The northern studfish (Fundulus catenatus) is the largest of the killifish and is native to the south central United States. The mean average length for adults is ~3" to 6" and the sexually dimorphic males have horizontal rows of bright orange spots on light blue background and a bright orange tail margin followed by a nearly black band during breeding season. Females are more cryptic colored in shades of beige and olive. Their body shape is elongate and narrow and lacks a lateral line. Northern studfish have spineless fins and both the anal and dorsal fins are large.
Upper East Fork White River system, Indiana; upper Salt and Kentucky River drainages, Kentucky; upper Green middle, and lower Cumberland, and Tennessee River drainages, Virginia, Kentucky, Tennessee, Alabama, and Mississippi; West of Mississippi River (primarily Ozark and Ouachita uplands) in central and southern Missouri, southeastern Kansas, eastern Oklahoma and southern Arkansas; southwestern Mississippi in Mississippi (Coles Creek, Homochitto River, and Buffalo Bayou) and Gulf Slope drainages (Amite River and Pearl River) Live bait buckets and releases of aquarium pets has caused expansion of the native distribution of this species.
Northern studfish are egg layers and prefer clear, shallow pools and rocky creeks that have a mixed sand/gravel substrate and constant, sluggish flow. Males do not build nests but they do stake out a territory and defend it. Females lay a clutch of 28 to 245 eggs and give no parental care to their young. Their main diet consists of insects which they skim from the surface of the water but they have also been known to consume snails.
Northern studfish are listed as threatened in the state of Tennessee. Causes for declining numbers range from introduction of aggressive non native fish species like the mosquitofish (Gambusia spp) to anthropomorphic related loss of water quality and movement from habitat alteration. Northern studfish require clear water so control of sediment is integral. Current management practices are to plant riparian zones in order to stabilize the streambanks and control run off from agriculture and construction projects.
- Ensure that construction does not hinder fish movement by adding tunnels under roadways
- Invasive species control of aggressive fish that are out competing northern studfish
- Implementation of riparian zones to stabilize streambanks and minimize sedimentation from agriculture and construction which will ensure the required water quality
- "Northern studfish". A-Z Species Guide. ODNR Division of Wildlife. Retrieved 19 November 2012.
- Burr, B.M. and L.M. Page. "Zoogeography of the Fishes of the Lower Ohio-upper Mississippi Basin." The Zoogeography of North American Freshwater Fishes. John Wiley and Sons, New York, NY. pp287-324.
- Lonzarich, David G., MR Lonzarich and ML Warren, Jr. "Effects of Riffle Length on the Short-Term Movements of Fishes Among Stream Pools." Canadian Journal of Fisheries and Aquatic Sciences. 57(7):1508-1514.
- Mette, Maurice F., PE O'Neil and J. Malcom. Monograph 15 Fishes of Alabama and the Mobile Basin.
- Sutton, Trent M., RA Zeiber and BE Fisher. "Agonistic Behavioral Interactions Between Introduced Western Mosquitofish and Native Topminnows." Journal of Freshwater Ecology.
- Warren, M.L. Jr. and M.G. Pardew. "Road Crossings as Barriers to Small Stream Fish Movements." American Fisheries Society 127:637-644.
- Further Reading
- Fisher, JW. "Ecology ofFundulus catenatus in Three Interconnected Stream Orders." American Journal Midland Naturalist. 106(2): 372-378.
- Lonzarich, David G., ML Warren, Jr., and MR Elger Lonzarich. "Effects of Habitat Isolation on the Recovery of Fish Assemblages in Experimentally Defaunated Stream Pools in Arkansas. Canadian Journal of Fisheries and Aquatic Sciences. 55(9):2141-2149.