Post-Breeding Dispersal of the Japanese Toad, Bufo japonicus formosus

Kusano, Tamotsu; Maruyama, K.; Kaneko, Shigenori

doi:10.2307/1564755

Cited by 42 publications

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“…Amphibian populations are often thought to exhibit strong site fidelity (Daugherty & Sheldon 1982; Reading et al . 1991; Sinsch 1991; Kusano et al . 1999) and various genetic studies have supported the idea that populations tend to be relatively isolated and show significant differentiation even at a fine scale (i.e.…”

Section: Introductionmentioning

confidence: 99%

Microsatellite variation and population structure in a declining Australian HylidLitoria aurea

2004

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The green and golden bell frog (Litoria aurea) was once a common Australian Hylid. Today, many populations are small and fragmented as a result of dramatic declines in distribution and abundance. We undertook a large-scale assessment of genetic structure and diversity in L. aurea using four species-specific microsatellite markers. Twenty-one locations were sampled from throughout the species range covering 1000 km of the east coast of Australia. Levels of allelic diversity and heterozygosity were high (uncorrected mean alleles/locus and H(E) were 4.8-8.8 and 0.43-0.8, respectively) compared to other amphibian species and significant differences among sampled sites were recorded. Despite recent population declines, no sites displayed a genetic signature indicative of a population bottleneck. Significant genetic structuring (overall F(ST) 0.172) was detected throughout the species range, but was relatively low compared to previous amphibian studies employing microsatellites. In addition we found that some areas sampled within continuous habitat showed evidence of weak genetic structuring (data subset F(ST) 0.034). We conclude that maintaining areas of continuous habitat is critical to the conservation of the species and argue that population recovery and/or persistence in all areas sampled is possible if appropriate protection and management are afforded.

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Section: Introductionmentioning

confidence: 99%

Microsatellite variation and population structure in a declining Australian HylidLitoria aurea

2004

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“…1991; Dodd 1996; Sjögren‐Gulve 1998), but amphibians often exhibit strong site fidelity (Breden 1988; Berven & Grudzien 1990; Reading et al . 1991; Kusano et al . 1999) and this behaviour may limit exchange among populations.…”

Section: Introductionmentioning

confidence: 99%

Microsatellite variation and fine‐scale population structure in the wood frog (Rana sylvatica)

Newman¹,

Squire²

2001

Molecular Ecology

149

126

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We investigated genetic population structure in wood frogs (Rana sylvatica) from a series of Prairie Pothole wetlands in the northern Great Plains. Amphibians are often thought to exist in demographic metapopulations, which require some movement between populations, yet genetic studies have revealed strong subdivision among populations, even at relatively fine scales (several km). Wood frogs are highly philopatric and studies of dispersal suggest that they may exhibit subdivision on a scale of approximately 1-2 km. We used microsatellites to examine population structure among 11 breeding assemblages separated by as little as 50 m up to approximately 5.5 km, plus one population separated from the others by 20 km. We found evidence for differentiation at the largest distances we examined and among a few neighbouring ponds, but most populations were strikingly similar in allele frequencies, suggesting high gene flow among all but the most distant populations. We hypothesize that the few significant differences among neighbouring populations at the finest scale may be a transient effect of extinction-recolonization founder events, driven by periodic drying of wetlands in this hydrologically dynamic landscape.

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“…The past studies on the migrating habits of amphibians in Japan, especially dispersion, include demonstration surveys on Hynobius tokyoensis (Hynobiidae) by Kusano (1984), Bufo japonicus formosus (Bufonidae) by Yano (1978), Okuno (1986), and Kusano et al (1995), and Rhacophorus arboreus (Rhacophoridae) by Kusano (1998). However, there are almost no studies on the dispersion of brown frogs, so we studied two species of brown frogs (Rana japonica and R. ornativentris) which are widely distributed in Japan.…”

Section: Introductionmentioning

confidence: 99%

Dispersal of Brown Frogs Rana japonica and R. ornativentris in the Forests of the Tama Hills.

Osawa

Katsuno

2001

Curr.Herpetol.

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For the conservation of forest frogs, it is important to conserve not only water sites for breeding but also forests for living in the non-breeding season. Therefore, the two species of brown frogs (Rana japonica and R. ornativentris) common to Japan were surveyed for their dispersal capability and the range of activity in the non-breeding season. The survey was conducted 16 times in forests on undeveloped land (about 28 ha) of the Tama Hills by the capture-and-mark method. The migrating distances were calculated from the sites of capture and spawning. As a result, 90% of the individuals were within the range of 200 to 270m (R. japonica) and 330 to 390 m (R. ornativentris). The maximum distance was about 500 m and both species were found capable of migrating at least 500 m. The migrating distances of recaptured individuals indicated that both species have specific summer habitat. Yearlings especially of both species grow rapidly between summer and fall in the forests. R. ornativentris was only rarely captured at the edge of the forest. The study demonstrated that the forest is the main habitat and main dispersion route for R. ornativentris in the non-breeding season. We discuss the conservation of both species from the viewpoint of landscape ecology.

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Post-Breeding Dispersal of the Japanese Toad, Bufo japonicus formosus

Cited by 42 publications

References 0 publications

Microsatellite variation and population structure in a declining Australian HylidLitoria aurea

Microsatellite variation and population structure in a declining Australian HylidLitoria aurea

Microsatellite variation and fine‐scale population structure in the wood frog (Rana sylvatica)

Dispersal of Brown Frogs Rana japonica and R. ornativentris in the Forests of the Tama Hills.

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