Your search keyword '"Pacific lamprey"' showing total 246 results

1. Diets of Native and Non-Native Piscivores in the Stanislaus River, California, Under Contrasting Hydrologic Conditions

Author

Peterson, Matthew L., Pilger, Tyler J., Guignard, Jason, Fuller, Andrea, and Demko, Doug

Subjects

black bass, Chinook Salmon, Pacific Lamprey, Striped Bass, diet composition, introduced species

Abstract

The fish communities of the Sacramento–San Joaquin Delta and its tributaries in California’s Central Valley have been irreparably altered through introductions of numerous fish species, including Striped Bass (Morone saxatilis), black bass (Micropterus spp.), and catfishes (Ameiurus spp. and Ictalurus spp.). Research into how predation by non-native piscivores affects native anadromous species has focused on the Sacramento and San Joaquin river mainstems and Delta habitats, through which all anadromous species must pass. Yet, the ranges of non-native fishes extend into upstream tributaries. We collected diets from native and non-native piscivores in the Stanislaus River, a tributary to the San Joaquin River and a remaining stronghold for native fishes. Piscivorous fishes primarily consumed invertebrates and the native species fall-run Chinook Salmon (Oncorhynchus tshawytscha) and Pacific Lamprey (Entosphenus tridentatus). Juvenile Chinook Salmon and Pacific Lamprey were consumed at higher frequencies than any other potential fish prey species, particularly by Striped Bass and black bass. The frequency of native fishes in predator diets was similar across years, despite contrasting hydrologic conditions; 2019 (wet year), 2020 (dry year), and 2021 (critically dry year). Our results show that Pacific Lamprey were frequently consumed by native and non-native piscivores, and that juvenile Chinook Salmon experience substantial predation early in their migration, regardless of hydrologic conditions.

Published

2023

2. A biologically based measure of turbulence intensity for predicting fish passage behaviours.

Author

Syms, J. Channing, Kirk, Mark A., Caudill, Christopher C., and Tonina, Daniele

Subjects

FISHWAYS, TURBULENCE, ATTACHMENT behavior, KINETIC energy, LAMPREYS, SWIMMING

Abstract

Many fishways were designed to facilitate upstream migration at anthropogenic barriers for targeted species, such as salmonids, though these designs may impede the passage of non-target species with different swimming capabilities. Developing passage metrics that quantify hydraulic conditions scaled to biological behaviours or traits could identify the causes of challenging passage conditions and aid design of multi-species fishways. Our objective was to test the performance of six velocity- and turbulence-derived metrics for predicting passage behaviours of Pacific Lamprey (Entosphenus tridentatus) under varying hydraulic conditions within an experimental vertical slot. These metrics were the 1) swim path-averaged water velocity, 2) swim path-averaged turbulence kinetic energy ( TKE ¯ ), 3) power, 4) work, 5) a biological turbulence intensity, I ¯ Bio , quantified as the ratio between the root of the TKE ¯ and a biological criterion (the bulk average velocity for which lampreys shift from free-swimming to attachment behaviours, UBio = 1.8 m·s−1) and 6) a flow index I ¯ Bio , which is I ¯ Bio modulated by a dimensionless velocity U* = U/UBio, where U is the mean flow through the vertical slot. We assessed the performance of these metrics by evaluating their relationship with Pacific Lamprey attachment time, which serves as an important behavioural proxy for passage difficulty. Only I ¯ Bio and F were significantly associated with attachment time and we suggest these metrics can be adapted for other fish species based on velocity thresholds inducing key behavioural responses. More broadly, our study demonstrates the importance of accounting for turbulence and employing biological criteria when quantifying fish passage within or across species. [ABSTRACT FROM AUTHOR]

Published

2024

3. Spatial patterns in occupancy and density of larval lampreys in freshwater habitats restored to a Stage 0 condition.

Author

Harris, Julianne E., Clemens, Benjamin J., Helstab, Joseph M., Burns, Paul, Blanchard, Monica R., Skalicky, Joseph J., Mayes, Christopher, and Bodiford, Logan

Subjects

LAMPREYS, MULTISCALE modeling, WATER depth, DENSITY, STREAM restoration, FRESHWATER habitats, FINES (Penalties)

Abstract

We examined occupancy and density of larval lampreys (Entosphenus tridentatus and Lampetra spp.) in two rivers in Oregon (USA) restored to a Stage 0 condition 1–5 years prior, using a multiscale occupancy model and a zero‐inflated Poisson mixture model. We sampled lampreys using backpack electrofishing in randomly distributed, paired, 1‐m2 quadrats and recorded environmental data. Probabilities of occupancy and density were higher when water velocity was low, the substrate was noncompacted, and sediment was dominated by fines (<4 mm). At mean water depth (0.34 m) and velocity (0.09 m/s), estimated densities in occupied quadrats were 4.8 lampreys/m2 (95%: 3.4–6.9) when the substrate was compacted, and fines were not dominant, and 21.1 lampreys/m2 (95%: 17.7–25.3) when the substrate was noncompacted and fines were dominant. Probabilities of detecting occupancy in a 1‐m2 quadrat sampled by backpack electrofishing were 0.76 (95%: 0.64–0.87) when captured after visual observation and 0.80 (95%: 0.71–0.88) with blind sweeps (i.e., constantly moving the net regardless of observation). The probability of capturing a single lamprey in a quadrat sampled by blind sweeps was 0.32 (95%: 0.27–0.37). Sampling in paired 1‐m2 quadrats facilitated concurrent examination of patterns in occupancy and density while accounting for capture probability, which could aid temporal monitoring of restored habitats. To the best of our knowledge, this is the first study to document occupancy and estimate densities of larval lampreys in habitats that underwent valley floor restoration to Stage 0. We observed both lamprey genera within 5 years of restoration. Aquatic restoration that increases low‐velocity, noncompacted, fine sediment habitats could benefit lampreys. [ABSTRACT FROM AUTHOR]

Published

2024

4. Pacific Lamprey and Western River Lamprey marine ecology: Insight from new ocean collections.

Author

Weitkamp, Laurie A., Tuttle, Vanessa, Ward, Eric J., Kamikawa, Daniel, Billings, Alicia, Buchanan, John, and Hess, Jon E.

Subjects

MARINE ecology, LAMPREYS, FISH conservation, FISHERIES, SEAWATER, MARINE natural products, SOYBEAN meal

Abstract

Objective: Little is known about the marine ecology of anadromous Pacific Lamprey Entosphenus tridentatus and Western River Lamprey Lampetra ayresii. This information is needed to determine how marine life regulates adult abundances and to identify management actions that may benefit declining populations. Methods: To address this deficit, we compiled historic data, collected lamprey from marine stock assessment surveys and commercial fisheries, and documented fish with Pacific Lamprey wounds. Result: Pacific Lamprey were most commonly caught by midwater trawls targeting Pacific Hake Merluccius productus along the continental shelf break from northern California to northern Washington. Pacific Lamprey ranged in size from 115 mm total length (TL) and 2.9 g to 714 mm TL and 655 g (n = 1912) and were expected to represent multiple ocean ages. The vast majority (93%) of Pacific Lamprey were small (≤300 mm TL) and thus were likely in their first year in marine waters. Growth for small Pacific Lamprey was estimated as 0.37 mm/day and 0.13 g/day over the summer. Gut fullness for Pacific Lamprey was high (5.5% of body weight [BW]), but it was highly variable for larger individuals (range = 0–55% BW). Our results suggest that there is a positive relationship between calendar day and lamprey length and condition factor in most years, while the effect of latitude varies by life stage. We documented Pacific Lamprey wounds on 240 individual fish representing 16 species, of which six species are newly identified as lamprey hosts. We had comparably few records for Western River Lamprey (n = 72; mean length = 285.5 mm TL), which were primarily found in surface waters on the continental shelf from northern California to southern British Columbia. Conclusion: Our results have implications for both fisheries and conservation management, including development of best practices for lamprey caught by net fisheries and the use of new marine information to inform conservation actions. Impact statementWe show that native Pacific Lamprey are widespread in marine waters along the U.S. West Coast. They are caught as bycatch in Pacific Hake and other commercial fisheries, requiring development of methods to ensure that Pacific Lamprey released from fisheries survive to ensure the continued existence of this ancient fish. [ABSTRACT FROM AUTHOR]

Published

2023

5. Synthesis of larval lamprey responses to dewatering: State of the science, critical uncertainties, and management implications: Native Lampreys: Research and Conservation of Ancient Fishes.

