Informative Correlations Among Metrics of Yellowstone Lake Cutthroat Trout Caught by Two Quantitative Methods Across Three Recent Decades
Informative Correlations Among Metrics of Yellowstone Lake Cutthroat Trout Caught by Two Quantitative Methods Across Three Recent Decades

Author: Lynn Robert Kaeding

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Published: 2013

Total Pages: 5

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The Yellowstone Cutthroat Trout Oncorhynchus clarkii bouvieri (YCT) of Yellowstone Lake, in Yellowstone National Park, Wyoming, is an iteroparous fish and obligate stream spawner. The size and several other attributes of the annual YCT spawning run in one lake tributary, Clear Creek, have been periodically estimated for several decades. The trends in that run's metrics have been assumed to depict the trends in the lake's YCT population as a whole, although such associations had not been substantiated by statistical analyses. The present study revealed strong correlations between metrics of YCT in the run (years 1977-2007) and of "prespawner" YCT (i.e., mature fish whose excised gonads indicated that the fish would have spawned the next year) caught in gill nets set in various lake locations the preceding fall. Data for both capture methods also revealed a negative effect of spawning population density on YCT somatic growth, which is known to be positively associated with fecundity. This study showed that most metrics of YCT in the Clear Creek spawning run were indicative of those of prespawner YCT in Yellowstone Lake and aided the development of population models that are needed to determine the causal factors in the recent, three-decade population decline of YCT.

Mortality Studies on Cutthroat Trout in Yellowstone Lake [by] Orville P. Ball and Oliver B. Cope
Mortality Studies on Cutthroat Trout in Yellowstone Lake [by] Orville P. Ball and Oliver B. Cope

Author: Orville P. Ball

Publisher:

Published: 1961

Total Pages: 72

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In a study of the Yellowstone Lake cutthroat trout, Salmo clarki lewisi, by the U.S. Fish and Wildlife Service, effects of environment on mortality of eggs, immature fish, spawners, and postspawners were measured for various components of the population in Yellowstone Lake (Wyoming). Five methods for estimating mortality of adults on spawning runs are described, with counting and tagging as the principal procedures. Of the total number of eggs deposited in the gravel, 60 to 75 percent died before hatching, and 99.6 percent had died by the time the fingerlings enetered Yellowstone Lake. In Arnica Creek runs, 48.6 percent died in the stream, 40.2 died later in the lake of natural causes, 7.6 were taken by fishermen, and 3.6 percent were alive 2 years later. The white pelican is a serious predator on cutthroat trout in Yellowstone Lake. From 1949 to 1953 fishermen caught 11.6 percent of the catchable trout available to them. Migrations of adult fish in Yellowstone Lake were traced through tagging.

Relative Contributions of Climate Variation, Lake Trout Predation, and Other Factors to the Decline of Yellowstone Lake Cutthroat Trout During the Three Recent Decades
Relative Contributions of Climate Variation, Lake Trout Predation, and Other Factors to the Decline of Yellowstone Lake Cutthroat Trout During the Three Recent Decades

Author: Lynn Robert Kaeding

Publisher:

Published: 2010

Total Pages: 200

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The relative contributions of climate variation, lake trout Salvelinus namaycush predation, and other factors to the recent, three-decade decline of the lacustrine-adfluvial (i.e., a life-history form consisting of fish that mostly live in a lake but spawn in an inflowing tributary) Yellowstone cutthroat trout Oncorhynchus clarkii bouvieri (YCT) population of Clear Creek, a Yellowstone Lake tributary, were evaluated. Strong growth of that population's storied spawning run between the early 1960s and 1978, when the run peaked at about 70,000 fish, had been considered key evidence of recovery of the lake's YCT population from formerly excessive angler harvest and other adverse factors. Thus the run's subsequent, almost continuous decline to about 500 fish in 2007 was perplexing. Gillnet catches of YCT at established lake locations likewise indicated a concurrent decline in the lake-wide YCT population. Prominent among the factors that may have importantly affected the YCT population during the recent decades was predation by the illegally introduced, reproducing, nonnative lake trout discovered in Yellowstone Lake in 1994. Data mainly taken from YCT in the spawning run (n = 29 years) and gillnet catch (n = 30 years) were examined for information useful to specifying the Leslie matrix of a dynamic, age-structured model that had climate as a covariate. The model, fitted to spawning run size and mean total length (TL) of YCT in the run during 1977-2007 (n = 29 data years), explained 87% of variation in observed run size, 86% of variation in observed mean TL, and strongly suggested that climate (as indexed by total-annual air degree-days> 0°C measured on the lake's north shore) had an important effect on recruitment of age-0 YCT to subsequent spawning runs. Results also suggested that an effect of lake trout predation on survival of age-1 to age-5 YCT became apparent only during the recent decade. The important test of ongoing efforts to control lake trout in Yellowstone Lake and thereby limit their predation on YCT - on the basis of data for YCT - will occur when climatic conditions improve for YCT recruitment to the Clear Creek and other YCT spawning stocks of the lake.

