Eric E. Hockersmith

Influence of River Conditions on Survival and Travel Time of Snake River Subyearling Fall Chinook Salmon

Abstract From 1995 to 2000, subyearling fall chinook salmon Oncorhynchus tshawytscha reared at Lyons Ferry Hatchery were PIT-tagged at the hatchery, trucked upstream, acclimated, and released into free-flowing sections of the Snake River weekly from early June to mid-July. We estimated survival probabilities and travel time through the lower Snake River and detection probabilities at dams for each weekly release group. The average median time between release and arrival at Lower Granite Dam was 43.5 d. For each group, we split this time into two nearly equal (on average) periods: one when most fish in the group were rearing and one when most fish had apparently begun active seaward migration. The estimated survival for hatchery fish from release to the tailrace of Lower Granite Dam decreased with release date each year. The estimated survival through this reach was significantly correlated with three environmental variables: survival decreased as discharge (“flow”) decreased, as water transparency increas...

Interacting effects of density and temperature on body size in multiple populations of Chinook salmon

1. The size individuals attain reflects complex interactions between food availability and quality, environmental conditions and ecological interactions. A statistical interaction between temperature and the density of conspecifics is expected to arise from various ecological dynamics, including bioenergetic constraints, if population density affects mean consumption rate or activity level. Density effects on behaviour or size-selective predation could also generate this pattern. This interaction plays an important role in bioenergetic models, in particular, and yet has not been documented in natural populations. 2. The lengths of 131 286 juvenile wild Chinook salmon (Oncorhynchus tshawytscha) across 13 populations spread throughout the Salmon River Basin, Idaho, USA over 15 years were compared to test whether juvenile density alters the relationship between body size and temperature. 3. Strong evidence for a negative interaction between mean summer temperature and density emerged, despite the relatively cool temperatures in this high elevation habitat. Growth correlated positively with temperature at lower densities, but the correlation was negative at the highest densities. 4. This is the first study to document this interaction at such a large spatial and temporal scale, and suggests that warmer temperatures might intensify some density-dependent processes. How climate change will affect individual growth rates in these populations will depend intimately on ecological conditions, particularly food availability and population dynamics. More broadly, the conditions that led to the interactions observed in our study - limited food availability and temperatures that ranged above those optimal for growth - likely exist for many other natural populations, and warrant broader exploration.

Use of the Global Positioning System for Locating Radio-Tagged Fish from Aircraft

Abstract Tracking from aircraft is a method commonly used to locate radio-tagged animals, and it typically involves observers who assign locations of detected animals in relation to physical landmarks. A technique that uses a Global Positioning System (GPS) receiver instead of observers was developed and tested during 1993 to identify locations of radio-tagged adult rainbow trout Oncorhynchus mykiss during aerial tracking in the Yakima River drainage in Washington. The technique was effective under both ideal and adverse weather conditions. Tracking flights that used the GPS receiver were more efficient, more accurate, safer, and less expensive than traditional tracking flights that require observers to estimate locations by using visual landmarks.