Author

Liedtke, Theresa L., Harris, Julianne E., Blanchard, Monica R., Skalicky, Joseph J., and Grote, Ann B.

Subjects

FISH conservation, LAMPREYS, COMPOSITION of sediments, FIELD research, RIVER sediments

Abstract

Objective: Dewatering of fine sediments in rivers and streams can kill many thousands of larval lampreys (order Petromyzontiformes) that are burrowed in these habitats. The larval life stage for lampreys lasts 3–10 years, and because larvae often aggregate in large numbers, negative impacts from dewatering could potentially deplete local populations and affect multiple year‐classes. Larval lampreys have not traditionally been considered during instream projects, but recent efforts to increase awareness of lamprey habitats have resulted in guidance on dewatering approaches to limit impacts to lampreys. Salvage efforts to rescue and relocate lampreys aim to mitigate losses, but a lack of understanding of lamprey responses limits the optimization of dewatering and salvage procedures. Methods: We summarize the state of the science for nine factors that influence larval lamprey (Entosphenus and Lampetra spp.) responses to dewatering, including burrowing depth, the prevalence and timing of emergence, movements, survival, shoreline slope, dewatering rate, light, and lamprey size. Result: Research suggests that (1) shoreline slope influences movement capability, (2) hot and sunny conditions increase the risk of mortality, (3) salvage activities cause minimal direct mortality, and (4) smaller larvae are especially vulnerable to negative impacts from dewatering because they are more likely to emerge and are less capable of movement. Critical uncertainties associated with dewatering include cues that drive emergence, the influence of sediment composition and stratigraphy, vertical distribution of larvae in natural settings, use of the hyporheic zone, the scale of predation losses, and the effectiveness and impacts of salvage activities. Conclusion: Balancing investments in salvage operations and lamprey exclusion efforts (e.g., screening) and developing field survey approaches to evaluate lamprey use of the hyporheic zone are identified management implications and research needs. Addressing the critical uncertainties discussed here and providing updated, science‐based guidance on dewatering and salvage practices are suggested management actions to support lamprey conservation. Impact statementLarval lampreys live burrowed in fine sediments and are often not considered during instream projects that dewater these habitats. This paper synthesizes what is known about lamprey responses to dewatering to provide updated, science‐based guidance on dewatering approaches to minimize negative impacts to lamprey and support conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2023

6. Salvage using electrofishing methods caused minimal mortality of burrowed and emerged larval lampreys in dewatered habitats.

Author

Harris, Julianne E., Liedtke, Theresa L., Skalicky, Joseph J., and Weiland, Lisa K.

Subjects

LAMPREYS, FRESHWATER habitats, BOTTOM water (Oceanography), WATER temperature, MORTALITY

Abstract

Objective: Human‐induced dewatering of freshwater habitats causes mortality of larval lampreys (family Petromyzontidae). Salvage by electrofishing at dewatering events is assumed to reduce this mortality, but to our knowledge this assumption remains unassessed. Methods: We estimated mortality of salvaged larval lampreys (Lampetra spp. and Pacific Lamprey Entosphenus tridentatus) within 24 h following collection at field dewatering events in July and October. To assess when salvage may reduce mortality, we compared mortality of salvaged individuals from field dewatering events to mortality of burrowed and emerged individuals in dewatered habitats in the laboratory. Salvage protocols included electrofishing and foot pressure from walking in test enclosures before and after dewatering. Electrofishing after dewatering ("dry shocking") involves positioning probes on moist sediment to entice burrowed larval lampreys to emerge. Result: During the July salvage, air temperature averaged 36°C, bottom water temperature averaged 20°C, and many emerged larval lampreys were dead on the sediment surface. During two October events, air temperatures averaged 18 and 11°C, bottom water temperatures averaged 12 and 7°C, and only one dead emerged larval lamprey was observed. Estimated mortality of salvaged larval lampreys was 0.20 (90% credible interval = 0.09–0.37) in July and 0.00 (90% credible interval = 0.00–0.06) and 0.06 (90% credible interval = 0.01–0.18) in October. All larval lampreys that remained burrowed and were excavated from enclosures after salvage were dead in July but alive in October. Logistic regression suggested that mortality declined with increasing larval length. Mortality of salvaged 80‐mm larval lampreys in October was lower than that of 80‐mm individuals emerged for 1 h or burrowed for 8 h at similar water temperatures (8–10°C) in the laboratory. Conclusion: In this study, electrofishing for salvage caused minimal mortality of burrowed and emerged larval lampreys in dewatered habitats. Thus, salvage using electrofishing methods could aid conservation of native lampreys by reducing mortality associated with human‐induced dewatering events, especially when temperatures are elevated. Impact statementLarval lampreys burrowed in freshwater habitats can become stranded and die when exposed to human‐induced dewatering. Our results suggest salvage methods that use electrofishing can reduce the mortality that occurs with dewatering, especially when temperatures are elevated, supporting conservation of native lampreys. [ABSTRACT FROM AUTHOR]

Published

2023

7. The case for basinwide passage and habitat restoration for Pacific Lamprey in the Willamette River basin (Oregon, USA).

Author

Clemens, Benjamin J., Friesen, Thomas A., Gregory, Stanley V., and Zambory, Courtney L.

Subjects

LAMPREYS, WATERSHEDS, ANADROMOUS fishes, WATER pollution

Abstract

Objective: The Pacific Lamprey Entosphenus tridentatus is an anadromous fish that provides many ecosystem services and is important to Native American tribes, which harvest lamprey for cultural uses. The largest harvest of adult Pacific Lamprey in North America occurs at Willamette Falls (WF) in Oregon, USA. Lamprey have experienced conservation problems for decades, and harvest numbers at WF have plummeted approximately 33‐fold from a maximum of over 500,000 during 1946 to an average of about 16,000 per year during 1969–1999. Recent harvest has dropped to less than 6,000 lamprey/year during 2000–2021. However, existing conservation plans do not provide a historical perspective on the lamprey harvest at WF and the cumulative threats in the Willamette River basin that likely caused lamprey harvest reductions. Land development, river impoundment, and water pollution coincided with significant decreases in lamprey harvest at WF. These (and other) threats have resulted in reduced habitat for larval lamprey in the basin and, thus, a reduction in the pheromones they release, which attract adults. Conservation plans do not identify specific, basinwide goals to increase the number of lamprey in general and to provide more lamprey for harvest in particular. Methods: Therefore, in this review paper, we provide a conservation perspective on three topics to increase and monitor lamprey abundance at WF. Result: We (1) provide an up‐to‐date history of the lamprey harvest and its regulation at WF; (2) recommend addressing the lack of basinwide, lamprey‐specific passage and habitat restoration to improve the quantity and quality of lamprey spawning and rearing habitats; and (3) identify research needs for monitoring the lamprey population(s) at WF. Conclusion: We conclude that lamprey‐specific passage improvements and habitat restoration throughout the Willamette River basin above WF are necessary to bolster abundance. Impact statementWe provide an up‐to‐date history of Pacific Lamprey harvest at Willamette Falls, Oregon. The species is ecologically and culturally important. Conservation‐focused perspectives could be used in basinwide plans to increase and monitor lamprey abundance. [ABSTRACT FROM AUTHOR]

Published

2023

8. Upper temperature limit of larval Pacific lamprey Entosphenus tridentatus: implications for conservation in a warming climate.

