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Rice paddy snake diversification was driven by geological and environmental factors in Thailand, molecular data suggests

Date:
March 12, 2024
Source:
University of Kansas
Summary:
A new study of rice paddy snakes in Southeast Asia gives key details to their diversification and natural history, adding molecular evidence that the rise of the Khorat Plateau and subsequent environmental shifts in Thailand may have altered the course of the snakes' evolution some 2.5 million years ago.
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A University of Kansas study of rice paddy snakes in Southeast Asia gives key details to their diversification and natural history, adding molecular evidence that the rise of the Khorat Plateau and subsequent environmental shifts in Thailand may have altered the course of the snakes' evolution some 2.5 million years ago. The findings were published today in the journal Scientific Reports.

Researchers say the implications could help tell the story of diversification more broadly in the region.

"This paper concerns mud snakes typically found in aquatic systems across Southeast Asia, South Asia, East Asia, Australia and New Guinea," said lead author Justin Bernstein, a KU Center for Genomics postdoctoral researcher. "Deeper-level relationships regarding their evolution have recently begun to be studied, particularly through genome-scale data. However, finer-scaled evolutionary patterns remain to be fully revealed."

Bernstein, who currently serves at the University of Texas-Arlington, said the mud snakes, a family known as the Homalopsidae, are commonly found today in aquatic systems. Bernstein's newest work on the homalopsids focuses on a subgroup called rice paddy snakes that are commonly found in agricultural fields and freshwaters streams in Southeast Asia.

Although recent research has touched on the diversity of rice paddy snakes, their geographic distribution has touched off scientific speculation: One hypothesis suggests that around 2.5 million years ago, a plateau in Central Thailand, known as the Khorat Plateau, emerged from the ground, leading to the separation and subsequent diversification of snake populations over time. Indeed, molecular data provided insights into the timing of species diversification that aligned with the formation of the plateau.

However, a later genome-scale study challenged this hypothesis by pushing the divergence date backward, predating the plateau's formation.

"This discrepancy raises questions about the accuracy of different datasets in determining evolutionary timelines," Bernstein said. "To address this, our paper employs more limited molecular datasets but with more robust analyses and denser sampling to test the hypothesis. Our results suggest that the group indeed diversified after the Khorat Plateau rose, and environmental changes over time further contributed to their divergence."

Past that, the research team found varied differences in preferred habitats among different snake species using past and present niche models, hinting that other environmental factors might have influenced their routes toward diversification and geographic distribution.

Bernstein's collaborator included co-author Rafe Brown, KU professor of ecology & evolutionary biology and curator-in-charge of the Herpetology Division at KU's Natural History Museum & Biodiversity Institute. Other co-authors included Harold Voris and Sara Ruane of the Field Museum in Chicago; Bryan Stuart of the North Carolina Museum of Natural Sciences; the late Daryl Karns of Hanover College; Jimmy McGuire of the University of California-Berkeley, Djoko Iskandar of the Institut Teknologi Bandung in Indonesia; Awal Riyanto of the National Research and Innovation Agency of Indonesia; Camilo Calderón?Acevedo of the State University of New York: College of Environmental Science and Forestry; Marcelo Gehara of Rutgers University-Newark; and J. Angel Soto?Centeno of Rutgers University-Newark and the American Museum of Natural History.

Bernstein and his collaborators relied on molecular data along with ecological niche modeling to shed new light on the rice paddy snakes, which depended on data about where specimens were located in the field. This approach could help conservation efforts going forward, or predictions of how species might fare in climate change scenarios.

"The whole point of ecological niche modeling, put simply, is if I take, say, 100 occurrence points for those snakes, and then I use 19 environmental data layers that correspond with each point, and compare it to a background -- which would be the landscape with its environmental data regardless of snake occurrence points -- do we see correlations and patterns?" Bernstein said. "You're trying to determine the habitat suitability of your species of interest across a broad landscape, including areas where they have not been recorded from."

He said the environmental data includes variables like temperature differences, seasonality and precipitation at different points in time, such as quarterly, monthly or annually.

"These 19 layers containing the environmental factors are 'stacked' in a way that each GPS coordinate -- where a snake occurrence record is -- has a set of 19 environmental variables associated with it," Bernstein said.

For instance, via this approach Bernstein said while these rice-paddy snakes don't exist in the Philippines, there are suitable habitats based off of where they live in Indochina.

"Hypothetically they could live there," he said. "That doesn't mean they do. There is no evidence suggesting they are able to get across ocean waters and enter the Philippines, and it would be highly unlikely for that scenario to occur. But the analysis is just indicating there is suitable habitat elsewhere, in addition to where we find them now, and that can be really useful. If it's a continuous landscape and you haven't found any individuals of a species in a particular area, but you see high habitat suitability, maybe you can go find a population that is presently unknown to exist."

The research builds on two of Bernstein's earlier works. One study combines genetic analyses of older museum specimens' mitochondrial DNA with fresher genetic samples from recent field collections of mud snakes to learn more about diversity of homalopsids, including rice paddy snakes. The other study is a more focused study that described a new rice paddy snake species and posited the hypothesis of the Khorat Plateau based on current data but lacked the power to test it.

While many species of the mud snakes are drab, Bernstein said others are highly charismatic.

"Some have tentacles as appendages on their face," he said. "You could find two of the same species in one hole, like a mud lobster hole, where one is white and black, and the other is bright red and black -- very striking. Some have speckled yellow bellies, while others are black with bright orange flecks and stripes down their back. And other species have unique behaviors that are not seen in the 4,000-plus species of snakes. They are truly stunning snakes."

Ultimately, the mud snake's value may be in serving to show how species, and their morphological diversity, evolves over time, as well as how other organisms may react to changes in the ecosystems they live in.

"I saw a lot of opportunity in them as a model system for investigating biogeography," Bernstein said. "Honestly, using them more as a model system for understanding how species change or remain stable over time has been really valuable. We have several studies we want to pursue further, and many more in the works, and it all begins with understanding their evolutionary relationships."


Story Source:

Materials provided by University of Kansas. Original written by Brendan M. Lynch. Note: Content may be edited for style and length.


Journal Reference:

  1. Justin M. Bernstein, Harold K. Voris, Bryan L. Stuart, Daryl R. Karns, Jimmy A. McGuire, Djoko T. Iskandar, Awal Riyanto, Camilo A. Calderón-Acevedo, Rafe M. Brown, Marcelo Gehara, J. Angel Soto-Centeno, Sara Ruane. Integrative methods reveal multiple drivers of diversification in rice paddy snakes. Scientific Reports, 2024; 14 (1) DOI: 10.1038/s41598-024-54744-z

Cite This Page:

University of Kansas. "Rice paddy snake diversification was driven by geological and environmental factors in Thailand, molecular data suggests." ScienceDaily. ScienceDaily, 12 March 2024. <www.sciencedaily.com/releases/2024/03/240312133849.htm>.
University of Kansas. (2024, March 12). Rice paddy snake diversification was driven by geological and environmental factors in Thailand, molecular data suggests. ScienceDaily. Retrieved April 13, 2024 from www.sciencedaily.com/releases/2024/03/240312133849.htm
University of Kansas. "Rice paddy snake diversification was driven by geological and environmental factors in Thailand, molecular data suggests." ScienceDaily. www.sciencedaily.com/releases/2024/03/240312133849.htm (accessed April 13, 2024).

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