Equilibrium Yield and Management of Cutthroat Trout in Yellowstone Lake
Equilibrium Yield and Management of Cutthroat Trout in Yellowstone Lake

Author: Norman Gustaf Benson

Publisher:

Published: 1963

Total Pages: 52

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Equilibrium yield of the cutthroat trout, Salmo clarki lewisi Girard, in Yellowstone Lake, Wyo., is determined from data on catch and spawning runs from 1945 to 1961. Changes in growth rate, spawning runs, mortality rates, and year-class strength are related to differences in total catch. Three stages of exploitation of the stock are defined and the maximum safe catch or equilibrium yield is estimated at 325,000 trout. Management of the sport fishery according to equilibrium yield is discussed with reference to regulations, distribution of fishing pressure, planting, and interspecific competition. The Yellowstone River fishery is treated briefly.

Fluctuations in Age Composition and Growth Rate of Cutthroat Trout in Yellowstone Lake
Fluctuations in Age Composition and Growth Rate of Cutthroat Trout in Yellowstone Lake

Author: Ross V. Bulkley

Publisher:

Published: 1961

Total Pages: 40

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Age composition, growth rate, and year-class strength of Yellowstone Lake cutthroat trout from collections made in 1948 and from 1950 to 1959 are analyzed to relate total catch changes in age composition and growth rate. An increase in growth rate of fish fully recruited to the fishery and a decrease in percentages of fish belonging to age groups VI and VII are attributed to an increase in fishing pressure. Mean age of the catch varied with year-length of the catch has remained high, suggesting that production is more efficient now than in past years. Maximum equilibrium yield may be near. If the catch continues to increase at the present rate, it may become excessive within the next few years.

Predicting Year-class Abundance of Yellowstone Lake Cutthroat Trout
Predicting Year-class Abundance of Yellowstone Lake Cutthroat Trout

Author: Ross V. Bulkley

Publisher:

Published: 1962

Total Pages: 32

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Fluctuations in strength of year classes from 1945 to 1956 of Yellowstone Lake cutthroat from Pelican and Chipmunk Creeks are compared with the parental stock and several climatically influenced factors of the environment. Variations in year-class strength in the two tributaries were highly correlated with fluctuations in lake water levels. Strong year classes occurred in yeas of low water. Female spawner escapement, timing of the runs, and summer air temperatures were not significant factors. A formula based on water levels is presented for predicting year-class strength in Pelican Creek and in the Fishing Bridge area fishery. Stocking of fry in years of high water is suggested as a means of supplementing natural production. A method of forecasting lake water levels several months in advance of their occurrence is discussed.

Revised Bibliography on the Cutthroat Trout
Revised Bibliography on the Cutthroat Trout

Author: Oliver B. Cope

Publisher:

Published: 1964

Total Pages: 52

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This paper is a compilation of 221 abstracts of publications on the biology, culture, distribution, and management of the cutthroat trout, Salmo clarki Richardson. The 1958 publication, "Annotated Bibliography on the Cutthroat Trout," contained 135 abstracts, which have been incorporated with recent ones to form the present report.

