1. Biological pest control is gaining greater acceptance as an important part of integrated pest management for sustainable agriculture. However, knowledge regarding biological control of rodent pests is limited, and its effectiveness in temperate areas has not been quantified. In traditional Japanese apple orchards, the Ural owl Strix uralensis breeds in tree hollows and preys on the Japanese field vole Microtus montebelli, a native pest species that can harm fruit production. In this study, we hypothesised that the Ural owl, a generalist predator, can act as a biological control agent by reducing vole densities in temperate orchards.2. To quantify the pest control effects of breeding Ural owls, we first analysed the diet of individual owls nesting in apple tree hollows. Second, we installed nest boxes in orchards to attract breeding owl pairs and collected data on vole population changes around owl nests to compare with control areas. The population changes were analysed using a generalised linear mixed model to assess the effect of breeding owls within their breeding territory. The model considered seasonal fluctuations in vole population size as well as surrounding land-use. We also examined vole populations around the owl nests in April, and the distance between nests and forested areas, to determine if these variables influenced nest site selection.3. Voles were the primary prey of Ural owls breeding in orchards and the owls reduced vole populations within their estimated breeding territories by 63% (±SE: 53%-70%) compared with the predicted density without owls. Owls preferred to nest in orchards with higher vole population densities in April. Our findings also indicate that higher occupancy rates are possible by distributing nest boxes based on Ural owl breeding territory size (306 m radius circle in our study). Synthesis and applications.As breeding Ural owls provide significant pest control effects within their breeding territories, the reintroduction of breeding Ural owl pairs within orchards would contribute to rodent pest control. Promoting the reproduction of native raptors in agricultural areas can be an option for developing integrated pest management while simultaneously maintaining regional biodiversity. K E Y W O R D Sbiological pest control, generalist predator, Japanese field vole, microtine population, orchards, predator-prey, rodent pest, Ural owl How to cite this article: Murano C, Kasahara S, Kudo S, et al. Effectiveness of vole control by owls in apple orchards. J Appl
This systematic review aimed to clarify whether nutrition education relating to sarcopenia and frailty for Japanese older adults has been effective and to identify the content of nutrition education that is provided to participants. We examined relevant studies published before January 2021. The inclusion criteria were as follows: (i) studies on nutrition education provided by experts; (ii) studies on Japanese participants aged 60 years or older; (iii) full papers published in English or Japanese; and (iv) studies with outcomes that include measurement items related to sarcopenia and frailty. A search strategy was designed using keywords such as “Japan” or “Japanese” and “nutrition education.” In total, 798 titles and 179 abstracts were examined, and 63 full texts were selected for reading. Ten articles met all the inclusion criteria. Only two studies aimed to determine the effectiveness of nutrition education. We could not clarify whether nutrition education relating to sarcopenia and frailty for Japanese older adults was effective. However, we did identify various nutrition education contents on sarcopenia and frailty for Japanese older adults. Further studies are needed as follows: (i) studies designs that can determine whether nutrition education is effective; (ii) studies in which the content of the cooking training can be reproduced; (iii) studies in which the intervention group and the control group have the same educational content with different duration and frequency; (iv) studies that are written in English; and (v) studies that are conducted on men. Geriatr Gerontol Int 2021; 21: 1084–1092.
The water shrew Chimarrogale platycephala is an endangered species in Japan. Although immediate conservation actions are necessary, detailed information on this species is inadequate. We compared dietary trends obtained via C. platycephala digestive contents analysis with those through stable isotope analysis (δ 13 C, δ 15 N, ‰) of non-invasive body hair and invasive muscles to elucidate their diet and evaluate usefulness of the dietary stable isotope analysis. We captured 20 shrews from three streams in Aomori Prefecture from 2013 to 2016 barring snow accumulation seasons. The digestive contents analysis showed that water shrews mainly fed on aquatic insects, whereas freshwater crabs, fishes, and terrestrial insects were also observed as diets. δ 13 C values from the stable isotope analysis were not significantly different between muscles and body hair and indicated a primary diet of aquatic invertebrates and fishes. δ 15 N values were significantly lower in muscles and indicated a similar trophic position of water shrews to fishes. In the isotope mixing model, the contribution of terrestrial invertebrates was less than 0.35 except for two individuals that showed the highest terrestrial invertebrate ratio (> 0.5) and the lowest aquatic invertebrate ratio. This study also demonstrated that body hair from any part of the back was sufficiently useful for dietary stable isotope analysis.
It is known that Paciˆc cod Gadus macrocephalus in coastal areas of Aomori Prefecture (Japan) migrate to Mutsu Bay for spawning, but it is not clear where the schools are from. We analyzed the concentrations of 29 elements (Li, Na, Mg, K, Ca, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Ga, As, Se, Rb, Sr, Mo, Cd, In, Sn, Sb, Cs, Ba, Hg, Tl,
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