Author

Whitesel, Timothy A. and Uh, Christina T.

Subjects

GLOBAL warming, LAMPREYS, ANIMAL burrowing, WATER temperature, TEMPERATURE, OCEAN temperature

Abstract

Climate models suggest that by 2100, maximum temperatures where many larval Pacific lamprey, Entosphenus tridentatus, rear now may approach 27–31 °C. Little information exists on whether larval Pacific lamprey can tolerate these temperatures. We used acclimated chronic exposure (ACE) and direct acute exposure (DAE) experiments to determine the water temperature that is lethal to larval Pacific lamprey and whether sublethal water temperatures influence larval burrowing behavior. After 30 days in ACE experiments, all larvae survived in temperatures averaging ≤ 27.7 °C, no larvae survived in temperatures averaging ≥ 30.7 °C and the ultimate upper incipient lethal temperature (UILT) was estimated to be 29.2 °C. After seven days in DAE experiments, all larvae survived in 27.1 °C, only larvae acclimated to 23.3 °C survived in 29.1 °C, and no larvae survived in temperatures ≥ 30.6 °C. Using a time to death analysis, estimates of the UILTs ranged from 27.5 to 30.2 °C and the ultimate UILT was estimated to be > 28.3 °C. Using a percent mortality analysis, estimates of the ultimate UILT were not definitive but indicated it may be > 30.2 °C. To burrow, larvae reared for 30 days at temperatures averaging 26.9–27.7 °C exhibited more total time, active time, and stops than those reared for 30 days at temperatures averaging 22.3–23.9 °C. Our findings suggest that larval Pacific lamprey may be resilient to the most likely temperature increase scenarios predicted by climate models. However, they may be vulnerable to the high-temperature increase scenarios and, relatively high but sublethal temperatures may impact the behavior, and ultimately survival, of larval Pacific lamprey. [ABSTRACT FROM AUTHOR]

Published

2023

9. Warmwater Temperatures (≥ 20°C) as a Threat to Pacific Lamprey: Implications of Climate Change.

Author

Clemens, Benjamin J.

Subjects

CLIMATE change, HEAT waves (Meteorology), LAMPREYS, LOW temperatures, STREAMFLOW, WATER temperature

Abstract

Interest in the effects of warmwater temperatures (≥ 20°C) on fishes has grown as biologists attempt to understand the impacts of climate change on native species. Previous research hypothesized that rivers displaying warmwater temperatures and low river flows, such as may become more common with climate change in North America, may select against Pacific Lamprey Entosphenus tridentatus migrating and spawning in the upper reaches of some watersheds. I provide new information from different locations that supports this hypothesis, including observations of prespawn mortalities of Pacific Lamprey during a recent heat wave, when daily water temperatures averaged 26.6°C (range: 20.8–30.6°C), and additional data from the literature. These observations and data suggest that the continued warming and slowing of rivers pose a threat to Pacific Lamprey in some Oregon (USA) rivers, which appears to agree with other research that suggests that lampreys will lose habitats in lower latitudes as climate change progresses. [ABSTRACT FROM AUTHOR]

Published

2022

10. Increasing objectivity associated with anadromous fish redd identification using a discriminant function analysis

Author

Kirsten Sellheim, Jamie Sweeney, and Joseph Merz

Subjects

Chinook Salmon, steelhead, Pacific Lamprey, spawning survey, redd identification, discriminant function analyses, Environmental sciences, GE1-350

Abstract

Many fish species reproduce by creating nests (redds) in alluvial stream gravels, which can be used to track population trends. However, temporal and spatial overlap across multiple redd-building species can hinder redd species classification. This is further complicated when the corresponding adult is not present. Spawning surveys on the Lower American River (LAR) have been conducted since 2003 to document fall-run Chinook Salmon and California Central Valley (CCV) steelhead spawning. Other fish species on the LAR have overlapping reproduction timing, including Pacific Lamprey. Prior to 2016, a redd observed during field surveys that was not associated with a fish observation was assigned species identity based on seasonal timing and professional judgement. However, this method has potential to misidentify the species that built the redd due to overlap in spawning season and similarity in redd dimensions among LAR fish species. To decrease subjectivity associated with unoccupied redd identification, we used occupied redd data to build a discriminant function analysis (DFA), which predicts redd species identity based on field-measured parameters that vary across species including time of year, redd dimensions, and ambient conditions. We compared model accuracy across 6 years in which additional “fish on” observations were added annually to the discriminant function to test whether adding observational data improved model accuracy. We also applied the discriminant function to historical redd data in which species identification was made based on professional judgement to compare the two approaches. DFA accuracy improved with additional years of data, and in the iteration that included the most observational data it was highly accurate in identifying fall-run Chinook Salmon and CCV steelhead (96% and 97%, respectively). Accuracies for Pacific Lamprey were slightly lower (91%) than salmonids due to the relatively low number of “fish-on” redd observations for Pacific Lamprey. Comparisons between the DFA and historical identification based on professional opinion were generally similar, but with up to 19.6% disagreement in some years. Our study demonstrates that physical and temporal metrics can support more accurate species identification, and field data can be used to support more robust population estimates and inform future habitat restoration decisions.

Published

2022

11. A review of potential conservation and fisheries benefits of breaching four dams in the Lower Snake River (Washington, USA)

Author

Adam J. Storch, Howard A. Schaller, Charles E. Petrosky, Robert L. Vadas, Jr., Benjamin J. Clemens, Gary Sprague, Norman Mercado-Silva, Brett Roper, Michael J. Parsley, Edward Bowles, Robert M. Hughes, and Jay A. Hesse

Subjects

Bull trout, Impoundment, Pacific lamprey, Salmon, Steelhead, White sturgeon, Environmental sciences, GE1-350, Biology (General), QH301-705.5

Abstract

Abundances of important and imperiled fishes of the Snake River Basin continue to decline. We assessed the rationale for breaching the four lower Snake River Basin dams to prevent complete loss of these fishes, and to maximize their likelihood of recovery. We summarize the science surrounding Sockeye Salmon (Oncorhynchus nerka), Chinook Salmon (O. tshawytscha), steelhead (O. mykiss), Bull Trout (Salvelinus confluentus), White Sturgeon (Acipenser transmontanus), and Pacific Lamprey (Entosphenus tridentatus). From this, we drew ten conclusions: (1) development of the Columbia River System (including the Snake River Basin) has converted mainstem rivers into reservoirs, altering fish behavior and survival; (2) most populations currently record their lowest abundance; (3) the Columbia River System dams reduce productivity of diadromous fishes in the highest-quality spawning grounds that could buffer against future climate dynamics; (4) past actions have done little to reduce impacts or precipitate recovery; (5) the Columbia River System constrains survival and productivity of salmon, steelhead and Bull Trout; (6) Snake River Basin salmon and steelhead remain at high extinction risk; (7) eliminating migration impediments and improving mainstem habitats are essential for maintaining genetic diversity and improving Bull Trout persistence; (8) the lower Snake River Basin dams preclude passage of adult White Sturgeon, constraining gene flow and recruitment; (9) the lower Snake River Basin dams impede dramatically passage of adult and juvenile Pacific Lamprey, and (10) Snake River Basin Pacific Lamprey is at high risk of extirpation. Breaching the four lower Snake River Basin dams is an action likely to prevent extirpation and extinction of these fishes. Lessons from the Columbia River System can inform conservation in other impounded rivers.

