kg) delivered to successfully fledged broods. Taken together, our results suggest that during nestling periods Golden Eagles in Japan specialized on Japanese Hare. Diet breadth increased through feeding predominantly on snakes, a temporarily available prey, to satisfy the breeding dietary requirement. Regionally varied temporal prey selection may be a key factor for sustaining Eagle populations in the forested mountain habitats of Japan, where prey and habitat conditions change dramatically during the breeding season.     

Isolation and characterization of microsatellite markers in Japanese pear (Pyrus pyrifolia Nakai)

Fourteen microsatellite markers were developed from an enriched genomic library of Japanese pear (Pyrus pyrifolia) by selective hybridization. They were characterized using 17 Japanese pear cultivars. The expected heterozygosity and observed heterozygosity ranged from 0.21 to 0.74 and from 0 to 0.88, respectively. Two to 11 alleles were detected per locus, with IPPN09 and IPPN15 judged to amplify multiple loci. IPPN17 was the most informative locus with the lowest probability of identity (0.19). These primers exhibited a high cross‐species transferability between species and genera.     

A comparison of the pre-calling period between Japanese and southeastern Asian populations of Spodoptera litura

The pre-calling behavior of female adults of the common cutworm, Spodoptera litura （Lepidoptera： Noctuidae） collected in southern Japan and southeastern Asian countries was investigated. Most females started calling on days 1-4 after adult emergence. In three populations obtained in Saga prefecture in Kyushu mainland, Japan, two different patterns of pre-calling period （PCP） were observed： one was the above-mentioned pattern shown by most individuals, and the other was a pattern in which females sexually matured within several hours after emergence. Diel periodicity was shown in the time of calling activity, and its pattern varied among the populations. Pre-calling period was stable over successive generations in the laboratory.     

The determination of multiple microsatellite genotypes and DNA sequences from a single pollen grain

Pollen plays important roles in the reproduction and gene flow of flowering plants, and its haploid DNA sequence provides useful information for studies of plant evolution and genealogy. We describe a new method for multiple microsatellite genotyping and DNA sequencing from a single pollen grain. The haploid DNA was extracted from a single pollen grain by using a simple DNA extraction method, and multiple microsatellite genotypes and DNA sequences of multiple chloroplast loci were determined. Using nine pairs of microsatellite primers, more than 90% of genotypes were successfully determined, and 71% and 100% of DNA sequences were determined at two chloroplast DNA loci, the trnL intron region and the trnL/trnF intergenic spacer region, respectively. This simple method of genetic analysis for a single pollen grain will facilitate detailed study of pollination, evolution and genealogy.