Smallmouth Bass Page

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Smallmouth Bass (Micropterus dolomieui)

The predatory threat of invasive and large-bodied piscivorous taxa such as smallmouth bass in the upper Colorado River basin is substantial. For example, based on results of a bioenergetics model, Johnson et al. (2008) ranked smallmouth bass as the most problematic invasive species because of their high abundance, habitat use that overlaps with most native fishes, and ability to consume a wide variety of life stages of native fishes (Bestgen et al. 2008). Expanded populations of piscivores such as smallmouth bass are a major impediment to conservation actions aimed at recovery efforts for the four endangered fishes in the upper Colorado River basin (U.S. Fish and Wildlife Service 2002a, b, c, d). [1]

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PAGE, Ariz. —On July 1, 2022, juvenile smallmouth bass were found in the Colorado River below the Glen Canyon Dam. Smallmouth bass are a predatory non-native fish that have adversely impacted native and federally protected fish in the upper basin of the Colorado River over the last 20 years. The National Park Service (NPS) is working closely with partners and stakeholders to coordinate rapid response actions to address this finding in accordance with previously approved management plans.

Lower lake levels at Lake Powell and rising temperatures in the Colorado River have increased concerns that non-native, warm-water predators, including smallmouth bass, could pass through the dam and begin reproducing. If these warm-water predators establish populations below the dam, it is likely they would negatively impact native fish communities in Glen Canyon National Recreation Area and in Grand Canyon National Park.

The NPS encourages anglers to report any observations or catches of smallmouth bass below the dam. If caught, please remove the fish, put on ice and contact staff at Glen Canyon National Recreation Area or Grand Canyon National Park with a description of the location where found. Report findings to: Jeff Arnold, Glen Canyon National Recreation Area, e-mail us or Brian Healy, Grand Canyon National Park, e-mail us. [2]

Smallmouth bass overview

Description: Smallmouth bass are a non­native fish that was introduced into Arizona in 1921 (AGFD 2005). They are native to the upper Mississippi River basin. These bass are most often bronze to brownish in color, with dark vertical bars on the sides. In contrast to the largemouth bass, the upper jaw does not extend beyond the rear margin of the eye. The eye is reddish in color and there is a shallow notch in the dorsal fin. The soft dorsal fin has 13 to 15 rays. Length can vary between 12 and 22 inches, and smallmouth bass can weigh between 8 ounces and 7 pounds. [3]

Location and Habitat: Within its native range the smallmouth bass seems most abundant in pools of streams that consist of a substantial proportion of riffle habitat, clean, rocky, hard bottoms, and gradients of 0.5 to about 5.0 m per km. In large rivers and lakes, smallmouth bass tend to congregate over hard, stony bottoms, where currents are present (Minckley 1973). At the present time, smallmouth bass occur in the mainstream of the Colorado River, in the Verde River system, and throughout the Salt River Basin below about 2,200 meters in elevation (Minckley 1973). [4]

Temperature: Temperatures may be the most important single factor limiting distribution of smallmouth bass (Robbins and MacCrimmon 1974; Coutant 1975). Faster growth rates of adult smallmouth bass are generally associated with higher summer temperatures (Doan 1940; Brown 1961; Forney 1972). Faster growth rates occur in southern reservoirs, resulting in earlier death than in northern regions (Coutant 1975). In the summer, bass inhabit warmer shoreline areas of large lakes in the North and deeper, cooler waters in the South (Coutant 1975). Growth does not begin until water temperatures reach 10-14° C (Coble 1975). Field data indicate that adults prefer temperatures of about 21-27° C in the summer (Clancey 1980). Smallmouth bass have been reported "sunning" themselves in pools with water temperatures of about 26.7° C in summer (Munther 1970).

Temperature preferences of smallmouth bass vary considerably depending on the acclimation temperature (Ferguson 1958; Cherry et al. 1975; Coutant 1975). Smallmouth bass acclimated at 2.2-30.0° C selected temperatures of 20-32° C in laboratory tests (Mathur et al. 1981). Adult bass in the laboratory preferred temperatures of 28° C (Ferguson 1958; Bennett 1965) to 31° C (Barans and Tubb 1973; Coutant 1975). Optimum growth rates in the lab occurred at temperatures from 26-29° C (Peek 1965; Shuter et al. 1980; Wrenn 1980). Upper lethal temperatures for adults were above 32.3° C (Coble 1975).