Published

2022

12. Lamprey aquaculture successes and failures: A path to production for control and conservation.

Author

Lampman, Ralph T., Maine, Alexa N., Moser, Mary L., Arakawa, Hiroaki, and Neave, Fraser B.

Abstract

Lamprey culture methods are needed for use in both control of invasive sea lamprey in the Laurentian Great Lakes and restoration of imperiled species. Control purposes include the use of cultured animals to develop population control methods (e.g., gene drives), the production of hard-to-find life stages for research (e.g., age-0 larvae, metamorphosed juveniles), or the recovery of native lampreys impacted by sea lamprey control practices. For restoration, Pacific lamprey (Entosphenus tridentatus) and European river lamprey (Lampetra fluviatilis) are cultured both for research (e.g., animals to conduct passage studies) and outplanting to supplement natural production. Research and development of techniques for rearing anadromous lampreys have revealed vulnerabilities and resiliencies that could also inform control programs. We review this information, provide case studies of lamprey production (both planned and unplanned), and prescribe a blueprint for the facilities and support needed to produce 1000 metamorphosed anadromous juveniles from artificial production. Although this goal has not been accomplished to date and some key uncertainties remain in this unique challenge, the cumulative combination of research and experience has positioned us to make this goal a reality in the near future. [ABSTRACT FROM AUTHOR]

Published

2021

13. Climate change vulnerability assessment for Pacific Lamprey in rivers of the Western United States

Author

Christina J. Wang, Howard A. Schaller, Kelly C. Coates, Michael C. Hayes, and Robert K. Rose

Subjects

pacific lamprey, climate change vulnerability, stream temperature, hydrologic conditions, river restoration, global climate model, Environmental sciences, GE1-350, Ecology, QH540-549.5

Abstract

Pacific Lamprey (Entosphenus tridentatus) are a native anadromous species that, like salmon, historically returned to spawn in large numbers in watersheds along the west coast of the United States (U.S.). Lamprey play a vital role in river ecosystems and are one of the oldest vertebrates that have persisted over time likely influencing the evolution of many aquatic species. Pacific Lamprey have declined in abundance and are restricted in distribution throughout Washington, Oregon, Idaho and California. A key uncertainty influencing Pacific Lamprey status is the impact of climate change. We modified the NatureServe Climate Change Vulnerability Index (CCVI) to accommodate climate predictions from the International Panel on Climate Change. Using downscaled information, we characterized changes in 15 rivers occupied by Pacific Lamprey in the western U.S. We evaluated this risk under Representative Concentration Pathways (RCP) 4.5 and 8.5 for two time periods (mid-century 2040–2069 and end-century 2070–2099). The CCVI scores generally increased when going from RCP 4.5 to RCP 8.5 in three Global Climate Models for both mid-century and end-century, which our analyses forecasts degraded stream temperature and hydrologic conditions under increasing greenhouse gas emissions. The geographically assessed results suggest that climate change impacts to Pacific Lamprey vulnerability are magnified in highly altered rivers. If we continue to observe greenhouse gas emission levels associated with the RCP 8.5, Pacific Lamprey will be at greater risk to climate change impacts. In order to mitigate the risk from climate change toward the end of the century, additional actions will need to be prioritized to rapidly reduce the impact of these threats such as increasing flow, creating backwater habitat, restoring riparian vegetation and reducing stream disturbances. The findings revealed the patterns of vulnerability for Pacific Lamprey across their U.S. range are informative for prioritizing river restoration actions when paired with regional implementation plans.

Published

2020

14. Pacific Lamprey drag force modeling to optimize fishway design.

Author

Zobott, Hattie, Budwig, Ralph, Caudill, Christopher C., Keefer, Matthew L., and Basham, William

Subjects

FISHWAYS, FISH habitat improvement, LAMPREY fisheries, FISHERIES, DRAG force

Abstract

Typically, fish passage design is informed by a critical velocity model whereby fish are assumed to fail passage if the water velocity is higher than the critical swim speed, an assumption that may not be met when locomoting fish are partially submerged. We applied a drag force model (DFM) approach for use in design of Pacific Lamprey (Entosphenus tridentatus) Passage Structures (LPS) where lamprey may be partially or fully submerged. Our investigation assessed the dead-drag forces at four levels of static submergence: fully submerged (120 mm), equally submerged (40 mm), partially submerged (15 mm), and skin-flow (5 mm) for a Pacific Lamprey physical model by varying simulated LPS slope and discharge conditions. We then used the results to establish drag force thresholds corresponding to the known critical velocity thresholds of Pacific Lamprey to predict passage success under partial and full submergence conditions. Consideration of drag force in fish passage could be used to improve or create species-specific design recommendations for fishways, or to inform the design of barriers to prevent invasive species passage. The results suggest consideration of drag force in addition to velocity is beneficial to predict Pacific Lamprey passage success under partial submergence conditions. [ABSTRACT FROM AUTHOR]

Published

2021

15. Assessment of Fluctuating Reservoir Elevations Using Hydraulic Models and Impacts to Larval Pacific Lamprey Rearing Habitat in the Bonneville Pool

Author

Richmond, Marshall [Pacific Northwest National Lab. (PNNL), Richland, WA (United States)]

Published

2015

16. Climate change vulnerability assessment for Pacific Lamprey in rivers of the Western United States.

Author

Wang, Christina J., Schaller, Howard A., Coates, Kelly C., Hayes, Michael C., and Rose, Robert K.

Subjects

*CLIMATE change, *LAMPREYS, *WATER temperature, *STREAM restoration, *ATMOSPHERIC models

Abstract

Pacific Lamprey (Entosphenus tridentatus) are a native anadromous species that, like salmon, historically returned to spawn in large numbers in watersheds along the west coast of the United States (U.S.). Lamprey play a vital role in river ecosystems and are one of the oldest vertebrates that have persisted over time likely influencing the evolution of many aquatic species. Pacific Lamprey have declined in abundance and are restricted in distribution throughout Washington, Oregon, Idaho and California. A key uncertainty influencing Pacific Lamprey status is the impact of climate change. We modified the NatureServe Climate Change Vulnerability Index (CCVI) to accommodate climate predictions from the International Panel on Climate Change. Using downscaled information, we characterized changes in 15 rivers occupied by Pacific Lamprey in the western U.S. We evaluated this risk under Representative Concentration Pathways (RCP) 4.5 and 8.5 for two time periods (mid-century 2040–2069 and end-century 2070–2099). The CCVI scores generally increased when going from RCP 4.5 to RCP 8.5 in three Global Climate Models for both mid-century and end-century, which our analyses forecasts degraded stream temperature and hydrologic conditions under increasing greenhouse gas emissions. The geographically assessed results suggest that climate change impacts to Pacific Lamprey vulnerability are magnified in highly altered rivers. If we continue to observe greenhouse gas emission levels associated with the RCP 8.5, Pacific Lamprey will be at greater risk to climate change impacts. In order to mitigate the risk from climate change toward the end of the century, additional actions will need to be prioritized to rapidly reduce the impact of these threats such as increasing flow, creating backwater habitat, restoring riparian vegetation and reducing stream disturbances. The findings revealed the patterns of vulnerability for Pacific Lamprey across their U.S. range are informative for prioritizing river restoration actions when paired with regional implementation plans. [ABSTRACT FROM AUTHOR]

Published

2020

17. Effects of dewatering on behavior, distribution, and abundance of larval lampreys.

Author

Harris, Julianne E., Skalicky, Joseph J., Liedtke, Theresa L., Weiland, Lisa K., Clemens, Benjamin J., and Gray, Ann E.

