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Michigan Department of Natural Resources Kalamazoo County (T1S, R11W, Sections 25-27 and T1S, R10W, Sections 5-8, 12, 17-20, 29, 30) James L. Dexter, Jr. Environment Spring Brook is a small second-order tributary to the Kalamazoo River.
Located in north central Kalamazoo County, this high-quality designated
trout stream has a top-quality coldwater designation. Spring Brook enters
the Kalamazoo River 5 miles north of downtown Kalamazoo. Most of Spring Brook flows through a shrubby wetland. Near the lower
end the brook enters a manicured subdivision, then agricultural land,
and finally wooded wetland at the mouth. The underlying coarse soils in
this drainage are almost entirely made up of glacial outwash. Top soil
characteristics are nearly level to rolling, well-drained, and moderately
fine textured. Spring Brook's main source of water is the numerous springs which erupt
in many areas along the entire 9.3 mile water course. Five small first-order
tributaries feed Spring Brook. These tributaries (also spring fed) account
for an additional 7 miles of stream, although two of the tributaries are
intermittent in nature. Spring Brook falls 160 feet from its uppermost
source spring to the Kalamazoo River. The drainage area is 31.1 square
miles. The stream discharge averages 17 cubic feet per second (Cronk et
al. 1978) and is extremely stable. Spring Brook averages 13.5 feet wide and 14 inches deep. Aquatic habitat
throughout most of the stream is excellent. The site at CD Avenue (refer
to fish collection forms, 1991) serves as a reference site for MDNR Surface
Water Quality Division's GLEAS Procedure #51. The habitat characteristics
of Spring Brook was scored using this procedure as one of the five top
streams in the entire state (MDNR SWQD 1991). Habitat components throughout
the stream include undercut banks, pools, riffles, logs, overhanging brush,
and watercress. Most of these characteristics were rated as abundant to
extremely abundant. Bottom substrates in the three survey sites averaged 5% boulders, 10%
cobble, 54% gravel, 21% sand, and 10% silt. Little substrate embeddedness
by sand and silt was observed. No information could be found on any water
quality parameters. Because of many springs, water temperatures rarely
exceed 64°F. Benthic macroinvertebrates are plentiful. A total of 26 taxa were recorded
in 1991. Mayflies and caddisflies were extremely common, and stoneflies
were also abundant. Few streams in the State rival Spring Brook in insect
diversity. Development in the watershed is limited. The upper two-thirds is relatively
natural due to the wetland corridor. Low density housing exists in this
area. The lower third of the watershed is primarily subdivision with manicured
lawns to the stream bank, and active farm land. No State-owned land exists
along Spring Brook and several sections are posted "no fishing". However,
several large sections are open to fishing with landowner permission. Spring Brook has been managed for trout since at least 1926. Stocking
records indicate that brook trout were stocked from 1933 to 1958, while
brown trout were stocked from 1948 to 1957, and in 1968 and 1969. Rainbow
trout were stocked only in 1949, but catch records indicate the presence
of this species in 1929 as well. A small privately operated fish hatchery
that consisted of three ponds existed adjacent to the creek (T1S, R10W,
Section 19) around the turn of the century. I believe, however, it did
not operate long, as a 1926 field investigation reported a survey site
near "the old hatchery site". It is not known what was reared there, but
it probably was some species of trout. The ponds still exist, but are
not used. The earliest fishery survey on record was conducted in 1926. The investigators
found brook trout, mottled sculpin, and blacknose dace. The type of gear
used was not recorded, but it was probably a seine. A unique fish management problem occurred in the mid 1940s. Anglers placed
a dam at the mouth of Spring Brook and diverted its waters through a shallow,
open ditch into Farwell Creek, and then into Burns Creek. This latter
stream empties into the Kalamazoo River approximately 2 miles north of
the original mouth of Spring Brook. The diversion was designed to prevent
trout from entering the Kalamazoo River so near the City of Kalamazoo,
where pollution was thought to be a "menace to fish life" (Pratt 1953).
The success of the dam was never evaluated, and it does not exist today. The most complete historical inventory occurred in 1949 and 1950 (Pratt
1953). Species present then were brook trout, brown trout, rainbow trout,
white sucker, blacknose dace, mottled sculpin, and grass pickerel. Spring
Brook was very productive, as indicated by mark-recapture estimates (Petersen
formula) of fish populations. In June of 1950 there were an estimated
205.6 pounds of trout per acre. All other species accounted for another
57 pounds per acre. However, note that of the estimated trout biomass,
stocked trout represented a substantial percentage. For example, in 1949
Spring Brook was stocked with 3,900 brown trout averaging 9.0 inches and
3,200 brook trout averaging 8.0 inches. Pratt (1953) attempted to determine the survival of hatchery trout and
their effect on wild trout. He concluded that the hatchery trout provided
a significant portion of the population and recommended legal-size trout
be stocked on a monthly basis during the first portion of the trout season.