Hooking Mortality of the Yellowstone Cutthroat Trout, Salmo Clarki Lewisi, in Yellowstone Lake
Hooking Mortality of the Yellowstone Cutthroat Trout, Salmo Clarki Lewisi, in Yellowstone Lake

Author: Don Hunsaker

Publisher:

Published: 1965

Total Pages: 19

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INn the ten years from 1950 to 1960, the number of annual angling hours on Yellowstone Lake, Wyoming, increased from 191,989 to 407,327. In 1964, a total of 488,563 hours of anglers effort was recorded. The shoreline fishery by itself accounted for 167,704 anglers. This increase in angler effort has been accompanied by a greater harvest of fish and is characteristic of the increased sportfishing pressure throughout the United States. With an expanding human population the sport of fishing is continually gaining popularity and growing concern has been voiced in recent years about the gradual depletion of our sport fishery resources due to angler take. In Yellowstone, the importance of greater conservation effort is evidenced by the fact that some 20,000 cutthroat trout were discarded to waste in 1959. Either larger numbers of catchable size fish must be made available or some practical method of conserving individual fish must be developed without detracting from the purely sporting aspects of angling. A potentially rewarding solution to this problem is the possibility of instigating an effective "Fishing-for-Fun" philosophy where anglers would catch fish for the sport of it and immediately return them to the water. Although this idea was initiated in Yellowstone National Park in 1960, in practice, public acceptance and biological benefit have not been measured. This proposed project will establish the feasibility of a large scale catch and return fishing program at Yellowstone lake and contribute significant data to similar programs in other fresh water areas. The research will be under the direction of Don Hunsaker II and F. Phillip Sharpe. All the important factors of the problem will be considered and tested. The project will begin in January, 1966, and extend for a period of three years until December, 1968.

Natural Variation in Spotting, Hyoid Teeth Counts, and Coloration of Yellowstone Cutthroat Trout
Natural Variation in Spotting, Hyoid Teeth Counts, and Coloration of Yellowstone Cutthroat Trout

Author: Ross V. Bulkley

Publisher:

Published: 1963

Total Pages: 20

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Differences in hyoid teeth and spotting counts among samples from four related populations of Yellowstone cutthroat trout, Salmo clarki lewisi Girard, reached species and subspecies levels as defined by some workers. Body coloration varied significantly among fish in six spawning runs of Yellowstone Lake, Wyo. The use of coloration, spotting, and hyoid teeth counts in cutthroat trout for taxonomic purposes needs reevalution.

Age, Growth, Maturity, and Fecundity of Yellowstone Lake Cutthroat Trout
Age, Growth, Maturity, and Fecundity of Yellowstone Lake Cutthroat Trout

Author: Lynn Robert Kaeding

Publisher:

Published: 2011

Total Pages: 14

ISBN-13:

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Demographic data are sparse for Yellowstone cutthroat trout (Oncorhynchus clarkii bouvieri; YCT). Data for YCT in the spawning run (spring; 29 years) of a Yellowstone Lake tributary or caught in gill nets set (fall; 30 years) at established lake locations between 1977 and 2007 were examined. Female proportion in runs averaged 0.61 but was 0.48 among gillnetted "prespawner" YCT (i.e., mature fish whose excised gonads indicated the fish would have spawned the next year). Maturity proportion-total length (TL) relationships for gillnetted female and male YCT were logistic-shaped and similar in their inflection points; maturity onset occurred at 200?250 mm TL; ~95% of YCT [greater than or equal to] 400 mm TL were mature and 70% were prespawners. Fecundity was positively associated with YCT TL. Accuracy of scale-based YCT ages was affected by a frequently overlooked scale annulus and an inability to unequivocally identify fish of a single cohort on the basis of scale characteristics using associated, recognized ageing criteria for this population. Temporal differences in fits of a modified von Bertalanffy growth model to YCT TL at capture and scale-based age probably resulted from ageing errors evident among successive, annual scale analysts rather than differences in YCT growth. Nevertheless, when the age estimates of one, long-term analyst were used in analyses, the estimated growth parameters L[infinity] and [omega] were concordant with empirical observations of the maximum TL of YCT and TL of age-1 YCT in Yellowstone Lake, respectively. The demographic relationships and linking, parameterized growth model provide a useful foundation for age-structured population modeling.