Subjects

LAMPREYS, EXCAVATION, AQUATIC habitats, ANIMAL population density, LARVAE, FORECASTING

Abstract

Anthropogenic dewatering of aquatic habitats can cause stranding and mortality of burrowed larval lampreys; however, the effects of dewatering have not been quantified. We assessed: (a) changes in spatial distribution, abundance, and emergence of larvae dewatered at Leaburg Reservoir (OR); (b) emergence and mortality of larvae dewatered in a laboratory; and (c) bias, precision, and interpretation of field results by simulation and modeling of laboratory results. In the field, we examined the distribution, abundance (by N‐mixture model), and density of larvae by electrofishing at randomly selected sites before dewatering and after refill, and assessed the emergence rate by observation and excavation during dewatering. Due to dewatering in the field, about 42% of larvae emerged and spatial distribution changed toward sites dewatered less than 20 hours. Estimated average density decreased from 10.8 larvae/m2 before dewatering to 2.3 larvae/m2 after refilling, suggesting that abundance declined by 79%; simulation suggested this decline ranged 71–84% (interquartile range). In the laboratory, we examined the emergence and mortality rates of larvae dewatered 0–48 hrs. The emergence rate in the laboratory was similar to that in the field. Mortality rate increased with hours dewatered and was higher for emerged than burrowed larvae. Laboratory estimates of mortality rate predicted a 61% decline in abundance if only burrowed larvae survived and a 54% decline if both burrowed and emerged larvae survived. Abundance declines in the field could be from mortality (e.g., desiccation, predation) and relocation to watered habitat. Our results indicate dewatering can substantially affect spatial distribution and abundance of larval lampreys in freshwater ecosystems. [ABSTRACT FROM AUTHOR]

Published

2020

18. Predicting larval metamorphosis of Pacific lamprey Entosphenus tridentatus through measurements of length and mass.

Author

Whitesel, Timothy A., McGree, Michelle, and Silver, Gregory S.

Subjects

*LENGTH measurement, *METAMORPHOSIS, *LAMPREYS, *MASS measurement, *LARVAE

Abstract

The utility of length and mass measurements to predict the larval metamorphosis of Pacific lamprey Entosphenus tridentatus was evaluated. During 2004–2008, larval E. tridentatus were collected from Cedar Creek (Washington, USA) in either the spring or autumn, measured for total length and total mass, reared in captivity and monitored for metamorphosis. The minimum total length, total mass and condition factor of larvae that were observed to go through metamorphosis were 102 mm, 2.0 g and 1.52, respectively. Logistic models indicated that total length and condition factor in both spring and autumn were the most significant variables for predicting metamorphosis of Pacific lamprey during the subsequent summer. Mass in the autumn also appeared important to predict whether metamorphosis occurred in the subsequent summer. Collectively, all models using specific minimums of total length, total mass or condition factor of larvae as criteria for them to metamorphose were sometimes (5 of 14 cases) able to predict the percentage of larvae that would metamorphose but rarely (1 of 12 cases) able to predict which individual larvae would metamorphose. Similar to other anadromous species of lampreys, the size and condition of larval E. tridentatus have utility for predicting metamorphic fate. [ABSTRACT FROM AUTHOR]

Published

2020

19. A Stepwise Approach to Assess the Occupancy State of Larval Lampreys in Streams.

Author

Harris, Julianne E., Silver, Gregory S., Jolley, Jeffrey C., Nelle, R.D., and Whitesel, Timothy A.

Subjects

LAMPREYS, WILDLIFE conservation, STREAM restoration, RIVERS, PROBABILISTIC number theory, FISHERIES

Abstract

Pacific Lamprey Entosphenus tridentatus is an ecologically and culturally important anadromous species of conservation concern for which fisheries managers use information on occupancy state in streams to assess species status and inform stream management decisions. Here we developed a stepwise approach that incorporates the potential for nondetection and a preselected expected maximum probability of stream occupancy if field crews do not document larval Pacific Lamprey during sampling. Our approach includes seven steps: define the occupancy question; select the maximum acceptable probability of occupancy, if the species is not documented during sampling; define an assumed detection probability for the target organism; calculate required sampling effort; select sampling units; conduct sampling; and interpret sampling results into probabilistic occupancy conclusions. We examined detection probability of our approach for larval lamprey using data from multiple occupied streams in the Pacific Northwest. We illustrated our approach by evaluating Balm Grove Dam as a barrier to Pacific Lamprey migration in Gales Creek, Oregon. Bayesian estimates of detection probability in occupied streams ranged from 0.15 to 0.94, with an overall median of 0.70 (95% credible interval: 0.60–0.79). Assuming detection probability is at least 0.15 (i.e., lowest estimate), 19 reaches are required for the expected maximum probability of occupancy to be not more than 0.05, if the species is not documented through our sampling approach. Although detected downstream, we detected no larvae upstream of Balm Grove Dam; thus, we conclude that the maximum probability of occupancy upstream of Balm Grove Dam was not more than 0.05 at an assumed detection probability of 0.4, suggesting the dam as a barrier to adult migration. We provide an occupancy assessment tool with standardized sampling requirements that incorporates the potential for nondetection and the flexibility to select an expected maximum probability of occupancy if researchers document no larvae, to aid management and restoration in a single stream. [ABSTRACT FROM AUTHOR]

Published

2020

20. Landlocked Pacific Lamprey Entosphenus tridentatus in the Middle Fork Willamette River, Oregon.

Author

Larson, Douglas C., Helstab, Matt, Docker, Margaret F., Bangs, Brian, and Clemens, Benjamin J.

Subjects

FLOOD dams & reservoirs, LAMPREYS, DAM design & construction, ANADROMOUS fishes, NATIVE fishes, FISH migration, NATURAL history museums

Abstract

Pacific Lamprey Entosphenus tridentatus is an anadromous fish native to the west coast of North America and the Pacific coast of Asia. In the 1950s, construction of dams on the Middle Fork Willamette River blocked upstream migration of adult Pacific Lamprey which resulted in their extirpation from otherwise suitable habitats. We report evidence of landlocked Pacific Lamprey surviving for >40 years after the construction of two high-head flood control dams (Dexter and Lookout Point) in the Middle Fork Willamette River 355.0 and 360.3 km upstream of the Pacific Ocean, respectively. In 2001, six putative Pacific Lamprey (two juveniles and four larvae) were captured using an electro shocker during a stream survey, 21.7 km upstream of Lookout Point Dam (the uppermost of these dams) and were entered into the Smithsonian National Museum of Natural History's Division of Fishes collection. We re-examined these specimens, and their morphometric measurements and dentition are consistent with Pacific Lamprey. Additional evidence supports the existence of a landlocked population of Pacific Lamprey that resided upstream of these two impassable dams for approximately five generations. To our knowledge, this is the first report of Pacific Lamprey surviving for multiple generations upstream of impassable impoundments. However, no Pacific Lamprey have been detected in recent targeted surveys, indicating that this population has since been extirpated or exists in very low numbers. [ABSTRACT FROM AUTHOR]

Published

2020

21. Pathogens of Pacific Lamprey Detected Through Routine Fish Health Screenings.

Author

Jolley, Jeffrey C. and Lujan, Kenneth M.