This has since been proven to be a poor recommendation, since stocking
was discontinued in 1969 and the stream continues to provide an extremely
good, well-known trout fishery. Fish surveys during the 1960s and 1970s indicated the same species composition,
plus an occasional creek chub, American brook Lamprey, and young-of-the-year
(YOY) large-mouth bass. Bass were undoubtedly escaping to the creek from
many of the numerous ponds that riparians dug adjacent to the creek. In
a 1982 survey, several green sunfish and rock bass were collected. The fish community of today is not much different from that of 65 years
ago. In July 1991, population estimates (Bailey modification of the Petersen
formula) were conducted on three sections of Spring Brook with 110-volt
D.C. electrofishing gear. Brown trout provided the majority of the biomass,
with the remainder made up of brook trout, mottled sculpin, and white
sucker (Table 1). Two smallmouth bass were captured at Riverview Drive,
the lowermost site surveyed. Not found, for reasons unknown, were blacknose
dace (formerly abundant) and several other species previously reported
as rare. The trout fishery in Spring Brook is considered to be one of the best
in Southern Michigan. Although few brook trout are found in the mainstream,
their presence still attracts anglers. Brown trout sustain the fishery.
Trout biomass estimates (pounds per acre) at three stations ranged from
56 at Riverview Drive subdivision area to 101 at site CD Avenue (undisturbed
wetland area), and averaged 83.5. The trout population in Spring Brook is comparable with the best trout
streams that Michigan has to offer (Gowing and Alexander 1980). Although
the 1991 estimate is not as high as the 1950 estimate, (83 versus 205
pounds per acre) it probably does not indicate a significant decline in
trout quality. The 1991 data is for wild trout only, whereas the prior
estimate includes both wild and stocked trout. In addition, the statistical
confidence limit on the 1950 estimate is probably wide. The 1991 survey
had an average electrofishing efficiency of 74%, whereas the 1950 estimate
had an efficiency of only 40%. Brown trout are the mainstay of the fishery. We collected browns ranging
from 2 to 20 inches. All specimens were extremely healthy in appearance.
Recruitment of YOY brown trout is good (Figure
1), although our efficiency on 2-4 inch trout was poor overall. Brook
trout are sparse, and all were collected from one pool at the Riverview
Drive site. No YOY brook trout were captured. These most likely can be
found in the upper headwater areas and tributaries that were not surveyed.
Pratt (1953) suggested that most of these tributaries contained brook
trout and would continue to seed the mainstream. A tributary survey should
be made to determine if this is true. Age and growth characteristics of brown trout in Spring Brook are good
for the population as a whole (Table 2). However, growth becomes slower
with each successive year class. This may be density related. Three observations
have been derived from their age-frequency distribution (Table 3). First,
the typical ineffectiveness of electroshocking YOY trout shows up. Our
efficiency with this age group was very poor. Second, a depressed (weak)
age one cohort is evident. Electroshocking efficiency of age one or older
was very good. Third, a significant mortality (angling and/or natural)
occurs between age II and III. Few trout survive in Spring Brook past
age III. I believe a large portion of this mortality is angling related.
Compared with the estimated age frequency from 1950 (Table 3), the age
structure for 1991 is very similar except for a notable decrease in survival
of age II to age III brown trout. Perhaps most of the harvest in 1950
was made up of stocked trout, and the bulk of the wild trout were left
alone. Few if any streams in Southern Michigan rival Spring Brook in production
of wild trout. Although it has enjoyed a good reputation for decades,
the stream is not overfished. The stream does have its faithful anglers,
however, many of whom like to take a limit or two of trout home each year.
The environmental conditions of the watershed appear little changed over
the last 60-70 years. Perhaps the only threat in the near future will
be the continued residential development in the watershed. This may lead
to increased nutrient enrichment of the stream from both septic systems
and lawn fertilizers. Spring Brook should continue to be managed as a top-quality, coldwater
designated trout stream. Significant natural reproduction of brown trout
and some reproduction by brook trout will continue to provide the creek
with excellent angling opportunities. Stocking Spring Brook would probably
be detrimental to the wild population. No fisheries management action need be taken at this time. Continued
monitoring of the stream conditions by faithful riparian landowners will
keep us appraised of problems as they arise. Our management goal into
the next century should be to maintain the existing fishery at its present
level by working with stream riparian landowners to maintain careful habitat
management. Report completed: October 1992. Cronk, C., et al (21 authors). 1978. Kalamazoo County. Geology and the
Environment. Western Michigan University. Kalamazoo. Staff Report, Reference Site Scores for Wadable Streams, 1990-1991. Michigan
Department of Natural Resources, Surface Water Quality Division, MI/DNR/SWQ-91/291,
Lansing. Pratt, V.S. 1953. Populations, ecology, and Management of Marginal Trout
Streams in Southern Michigan. Graduate Thesis, University of Michigan.
Ann Arbor. Gowing, H., and G. R. Alexander. 1980. Population dynamics of trout in
some streams of the northern Lower Peninsula of Michigan. Michigan Department
of Natural Resources, Fisheries Research Report 1877, Ann Arbor. Table 1.-Species, relative abundance, and length of fish collected
by stream electrofishing at three stations on Spring Brook, July 29-30,
1991.
Table 2.-Average total length (inches) at age, and growth relative
to the state average, for fish sampled from Spring Brook July 29-30, 1991.
Number of fish aged is given in parentheses.
Table 3.-Estimated age frequency (percent) of fish caught from
Spring Brook with stream electroshocking equipment, July 29-30, 1991.
These are compared to the estimated age frequency of brown trout collected
in 1950 (Pratt 1953).
Last Update: 08/06/02
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