EXPLORATORY ENVIRONMENTAL DNA ANALYSIS FOR INVESTIGATING PLANT-FEEDING HABIT OF THE RED-EARED TURTLE USING THEIR FECES SAMPLES
DOI:
https://doi.org/10.11113/jt.v78.7253Keywords:
Alien species, feeding damage, rural ecosystemAbstract
Exploratory environmental DNA, eDNA analysis was performed to investigate plant-feeding habits of the red-eared turtle using their feces samples. This turtle species non-native to Japan appears to be causing feeding damage to lotus roots in several rural areas as a pest, although the reality is still unproven scientifically. The feces samples were collected from five turtles inhabiting agricultural canals surrounding lotus root paddies in Tokushima Prefecture where feeding damage has arisen. After eDNA extraction from the feces samples and polymerase chain reaction, PCR amplification, electrophoresis and sequencing analysis of the amplified PCR products were carried out to confirm whether chloroplast DNA fragments of seven targeted plant species including the lotus were detected from the eDNA samples. From the results, the DNA fragments of six plant species were detected from all eDNA samples, hence, this eDNA analysis appeared to be successful. It suggested that the number of the detected plant species differed between young and adult turtles. Different habitats of the detected plant species indicated that the turtles migrated between the lotus root paddies and the canals. The lotus DNA fragments were found in all turtles. Therefore, our eDNA analysis helps to more definitely prove the feeding damage of the lotus root by this turtle.
References
Seitai Koubou. 2015. Stop the Red-eared Turtles. [Online]. From: http://www.eco-works.gr.jp/stop_akamimi/index.html. [Acessed on 5 July 2015] (in Japanese).
Arima, S., Suzuki, A., Zheng, S. H., Okuzono, M. and Nishimura, I. 2008. Investigation on the Bite Damages of Young Lotus by the Exotic Tortoise. Coastal Bioenvironment. 11: 47-53. (in Japanese).
Arima, S., Suzuki, A., Zheng, S. H., Tanaka, A., Okuzono, M. and Nishimura, I. 2008. Investigation on the Damages and Extermination of the Exotic Tortoise (Trchemys scripta elegans). Coastal Bioenvironment. 12: 53-57. (in Japanese).
Arima, S., Suzuki, A., Zheng, S. H., Okuzono, M. and Tubaki, M. 2009. Investigation 2: on the Feeding Damages of Lotus by the Exotic Tortoise (Trchemys scripta elegans). Coastal bioenvironment. 14: 75-80. (in Japanese).
Sawada, E. 2012. Damages and Countermeasures of Lotus Root Paddies by the Red-eared Turtles. Proceeding of the 14th Japan Turtle Conference and Japanese Pond Turtle Symposium. Tokyo, Japan. 8–9 December 2012. 9-12. (in Japanese).
Noda, H. and Kamata, N. 2004. Relationships between Population Traits and Food Habits in Aquatic Turtles. Bulletin of the Herpetological Society of Japan. 2004: 102-113. (in Japanese).
Mine, K., Taniguchi, M., Ebira, K. and Kamezaki, N. 2014. Diet of Trachemys scripta elegans and Mauremys reevesii. Kameraku. 8: 12-15. (in Japanese).
Koizumi, N., Takahara, T., Minamoto, T., Doi, H., Mori, A., Watabe, K. and Takemura, T. 2015. Preliminary Experiment for Detection Method of Fish Inhabiting Agricultural Drainage Canals Using Environmental DNA. Transactions of The Japanese Society of Irrigation, Drainage and Rural Engineering. 297: IV_7-IV_8.
Takahara, T., Minamoto, T. and Doi, H. 2013. Using Environmental DNA to Estimate the Distribution of an Invasive Fish Species in Ponds. PLoS ONE. 8: e56584.
Fukumoto, S., Ushimaru, A. and Minamoto, T. 2015. A Basin-scale Application of Environmental DNA Assessment for Rare Endemic Species and Closely Related Exotic Species in Rivers: a Case Study of Giant Salamanders in Japan. Journal of Applied Ecology. 52: 358-365.
Taniguchi, M. Mine, K. and Kamezaki, N. 2013. Female Size at Sexual Maturity and Nesting Season of Red-eared Slider Turtles, Trachemys scripta elegans, Collected in Western Japan. Bulletin of the Herpetological Society of Japan. 2013: 86-91. (in Japanese with English abstract).
Takahara, T., Minamoto, T., Yamanaka, H., Doi, H. and Kawabata, Z. 2012. Estimation of Fish Biomass Using Environmental DNA. PLoS ONE. 7: e35868.
Maruyama, A., Nakamura, K., Yamanaka, H., Kondoh, M. and Minamoto, T. 2014. The Release Rate of Environmental DNA from Juvenile and Adult Fish. PLoS ONE. 9: e114639.
Doi, H., Uchii, K., Takahara, T., Matsuhashi, S., Yamanaka, H. and Minamoto, T. 2015. Use of Droplet Digital PCR for Estimation of Fish Abundance and Biomass in Environmental DNA Surveys. PLoS ONE. 10: e0122763.
Ernst, C. H. and Lovich, J. E. 2009. Turtles of the United States and Canada. 2nd edition. Maryland: The Johns Hopkins University Press.
Clark, D. B. and Gibbons, J. W. 1969. Dietary Shift in the Turtle Pseudemys scripta (Schoepff) from Youth to Maturity. Copeia. 1969: 704-706.
Hart, D. R. 1983. Dietary and Habitat Shift with Size of Red-eared Turtles (Pseudemys scripta) in a Southern Louisiana Population. Herpetologica. 39: 285-290.
Downloads
Published
Issue
Section
License
Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.