Subjects

LAMPREYS, VIBRIO vulnificus, FISH pathogens, BACTERIAL diversity, FISH surveys, AEROMONAS hydrophila, VIBRIO parahaemolyticus

Abstract

Interest in conservation, management, and captive rearing of Pacific Lamprey Entosphenus tridentatus in the Pacific Northwest has risen in recent years. General and specific information regarding the occurrence of fish pathogens and the risk of Pacific Lamprey as a vector for pathogens to other species is not well understood. Specific efforts to captively rear or artificially propagate Pacific Lamprey at facilities that are used for Pacific salmon Oncorhynchus spp. have increased. We performed fish health surveys on wild-caught larval and adult Pacific Lamprey from locations that were used as lamprey sources for captive research to determine the occurrence of bacteria, viruses, and parasites that may be pathogens. A variety of potential pathogens was detected, most notably Aeromonas hydrophila and Vibrio vulnificus from larval Pacific Lamprey and A. salmonicida from adult lampreys. There was a general lack of pathogenic activity and absence of viral detections from all lampreys. The diversity of bacteria encountered from the larvae in our study could be indicative of the wide diversity of bacteria that is known to be associated with larval lamprey in general. Further efforts to understand pathogenic risk from Pacific Lamprey to salmonid propagation programs are warranted. [ABSTRACT FROM AUTHOR]

Published

2019

22. Evidence for the genetic basis and epistatic interactions underlying ocean‐ and river‐maturing ecotypes of Pacific Lamprey (Entosphenus tridentatus) returning to the Klamath River, California.

Author

Parker, Keith A., Hess, Jon E., Narum, Shawn R., and Kinziger, Andrew P.

Subjects

*LAMPREYS, *GENE regulatory networks, *RIVERS, *LOCUS (Genetics)

Abstract

Surveys of genomic variation have improved our understanding of the relationship between fitness‐related phenotypes and their underlying genetic basis. In some cases, single large‐effect genes have been found to underlie important traits; however, complex traits are expected to be under polygenic control and elucidation of multiple gene interactions may be required to fully understand the genetic basis of the trait. In this study, we investigated the genetic basis of the ocean‐ and river‐maturing ecotypes in anadromous Pacific lamprey (Entosphenus tridentatus). In Pacific lamprey, the ocean‐maturing ecotype is distinguished by advanced maturity of females (e.g., large egg mass) at the onset of freshwater migration relative to immature females of the river‐maturing ecotype. We examined a total of 219 adult Pacific lamprey that were collected at‐entry to the Klamath River over a 12‐month period. Each individual was genotyped at 308 SNPs representing known neutral and adaptive loci and measured at morphological traits, including egg mass as an indicator of ocean‐ and river‐maturing ecotype for females. The two ecotypes did not exhibit genetic structure at 148 neutral loci, indicating that ecotypic diversity exists within a single population. In contrast, we identified the genetic basis of maturation ecotypes in Pacific lamprey as polygenic, involving two unlinked gene regions that have a complex epistatic relationship. Importantly, these gene regions appear to show stronger effects when considered in gene interaction models than if just considered additive, illustrating the importance of considering epistatic effects and gene networks when researching the genetic basis of complex traits in Pacific lamprey and other species. [ABSTRACT FROM AUTHOR]

Published

2019

23. Trends and biological effects of environmental contaminants in lamprey

Author

Sílvia Pedro, Julia R. Unrein, and Charles P. Madenjian

Subjects

0106 biological sciences, Microplastics, Ecology, biology, 010604 marine biology & hydrobiology, Lamprey, Entosphenus tridentatus, Polychlorinated biphenyl, 010501 environmental sciences, Aquatic Science, Contamination, biology.organism_classification, 01 natural sciences, chemistry.chemical_compound, Petromyzon, chemistry, Pacific lamprey, Environmental science, human activities, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Apex predator

Abstract

Environmental contamination is of global concern. Lamprey are scientifically, ecologically, culturally, and economically important fishes. Our study represents the first synthesis ever on environmental contamination in lamprey. Objectives of this study include: (1) evaluate lethal and sublethal effects of environmental contaminants on lamprey, thereby providing insight into the potential for environmental contaminants to affect lamprey abundance, (2) highlight the unique characteristics of contaminant accumulation in lamprey, (3) determine whether spatial and temporal trends observed in contaminant concentrations of other top predators of aquatic food webs are reflected in the spatial and temporal trends of contaminant concentrations of lamprey, (4) identify key environmental contaminants affecting consumption advisories for people eating lamprey, and (5) identify important gaps in our knowledge of environmental contamination in lamprey. The geographic scope of this synthesis is worldwide. We conclude that, in general, the environmental contaminant concentrations that have been experienced by lamprey in the wild appear to be nonlethal to lamprey. However, environmental contaminants exert sublethal effects on lamprey. Sea lamprey (Petromyzon marinus) and Pacific lamprey (Entosphenus tridentatus) are relatively high in total mercury (Hg) concentration compared with other fishes. Compared with other top predators, lamprey are relatively low in polychlorinated biphenyl (PCB) concentration and concentrations of organochlorine pesticides. We also conclude that regulations on the use of PCBs, beginning in the 1970s, were effective in dramatically reducing PCB concentration in lamprey since the 1970s. Emerging contaminants, such as pharmaceuticals, microplastics, and per- and polyfluorinated alkyl substances (PFAS), have yet to be studied in lamprey.

Published

2021

24. At-sea feeding ecology of parasitic lampreys

Author

Chris J. Harvey, Charles P. Madenjian, Trent M. Sutton, Austin Happel, Bernardo R. Quintella, Maria João Lança, and Benjamin J. Clemens

Subjects

Ecology, biology, Lamprey, Zoology, Aquatic Science, biology.organism_classification, Arctic lamprey, Pouched lamprey, Pacific lamprey, Lampetra ayresii, biology.animal, European river lamprey, Mordacia lapicida, Caspian lamprey, Ecology, Evolution, Behavior and Systematics

Abstract

This paper synthesizes information on the at-sea ecology of ten anadromous lampreys, with emphasis on trophic ecology. The at-sea ecology of these lampreys concerns the juvenile stage, in which growth is most rapid. Anadromous lampreys can be categorized into four groups, based on feeding modalities: 1) scavenger (Caspian lamprey, Caspiomyzon wagneri); 2) parasite-predator (Pacific lamprey, Entosphenus tridentatus); 3) predators (western river lamprey, Lampetra ayresii; European river lamprey, L. fluviatilis; Arctic lamprey, Lethenteron camtschaticum; pouched lamprey, Geotria australis; and Argentinian pouched lamprey, G. macrostoma); and 4) parasites (sea lamprey, Petromyzon marinus; Chilean lamprey, Mordacia lapicida; and short-headed lamprey, M. mordax). This paper discusses direct evidence for lamprey feeding ecology, as observed through lamprey-induced wounds on hosts and prey, and lamprey attachments on hosts and prey; and indirect evidence for feeding ecology, via analyses of fatty acids, stable isotopes, contaminants, and bioenergetics modelling. A part of the information presented on feeding ecology is from landlocked sea lamprey, and in some instances this information can be generalizable to anadromous populations. For most anadromous lampreys, but particularly for Southern Hemisphere taxa, little is known about their feeding ecology at sea. Duration of the trophic marine phase and habitat use are still subjects of debate. Species identified as lamprey hosts can be demersal or pelagic, possibly reflecting marine habitat preferences. To unlock understanding of the marine phase of anadromous lampreys, direct evidence of feeding ecology should be coupled with natural (i.e., biomarkers) and artificial (e.g., biologgers) markers to identify habitat use, movement patterns and dispersal.

