Abstract
Simple SummaryPopulation differentiation usually forms between geographically isolated populations. We compared the intestinal structures, digestive enzyme activities, and intestinal microbiomes in the Xingkai (XK) Lake and Dianshan (DS) Lake populations of Culter alburnus. We sought to discover the differentiated intestinal structure and functional divergence in the two geographically isolated populations. Our study indicated that significantly different intestinal structures, digestive enzymes activities, and intestinal microbiomes were presented in the two populations, which may have been due to adaptative evolution caused by the long-term geographical isolation.Geographical populations of Culter alburnus inhabiting different regions of China present substantial differences in their reproduction and development characters. This study compared the intestinal structures, digestive enzyme activities, and intestinal microbiomes in the Xingkai (XK) Lake and the Dianshan (DS) Lake populations of C. alburnus collected in two isolated and contrasting river systems. We wanted to discover whether the intestinal structure and functional divergence were formed in the two populations due to adaptive evolution caused by geographical isolation. Our study indicated that higher intestinal villi, thicker intestinal mucosa layer and intestinal muscle layer, and significantly higher activity of α-amylase were identified in the XK population. Moreover, quite different intestinal microbiomes were presented in the two populations, with the higher abundance of Bacteroidetes and Firmicutes in the XK population. The significantly different intestinal microbiome in the XK population was functionally enriched in carbohydrate, lipid, and amino acid metabolism by Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis. Our findings indicated that substantial adaptative divergence in the intestinal structures and intestine microbiomes was formed in the two populations due to long-term geographical isolation, which may have strongly affected the digestion and absorption ability of the XK population compared with the DS population.
Highlights
Significant population differentiation or environmental adaptation may lead to the formation of new, distinct species, which is a process called speciation [1]
It is well known that population differentiation requires at least partial reproductive isolation, which may result from geographical isolation or isolation by distance (IBD) or other factors [2]
Histological analysis showed a substantial difference in the intestinal structures between the two populations of C. alburnus (Figure 2)
Summary
Significant population differentiation or environmental adaptation may lead to the formation of new, distinct species, which is a process called speciation [1]. Many geographical populations of C. alburnus are formed and distributed in Xingkai Lake, Yellow River, Huai River, Yangtze River, and other river systems, which present differentiated population structures and substantial divergent characters [5,6,7]. Due to its unique geographic position and water environment, the C. alburnus population of Xingkai Lake forms an independent population structure, and presents divergent characters such as the characteristics of eggs, body shape, growth, and development compared to other populations of C. alburnus in the southern part of China, such as in the Yangtze River region [5,8,9]. The unique biological characteristics of the Xingkai Lake population make it an excellent model to investigate adaptation and genetic differentiation due to an isolated environment. Studies have indicated significant population differentiation between the Xingkai Lake and other populations, the underlying mechanism of the adaptative biological characters was not thoroughly investigated in the Xingkai Lake population of C. alburnus
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
