A high-density genetic linkage map is of particular importance in the fine mapping for important economic traits and whole genome assembly in aquaculture species. The channel catfish (
Ictalurus punctatus
), a species native to North America, is one of the most important commercial freshwater fish in the world. Outside of the United States, China has become the major producer and consumer of channel catfish after experiencing rapid development in the past three decades. In this study, based on restriction site associated DNA sequencing (RAD-seq), a high-density genetic linkage map of channel catfish was constructed by using single nucleotide polymorphisms (SNPs) in a F
1
family composed of 156 offspring and their two parental individuals. A total of 4,768 SNPs were assigned to 29 linkage groups (LGs), and the length of the linkage map reached 2,480.25 centiMorgans (cM) with an average distance of 0.55 cM between loci. Based on this genetic linkage map, 223 genomic scaffolds were anchored to the 29 LGs of channel catfish, and a total length of 704.66 Mb was assembled. Quantitative trait locus (QTL) mapping and genome-wide association analysis identified 10 QTLs of sex-related and six QTLs of growth-related traits at LG17 and LG28, respectively. Candidate genes associated with sex dimorphism, including
spata2, spata5, sf3, zbtb38
, and
fox
, were identified within QTL intervals on the LG17. A sex-linked marker with simple sequence repeats (SSR) in
zbtb38
gene of the LG17 was validated for practical verification of sex in the channel catfish. Thus, the LG17 was considered as a sex-related LG. Potential growth-related genes were also identified, including important regulators such as
megf9, npffr1
, and
gas1
. In a word, we constructed the high-density genetic linkage map and developed the sex-linked marker in channel catfish, which are important genetic resources for future marker-assisted selection (MAS) of this economically important teleost.
Pond aquaculture is the primary practice of the freshwater aquaculture industry worldwide with respect to both output and area (Tang, Han, Mao, Zhang, & Shan, 2016), providing many employment opportunities and safe aquatic products (Edwards, 2015). However, pond aquaculture also has adverse effects on the environment (Li et al., 2011), being a cause of water eutrophication in China and worldwide (Lemonnier, Hochard, Nakagawa, Courties, & Rodier, 2017). In contrast, pond industrial eco-aquaculture systems recycle and reuse the aquaculture water, reducing the negative effects on the ecological environment (Qu, Zhang, Jia, Liu, & Yang, 2017).The industrial recirculating aquaculture system was developed to improve the efficiency and sustainability of intensive aquaculture
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.