When temperatures drop to 15-20° C, adults seek deep, dark areas (Webster 1954; Munther 1970). At about 10° C, bass become inactive and seek shelter (Coble 1975; Shuter et al. 1980). At 6-7° C, most smallmouth bass are beneath the rock substrate, with few remaining on top (Munther 1970). The lower lethal temperature is near freezing (Coble 1975). Bass will congregate around warm springs in winter when available (Coutant 1975).[5]

Turbidity and Dissolved Oxygen: Smallmouth bass apparently can tolerate periodic turbidity (Webster 1954; Cleary 1956), although excessive turbidity and siltation will reduce a population (Coutant 1975). Hubert and Lackey (1980) reported a typical smallmouth bass habitat to have very low turbidity, usually < 25 JTU, and almost never > 75 JTU (except under flood conditions when turbidity is sometimes as high as 250 JTU).[6]

Salinity: Smallmouth occur at pH levels of 5.7 (Clady 1977) to 9 (Paragamian 1979), although optimum pH is 7.9-8.1 (Funk and Pflieger 1975). Butler (1972) found that smallmouth bass cover-seeking behavior was reduced at pH levels < 6, and the lower lethal pH level was 3. Smallmouth bass populations are more productive in clearer, less fertile reservoirs several years after impoundment that have low total dissolved solids (TDS = 100-350 ppm) (Jenkins 1975, 1976).[7]

Reproduction: Spawning occurs from March though May in Arizona, when water temperatures reach 15C to 18C. Males fan an oval depression in sand or gravel through violent, lateral movements of the body and caudal fin. Individual nests usually contain about 2,000 fertilized ova; eggs hatch in 3 to 5 days at typical water temperatures; the young remain in the interstices of gravel for about a week. The fry then rise as a school, and are herded about and defended vigorously by the male until 30 to 40 mm in total length (Minckley 1973). [8]

Food: Foods of young smallmouth bass consist mostly of tiny crustaceans. As they grow, they shift over to insects, then to other fishes, and finally to a mixed diet of crayfish and other fishes. [9]

Risk: In Arizona, smallmouth bass reportedly are responsible for eliminating or reducing some populations of native fishes. [10]


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Flow fluctuations

Large fluctuations in water level can affect reproductive success (Pflieger 1975; Montgomery et al . 1980). Ideal spawning conditions include one or more substantial rises in water level a week or two prior to bass nesting (Pflieger 1975) and relatively stable water levels while nesting is in progress (Watson 1955; Pflieger 1975). Rising water may flush nest areas with cold water, causing nest desertion and halting embryo development (Watt 1959; Montgomery et al. 1980). Falling water levels may drive guarding males off, limit water circulation around eggs, and increase predation, resulting in lower reproductive success (Neves 1975; Montgomery et al. 1980).[11]

Fry seem to be especially vulnerable to flood conditions and fluctuating water levels (Larimore 1975). A rapid drop in water level may trap them in areas where they will become dessicated (Montgomery et al . 1980). A stream rise of only a few inches may displace advanced fry newly risen from the nest (Webster 1954). Most fry remain in shallow water (Doan 1940; Forney 1972), although some may be found at depths of 4.6.-6.1 m (Stone et al. 1954; Forney 1972). Fry 20-25 mm in length cannot maintain themselves in current velocities > 200 mm/sec (Larimore and Duever 1968). An increase in turbulence during flood conditions creates conditions with which smallmouth fry appear unable to cope (Webster 1954). Fry cannot tolerate and are displaced at high turbidities (2,000 JTU) combined with an increase in water velocity, but they will not be displaced at moderate turbidities (250 JTU) (Larimore 1975). Low water temperatures during flood conditions will reduce fry swimming ability (Larimore and Duever 1968).[12]

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