Factors Affecting Native Cutthroat Trout Population Dynamics, Abundance, and Distribution in the Logan and Bear River Drainages

2005 Research Initiation Award Report

Investigators

Phaedra Budy—Department of Watershed Sciences, Utah State University
Mark Vinson—Department of Watershed Sciences, Utah State University
Gary Thiede—Department of Watershed Sciences, Utah State University

Summary

Water Initiative funds were combined with monies from the Utah Division of Wildlife Resources and a variety of other sources to allow this project to go forward. The overall goals of this study were to monitor and evaluate the population dynamics, abundance, and distribution of trout in the Logan River, and to determine the present and potential impacts of disease, habitat, and interspecific interactions on the present and future status of native Bonneville cutthroat trout (Oncorhynchus clarki utah). Toward that goal, we have been monitoring the fish community of the Logan River at eight long-term index sites since 2001. We collect information on trout distribution, population abundance, condition, health and disease, as well as measuring key abiotic variables at each site. We consider the effects of interactions between native cutthroat trout and exotic brown trout (Salmo trutta) with both field observations of feeding relations and in large-scale species interaction experiments. In 2003, we completed enclosure (20 m2) experiments at six sites arranged along the longitudinal gradient of the Logan River, and reared cutthroat trout in treatments with (sympatric) and without (allopatric) brown trout. In 2004, we scaled up and repeated similar species interaction experiments in 500-m reaches in three nearby tributary streams. We summarize all this information in an evaluation of the potentially synergistic effects of abiotic variables (e.g., temperature), competition with brown trout, and disease (e.g., Myxobolus cerebralis) on the status and trend of native cutthroat trout using some simple, population modeling.

Depletion-based abundance estimates indicated that in 2004, cutthroat trout abundance decreased from the previous year at four of the six sites where they occur with small increases at the other two sites. The Logan River has been experiencing drought conditions since 2000; mean annual run-off has been less than the long-term mean. Consequently average summer temperatures are warm and discharge is low. We suspect that the drought is having some negative influence on trout abundance; however, 2004 was the wettest year since our monitoring began in 2001.

In the Logan River we have observed several different patterns which suggest that native cutthroat trout are competing with exotic brown trout. If, as we observed, adult cutthroat trout are forced to expand the breadth of their diet when in the presence of brown trout, and if these other, additional diet items are less energetically profitable, this shift could result in a reduction of growth and ultimately fitness of cutthroat trout. The fact that juvenile cutthroat trout do not demonstrate this increase in diet breadth when in the presence of brown trout could indicate they do not yet have the plasticity to expand their diet; if this were true, it could mean that juvenile cutthroat trout are at an even greater disadvantage, as compared to adults, when in the presence of brown trout.

Finally, we synthesized our monitoring and evaluation and experimentation within a population modeling framework. We first estimated trends in population growth rates at each site, and we then used these observed trends to calibrate a simple matrix model to three of the sites (Franklin Basin, Twin Bridges, and Third Dam). We also discussed the different sources of evidence which point to the importance of the tributaries as refuges. It appears that juvenile or subadult fish may rear in these less-infected tributary areas until they have grown to a body size where the risk of mortality due to M. cerebralis infection (or infection in combination with another factor) is low, before moving out into more dangerous mainstem areas. In combination these results thus emphasize the importance of protecting and restoring habitat in tributary spawning and rearing areas.

Papers resulting from this work:

• McHugh, P., and P. Budy. 2006. Experimental effects of nonnative brown trout on the individual- and population-level performance of Bonneville cutthroat trout. Transactions of the American Fisheries Society 135:1441-1455.
• McHugh, P. and P. Budy. 2005. An experimental evaluation of competitive and thermal effects on brown trout (Salmo trutta) and Bonneville cutthroat trout (Oncorhynchus clarkii utah) performance along an altitudinal gradient. Canadian Journal of Fisheries and Aquatic Sciences 62:2784-2795.
• McHugh, P., and P. Budy. In press. Exotic brown trout affect the individual- and population-level performance and dietary habits of native cutthroat trout. Transactions of the American Fisheries Society. Accepted May 24, 2006.
• McHugh, P., P. Budy, E. VanDyke, and G.P. Thiede. In press. Dietary overlap and trophic interactions among exotic brown trout (Salmo trutta) and native Bonneville cutthroat trout (Oncorhynchus clarkii utah): an ontogenetic perspective. Environmental Biology of Fishes. Accepted August, 2006.
• Budy, P. G.P. Thiede, P. McHugh. In press. A quantification of survival, site-fidelity, abundance, and trend for an important population of endemic cutthroat trout. Transactions of the American Fisheries Society. Accepted 7 September, 2006.
• McHugh, P., P. Budy., G. Thiede, and E. VanDyke. In Press. Trophic relationships of nonnative brown trout, Salmo trutta, and native Bonneville cutthroat trout, Oncorhynchus clarkii utah, in a northern Utah, USA river. Environmental Biology of Fishes XX:XXX-XXX. (in press)

Proposal and funding effort resulting from this work:

• NSF, Long Term Research in Environmental Biology Program (LTREB). Research Proposal submitted July 18, 2005: “Understanding the Synergistic Effects of Disease, Physical Factors, and Species Interactions on the Long-Term Survival and Status of an Endemic and Imperiled Fish.” Not funded this time, but re-submission was encouraged (see below).
• EPA CWA 319 Grant Proposal submitted August, 2005, Funded October 2006: “Understanding the effectiveness of stream bank and riparian protection in restoring the water quality, stream habitat, and fish community of an important trout, spawning stream - Spawn Creek, Utah, Bear River Watershed.” $34,000.

Student theses or disserations resuling from this work:

• McHugh, P. 2006. A multi-scale assessment of brown trout (Salmo trutta) – cutthroat trout (Oncorhynchus clarkii utah) interactions in Bonneville Basin streams. PhD Dissertation, Utah State University.
• Hansen, E. In progress. Understanding the effectiveness of stream bank and riparian protection in restoring the water quality, stream habitat, and fish community of an important trout, spawning stream - Spawn Creek, Utah. MS Thesis, Utah State University.

Contact Information

Phaedra Budy
phaedra.budy‹at›usu.edu