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W4362587890 startingPage "739528" @default.
W4362587890 abstract "The body color retention of domesticated organisms in traditional agricultural systems results from long-term natural selection and human intervention, which usually encompasses the local understanding and management experience of the species. Exploiting the body color trait advantage and genetic potential of domesticated animals will help to select breeding stock, improve farmers' economic income, and provide insight into future sustainable agriculture design to utilize locally appropriate populations. In this study, the rice-fish coculture system, a Global Important Agriculture Heritage System (GIAHS) in Qingtian County, Zhejiang Province, China, was selected as the representative research system. Four body color (red, red-black, bronze and cyan) of the indigenous species Qingtian paddy field carp (Cyprinus carpio) were selected to compare the economic trait advantages such as the growth performance, nutritional quality of the fish, and the rice yield cocultured with the carp. Besides, the genetic resources and population structure of different body colors were also examined through mitochondrial D-loop gene. Our results show that there are two subgroups of the four populations (K = 2). Among them, the bronze-colored group occupied one subgroup with a large number of unique haplotypes, showing great genetic differentiation from other body color groups. The red and the red-black-colored groups have higher genetic diversity and more frequent gene flow between each other. The genetic diversity of the cyan and the bronze-colored groups were relatively low with more regionally restricted. Three economic indexes showed that the nutritive values of the carps with the four body colors were relatively similar and had no effect on rice yield under the same feeding conditions. Among them, the red-black-colored group had the best specific growth rate (SGR, P < 0.01), weight gain rate (WGR, P < 0.01) and linoleic acid content (P < 0.05). The cyan-colored group had the lowest WGR and SGR, but had the strongest paddy field survival ability (P < 0.01). In summary, the red-black-colored group are rich in genetic diversity and have the best breeding potential and environmental adaptability, which is the most suitable body color for paddy field cultivation." @default.
W4362587890 created "2023-04-06" @default.
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W4362587890 date "2023-07-01" @default.
W4362587890 modified "2023-09-23" @default.
W4362587890 title "Body color selection of domesticated carp (Cyprinus carpio) in traditional agricultural systems: Insight provided by growth performance, nutritional quality, and genetic diversity" @default.
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W4362587890 cites W1969342629 @default.
W4362587890 cites W1982127572 @default.
W4362587890 cites W1982558293 @default.
W4362587890 cites W1987058701 @default.
W4362587890 cites W1990074132 @default.
W4362587890 cites W2008505800 @default.
W4362587890 cites W2008737429 @default.
W4362587890 cites W2010495419 @default.
W4362587890 cites W2027156969 @default.
W4362587890 cites W2030570460 @default.
W4362587890 cites W2035839217 @default.
W4362587890 cites W2042523421 @default.
W4362587890 cites W2043584813 @default.
W4362587890 cites W2043790441 @default.
W4362587890 cites W2049310103 @default.
W4362587890 cites W2051297452 @default.
W4362587890 cites W2055543630 @default.
W4362587890 cites W2056464864 @default.
W4362587890 cites W2061942595 @default.
W4362587890 cites W2064497209 @default.
W4362587890 cites W2067424783 @default.
W4362587890 cites W2077289205 @default.
W4362587890 cites W2084922050 @default.
W4362587890 cites W2087583425 @default.
W4362587890 cites W2121065501 @default.
W4362587890 cites W2122604797 @default.
W4362587890 cites W2126753786 @default.
W4362587890 cites W2127361948 @default.
W4362587890 cites W2138385497 @default.
W4362587890 cites W2143599510 @default.
W4362587890 cites W2150746038 @default.
W4362587890 cites W2152564589 @default.
W4362587890 cites W2154845780 @default.
W4362587890 cites W2290290485 @default.
W4362587890 cites W2311203695 @default.
W4362587890 cites W2468460989 @default.
W4362587890 cites W2579267067 @default.
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W4362587890 cites W2601995504 @default.
W4362587890 cites W2733484384 @default.
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W4362587890 cites W2921042367 @default.
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W4362587890 doi "https://doi.org/10.1016/j.aquaculture.2023.739528" @default.
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