Published

2021

25. Distribution and seasonal differences in Pacific Lamprey and Lampetra spp eDNA across 18 Puget Sound watersheds

Author

Carl O. Ostberg, Dorothy M. Chase, Michael C. Hayes, and Jeffrey J. Duda

Subjects

Environmental DNA, Locked nucleic acids, Quantitative PCR, Conservation, Puget sound, Pacific Lamprey, Medicine, Biology (General), QH301-705.5

Abstract

Lampreys have a worldwide distribution, are functionally important to ecological communities and serve significant roles in many cultures. In Pacific coast drainages of North America, lamprey populations have suffered large declines. However, lamprey population status and trends within many areas of this region are unknown and such information is needed for advancing conservation goals. We developed two quantitative PCR-based, aquatic environmental DNA (eDNA) assays for detection of Pacific Lamprey (Entosphenus tridentatus) and Lampetra spp, using locked nucleic acids (LNAs) in the probe design. We used these assays to characterize the spatial distribution of lamprey in 18 watersheds of Puget Sound, Washington, by collecting water samples in spring and fall. Pacific Lamprey and Lampetra spp were each detected in 14 watersheds and co-occurred in 10 watersheds. Lamprey eDNA detection rates were much higher in spring compared to fall. Specifically, the Pacific Lamprey eDNA detection rate was 3.5 times higher in spring and the Lampetra spp eDNA detection rate was 1.5 times higher in spring even though larval lamprey are present in streams year-round. This significant finding highlights the importance of seasonality on eDNA detection. Higher stream discharge in the fall likely contributed to reduced eDNA detection rates, although seasonal life history events may have also contributed. These eDNA assays differentiate Pacific Lamprey and Lampetra spp across much of their range along the west coast of North America. Sequence analysis indicates the Pacific Lamprey assay also targets other Entosphenus spp and indicates the Lampetra spp assay may have limited or no capability of detecting Lampetra in some locations south of the Columbia River Basin. Nevertheless, these assays will serve as a valuable tool for resource managers and have direct application to lamprey conservation efforts, such as mapping species distributions, occupancy modeling, and monitoring translocations and reintroductions.

Published

2018

26. Abundance Trends for Adult Pacific Lamprey in Western Oregon (USA): Historic Declines, Recent Increases, and Relative Contributions from Coastal Rivers

Author

Matthew A. Weeber, Michelle K. Jones, Benjamin J. Clemens, and M. A. Lewis

Subjects

Geography, biology, Pacific lamprey, Abundance (ecology), Ecology, Aquatic Science, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2021

27. Distribution and seasonal differences in Pacific Lamprey and Lampetra spp eDNA across 18 Puget Sound watersheds.

Author

Ostberg, Carl O., Chase, Dorothy M., Hayes, Michael C., and Duda, Jeffrey J.

Subjects

LAMPREYS, BIOTIC communities, WATERSHEDS, SPECIES distribution, COASTS

Abstract

Lampreys have a worldwide distribution, are functionally important to ecological communities and serve significant roles in many cultures. In Pacific coast drainages of North America, lamprey populations have suffered large declines. However, lamprey population status and trends within many areas of this region are unknown and such information is needed for advancing conservation goals. We developed two quantitative PCR-based, aquatic environmental DNA (eDNA) assays for detection of Pacific Lamprey (Entosphenus tridentatus) and Lampetra spp, using locked nucleic acids (LNAs) in the probe design. We used these assays to characterize the spatial distribution of lamprey in 18 watersheds of Puget Sound, Washington, by collecting water samples in spring and fall. Pacific Lamprey and Lampetra spp were each detected in 14 watersheds and co-occurred in 10 watersheds. Lamprey eDNA detection rates were much higher in spring compared to fall. Specifically, the Pacific Lamprey eDNA detection rate was 3.5 times higher in spring and the Lampetra spp eDNA detection rate was 1.5 times higher in spring even though larval lamprey are present in streams year-round. This significant finding highlights the importance of seasonality on eDNA detection. Higher stream discharge in the fall likely contributed to reduced eDNA detection rates, although seasonal life history events may have also contributed. These eDNA assays differentiate Pacific Lamprey and Lampetra spp across much of their range along the west coast of North America. Sequence analysis indicates the Pacific Lamprey assay also targets other Entosphenus spp and indicates the Lampetra spp assay may have limited or no capability of detecting Lampetra in some locations south of the Columbia River Basin. Nevertheless, these assays will serve as a valuable tool for resource managers and have direct application to lamprey conservation efforts, such as mapping species distributions, occupancy modeling, and monitoring translocations and reintroductions. [ABSTRACT FROM AUTHOR]

Published

2018

28. Pacific lamprey recolonization of a Pacific Northwest river following dam removal.

Author

Jolley, J. C., Silver, G. S., Harris, J. E., and Whitesel, T. A.

Subjects

LAMPREYS, RECOLONIZATION of fishes, LAMPETRA tridentata, FRESH water, ACQUISITION of data

Abstract

Abstract: Recolonization of Pacific lampreys Entosphenus tridentatus into historically used freshwater habitats in the United States Pacific Northwest was evaluated in the White Salmon River basin after removal of Condit Dam. Pacific lamprey population declines are of concern, and passage barrier removal is often recommended for conservation. Condit Dam on the White Salmon River in Washington was a complete barrier to fish migrating upstream for nearly 100 years, was breached in 2011, and was removed by 2012. Distribution of larval Pacific lampreys was estimated before and after removal of Condit Dam using either backpack or deepwater electrofishing. Larval detection probabilities were calculated for the basin, and sample efforts were refined to ensure at least 80% confidence that larvae were absent when not detected. Pacific lampreys were not present upstream of Condit Dam before it was removed but were present in areas downstream of the dam. After dam removal, Pacific lamprey larvae were collected upstream of the former dam site from four reaches of the mainstem White Salmon River, indicating a recent recolonization event. Pacific lampreys were absent from the river mouth area before the dam was removed but were found in newly created habitat at the mouth after dam removal. Pacific lampreys naturally recolonized the White Salmon River basin within a few years after dam removal. Removing dams and providing passage opportunity can allow Pacific lampreys to distribute into vacant areas and may help reverse population declines. [ABSTRACT FROM AUTHOR]

Published

2018

29. Low Mortality of Larval Lampreys from Electrofishing, Suction-pumping, Anesthesia, and Handling.

Author

Jolley, Jeffrey C., Uh, Christina T., Silver, Gregory S., and Whitesel, Timothy A.

