On Skeletochronology of Asian grass frog Fejervarya limnocharis (Gravenhorst, 1829) from Java to support management conservation

Phadmacanty, Ni Luh Putu Rischa; Hamidy, Amir; Semiadi, Gono

doi:10.14203/treubia.v45i0.3109

Cited by 4 publications

(4 citation statements)

References 11 publications

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“…Skeletochronology technique was successfully applied for femur bone of F. cancrivora, which improved the results that had been done by Kusrini and Alford (2006) for the same species. The success of the skeletochronology technique also proved in F. limnocharis (Liao et al 2011;Pancharatna and Deshpande 2003;Phadmacanty et al 2018) which is a close relative to F. cancrivora. The number of LAG compared with the length of SVL at the pre-adult stage, adult males and adult females showed accurate results with a strong correlation between the two parameters.…”

Section: Discussionmentioning

confidence: 87%

“…A preliminary study of Indonesian frog age by using skeletochronology on F. cancrivora, F. limnocharis and Limnonectes macrodon were done by Kusrini and Alford (2006) They reported that the maximum number of LAGs (Line of Arrested Growth) from 35 samples (SVL=14.5-56.7 mm) F. cancrivora was one. The results of skeletochronological research which was conducted by Phadmacanty et al (2018) for F. limnocharis found varied number of LAGs, so did the Pancharatna and Dehpande (2003) result, while Kusrini and Alford (2006) also only found one LAG on 103 samples (SVL=15.68-53.00 mm).…”

Section: Introductionmentioning

confidence: 91%

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Short Communication: Determination of the age of the Paddy Field Frog, Fejervarya cancrivora (Anura: Dicroglossidae) by using skeletochronology

Phadmacanty

Kurniati

2019

Biodiversitas

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Abstract. Phadmacanty NLPR, Kurniati H. 2019. Short Communication: Determination of the age of the Paddy Field Frog, Fejervarya cancrivora (Anura: Dicroglossidae) by using skeletochronology. Biodiversitas 20: 2739-2743. The age of 102 individuals of paddy field frog (Fejervarya cancrivora) from Karawang District, West Java, Indonesia was skeletochronological determined. Hematoxylinophilic lines interpreted as lines of arrested growth (LAG) were observed clearly in the femur bone suggesting that this technique can be used to estimate the age of the frog, although the level of accuracy is likely to be strongly influenced by external and internal factor. In general, age estimates look close to accuracy at mature age levels; which one LAG equals the age of the frog that has passed one year old. The age structure of F. cancrivora from a paddy field in Karawang District has the maximum age of five years in females and four years in males. In general, adult females were not significantly larger than adult males.

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Section: Discussionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 91%

Short Communication: Determination of the age of the Paddy Field Frog, Fejervarya cancrivora (Anura: Dicroglossidae) by using skeletochronology

Phadmacanty

Kurniati

2019

Biodiversitas

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“…False lines, which may form during an unfavorable period in summer, are generally fainter than LAGs and do not form a complete ring around the bone section. We counted double lines in cross‐sections as 1 year of age; thus, they cannot affect the LAGs counted (Iturra‐Cid et al., 2010 ; Jiang et al., 2022 ; Khaloei et al., 2023 ; Phadmacanty et al., 2019 ; Yuan et al., 2021 ; Zhang et al., 2020 ).…”

Section: Methodsmentioning

confidence: 99%

Age structure and body size of two Tibetan toad (Bufo tibetanus) populations from different elevations in China

Xu,

Wang,

Liu

et al. 2024

Ecology and Evolution

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Understanding how age and body size vary across elevations can provide insights into the evolution of life‐history traits in animals. In the present study, we compared the demographic (using skeletochronology) and morphological traits of the Tibetan toad (Bufo tibetanus) between two populations from different elevational habitats (2650 vs. 3930 m). We found that (1) the mean age and body size of females were significantly greater than those of males in both populations; (2) both sexes of toads from the higher elevation tended to be significantly older in age and larger in body size; (3) there was a significant positive relationship between age and body size within each sex of the toad at both elevations; and (4) growth rates varied between the two populations, with the higher rate observed in the lower‐elevation population. Our results suggested that factors other than age, such as elevation‐associated temperature, influence the observed differences in body size between the two populations. Future research at a broader range of elevations should focus on these factors and evaluate their influence on animal growth patterns.

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“…In general, life cycles of rice frogs includes several stages, i.e., egg, tadpole, froglet, juvenile, sub-adult, and adult (Duellman and Trueb, 1994), where abundances may vary according to season and water availability. Based on previous skeletochronological studies, it was reported that the natural lifespan of F. limnocharis in Southern India can reached up to 4 years in both sexes (Pancharatna and Deshpande, 2003), slightly different from the subtropical F. limnocharis in China, which had a lifespan of 3 years old for males and 4 years old for females (Liao et al, 2011), and slightly longer from tropical F. limnocharis from Indonesia, which reached maximum age of 3 years with maximum SVL of 52.37 mm (Phadmacanty et al, 2019). These differences are attributed to many factors such as habitat, altitude, and environmental condition.…”

Section: Figure 27mentioning

confidence: 99%

Influences of herbicides on health of rice frog Fejervarya limnocharis populations in Nan Province, Thailand

Septiadi

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Intensive and continuous herbicide use in agriculture may pose a risk to health of environment and non-target organisms, including amphibian. Prior research conducted between 2010-2011 using the rice frog,�Fejervarya limnocharis, as a sentinel revealed an accumulation of herbicides (atrazine, glyphosate, and paraquat) in environmental samples and frog tissue, as well as adverse effects on the health status. This study aims to determine the potential influence of herbicides on population health of the rice frog. Between July 2020 and February 2021, frogs were collected from two paddy fields with varying degrees of herbicide use in Nan province, Thailand. The results of the herbicide residue analysis in water samples indicated that detectable amounts of atrazine were found only in the contaminated site. These three herbicides were detected in frog tissues from both sites, with the contaminated site exhibiting a higher level of paraquat residue. The results on organismal parameters indicated that frogs from the contaminated sites had a greater ovarian weight, indicating a possible effect of xenoestrogen�exposure, a significant difference in liver weight, possibly due to xenobiotic exposure, and a significant difference in body weight. The results on population parameters indicated significant differences in growth patterns, fluctuating asymmetry on five appendage bones of frogs, and size-frequency distribution with disproportionate distribution of the contaminated site population, indicating a possible herbicide effect on growth, development and population structure. Site-related differences in herbicide residue, organismal and population parameters indicate that herbicide use may have adverse effects on the health of the rice frog�F. limnocharis�population, resulting in subtle and persistent changes to paddy field ecosystems. The findings of this study may serve as a warning about potential environmental health hazards for vertebrates that live near herbicide utilization areas, including human.

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On Skeletochronology of Asian grass frog Fejervarya limnocharis (Gravenhorst, 1829) from Java to support management conservation

Cited by 4 publications

References 11 publications

Short Communication: Determination of the age of the Paddy Field Frog, Fejervarya cancrivora (Anura: Dicroglossidae) by using skeletochronology

Short Communication: Determination of the age of the Paddy Field Frog, Fejervarya cancrivora (Anura: Dicroglossidae) by using skeletochronology

Age structure and body size of two Tibetan toad (Bufo tibetanus) populations from different elevations in China

Influences of herbicides on health of rice frog Fejervarya limnocharis populations in Nan Province, Thailand

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