The team acquired DNA from the rough-nosed horned lizards by a catch-and-release approach of capturing wild lizards and taking tissue samples from the tips of their tails before releasing them back to the wild. The samples were taken in a humane way to minimize stress to the animals. Samples were taken across eight forests representing four forest groups in July through September 2018 and 2019, respectively. The remaining tissue samples will be housed along with photos of the lizards at the Department of Zoology and Environment Sciences, University of Colombo, Sri Lanka. In addition, the DNA analysis from the team’s work is also available online, where they are available for other researchers around the globe to study*.
In addition to habitat destruction, introduced, non-native species like cats and chickens eat these lizards, causing further harm to them and other prey animals. The team recommends a conservation strategy that considers the DNA or phylogenetic structure, history, and ecology of rough-nosed horned lizards to preserve genetic diversity.
The results from the DNA analysis found rough-nosed horned lizards are separated by distance into four forest groups: Southern Lowlands, Sabaragamuwa Hills, Central Highlands, and Kithulgala. With the Sri Lankan government pledging to restore rainforest habitats, the results from the study can help inform guidelines for forest landscape restoration. For example, the similarities in populations and close geographic proximity between the lizards living in the Hiyare and Kottawa forest reserves in the Southern Lowland forest group is a great candidate for habitat restoration. The two populations could be reconnected, increasing the chances for interbreeding, which could result in a stronger gene pool for future generations and less vulnerability to extinction.
“I hope this study brings attention to the unique and obscure biodiversity in the rainforests of Sri Lanka that require urgent conservation action,” Shanelle Wikramanayake said. “It’s important to consider the genetic diversity in populations across their range when looking at conservation planning and strategies. This principle should also be considered in other forest ecosystems, where conservationists are planning restoration and habitat connectivity at landscape scales.”
In addition to these lizards, the researchers are currently considering extending this work to other taxonomic groups and other regions of Sri Lanka of high conservation value. In Sri Lanka, approximately 14% of mammals, 6.5% of birds, 75% of reptiles, and 29% of flowering plant species aren’t found anywhere else in the world. The methods of DNA analysis in this study not only informs conservation planning in Sri Lanka, but also can also be applied to species living in other rainforests that are at risk, including Madagascar, Borneo, and the Amazon.
“I am proud and impressed with the hard work and passion that Shanelle Wikramanayake put into her project,” Adam Leaché, UW biology professor and Burke Museum curator of herpetology and genetic resources, said. “The Burke museum is lucky to recruit such amazing undergraduates.”
Study Information: Shanelle A. Wikramanayake, Eric D. Wikramanayake, Nirmalie Pallewatta, Adam D. Leaché. Integration of genetic structure into conservation of an endangered, endemic lizard, Ceratophora aspera: A case study from Sri Lanka. Biotropica, 2021;00:1–15. DOI: 10.1111/btp.12970
*DNA statistics from this study are available online at GenBank: mtDNA: GenBank accession numbers MT955097-MT955112; ddRADseq data: SRA accession numbers: SRR12586520-SRR12586535).
Article Source: Burke Museum