Subjects

LAMPREY larvae, ELECTRIC fishing, ANESTHESIA

Abstract

Native lamprey populations are declining worldwide. In the Pacific Northwest focus on conservation and management of these ecologically and culturally important species has increased. Concern has emerged regarding the effects of sampling and handling of lamprey, with little to no attention given to the larval lifestage. We monitored the survival of larval Pacific Lamprey Entosphenus tridentatus and Lampetra spp. after backpack electrofishing, deepwater electrofishing and suction-pumping, anesthesia, and handling. We performed survival trials on wild-caught lamprey ( n = 15 larvae in each trial) collected from the Clackamas River drainage in Oregon, USA, coupled with control group trials from lamprey sourced from a hatchery ( n = 10 larvae). Short-term (96 h) survival was >98% with only one observed mortality. Delayed mortality (1 wk) was observed for four individuals that had fungus; two of those were positive for the bacteria Aeromonas hyrdrophila. We recorded blood hematocrit as a secondary measure of stress. The baseline, nonstressed larvae hematocrit levels did not differ from those of fish that had undergone stress through electrofishing, suction-pumping, and handling without anesthesia. Electrofishing, suction-pumping, and anesthesia showed no short-term negative effects on larval lamprey although potential long-term effects remain unstudied. These techniques appear to provide efficient and relatively safe methods for collecting and surveying larval lamprey. [ABSTRACT FROM AUTHOR]

Published

2017

30. A biologically based measure of turbulence intensity for predicting fish passage behaviours

Author

J. Channing Syms, Mark A. Kirk, Christopher C. Caudill, and Daniele Tonina

Subjects

Oceanography, biology, Pacific lamprey, Turbulence, Turbulence kinetic energy, Measure (physics), %22">Fish , Environmental science, Upstream (networking), biology.organism_classification, Flow field

Abstract

Many fishways were designed to facilitate upstream migration at anthropogenic barriers for targeted species, such as salmonids, though these designs may impede the passage of non-target species wit...

Published

2021

31. Microhabitat use by pre‐spawning Pacific lamprey Entosphenus tridentatus in a large, regulated river differs by year, river segment, and availability

Author

Carl B. Schreck and Benjamin J. Clemens

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, biology, 010604 marine biology & hydrobiology, Lamprey, Bedrock, Entosphenus tridentatus, 04 agricultural and veterinary sciences, Aquatic Science, biology.organism_classification, 01 natural sciences, Fishery, Habitat, Pacific lamprey, Streamflow, Nature Conservation, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Main channel, Ecology, Evolution, Behavior and Systematics

Abstract

Decreasing river flows and increasing water temperatures during the summer have been associated with holding behavior by pre-spawning Pacific lamprey Entosphenus tridentatus in the mainstem Willamette River (Oregon, USA). However, it is unclear if microhabitat use (≤ 2 m) by these lamprey is associated with particular habitat structure(s) or thermal refuge. We implanted radio tags into lamprey (n = 425) and conducted boat surveys to track individuals and document their microhabitat use in the mainstem Willamette River. 58 % of the lamprey were detected, representing 460 detections of 247 individuals across two years (2009 and 2010). Lamprey distributed significantly further upstream, and more were found in the main channel during a high flow year (2010) in comparison with a low flow year (2009). More lamprey held in the main channel across all river segments in 2010 than in 2009. Main channel habitats were significantly deeper than other microhabitats. Lamprey migrating into the upper river segment tended to use microhabitats other than the main channel. These other microhabitats included rock revetments and boulders/bedrock. Rock revetments were more prevalent in the middle – upper river segments, and a greater percentage of lamprey were associated with this microhabitat in these segments. The further upstream the lamprey migrated, the cooler, shallower, and faster water they encountered. One lamprey was associated with coolwater refuge (15.5 oC) in an alcove to the mainstem river (18.1 oC). We conclude that microhabitat use by pre-spawning Pacific lamprey differs by year (river flow), river segment, and availability in a large, regulated river.

Published

2021

32. Mercury concentrations in Pacific lamprey ( Entosphenus tridentatus ) and sediments in the Columbia River basin: Mercury in Columbia River Pacific lamprey

Author

Lasorsa, Brenda [Marine Sciences Laboratory, Pacific Northwest National Laboratory, Sequim Washington USA]

Published

2016

33. Robust Recolonization of Pacific Lamprey Following Dam Removals

Author

Jon E. Hess, Thomas A. Delomas, Mary L. Moser, Rebecca Paradis, Laurie A. Weitkamp, and Shawn R. Narum

Subjects

Fishery, Pacific lamprey, Aquatic Science, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2020

34. Climbing above the competition: Innovative approaches and recommendations for improving Pacific Lamprey passage at fishways.

Author

Goodman, Damon H. and Reid, Stewart B.

Subjects

*FISHWAYS, *LAMPETRA tridentata, *FISH behavior, *TRANSPONDERS, *FISH migration

Abstract

We evaluated the behavior and capabilities of upstream migrating adult Pacific Lamprey using a series of experimental trials in relation to existing and novel fishway designs using Passive Integrated Transponder (PIT) telemetry. Five treatments were evaluated with PIT telemetry of 164 upstream migrating Pacific Lamprey. Experimental treatments included an existing pool and weir fishway, two in-situ modifications of the existing fishway and two treatments designed to provide lamprey-specific routes. The probability of passage success through trials (10 m distance and 1 m elevation gain over 1 night) was related to treatment. The existing pool and weir fishway provided the lowest predicted passage efficiency at 0.44 (95% CI 0.29–0.59), while tube and culvert treatments had perfect efficiencies. For individuals that successfully ascended trials, passage time was also related to treatment. Lampreys ascending the pool and weir structure had the longest predicted passage time at 5.2 h (95% CI 3.96–6.46) while individuals in the tube were the fastest, with a 20-fold reduction in migration time at 0.26 h (95% CI 0.21–0.30). Lamprey ranged from 52 to 66 cm TL, however length did not influence passage success or migration time. Over 200 h of night-time observations were used to improve our understanding of how lampreys pass barriers and where they encounter particular challenges. Our results and observations of lamprey migration behavior confirm that pool and weir fishways and design features common to other fishways types can pose a substantial obstacle to Pacific Lamprey migration. We provide a set of recommendations for behavioral considerations and design features, both beneficial and those that should be avoided at fishways. This study identifies a variety of solutions applicable to a range of obstacles that, if implemented, should significantly improve the opportunity for Pacific Lamprey to pass existing and future man-made structures. [ABSTRACT FROM AUTHOR]

Published

2017

35. Behavioral Responses of Pacific Lamprey to Alarm Cues.

Author

Porter, Laurie L., Hayes, Michael C., Jackson, Aaron D., Burke, Brian J., Moser, Mary L., and Wagner, R. Steven

Subjects

LAMPETRA tridentata, ECTOPARASITES

Abstract

Pacific lamprey ( Entosphenus tridentatus), an anadromous ectoparasite, faces several challenges during adult migration to spawning grounds. Developing methods to address these challenges is critical to the success of ongoing conservation efforts. The challenges are diverse, and include anthropogenic alterations to the ecosystem resulting in loss of habitat, impassable barriers such as dams, climate change impacts, and altered predator fields. We conducted a behavioral study to understand how adult migrating Pacific lamprey respond to potential alarm cues: White Sturgeon ( Acipenser transmontanus), human saliva, decayed Pacific lamprey, and river otter ( Lontra canadensis). Research has shown that some species of lamprey can be guided to a location using odors and similar cues may be useful as a management tool for Pacific lamprey. Experiments were conducted over 2 nights and measured the number of entries (count) and duration of time spent (occupancy) by adult lamprey in each arm of a two-choice maze. During the first night, no odor was added to test for selection bias between arms. During the second night odor was added to one arm of the maze. Contrary to expectations, lamprey were significantly attracted to the river otter odor in both count and occupancy. No significant differences were found in the response of lamprey to the other three odors. Results from this study indicate that Pacific lamprey do respond to some odors; however, additional tests are necessary to better identify the types of odors and concentrations that elicit a repeatable response. [ABSTRACT FROM AUTHOR]

Published

2017

36. Development of diets for the intensive culture of Pacific lamprey.

Author

Barron, James M, Twibell, Ronald G, Hill, Heidi A, Hanson, Kyle C, and Gannam, Ann L

Subjects

*LAMPETRA tridentata, *FISH farming, *FISH feeds, *AQUACULTURE, *FISH conservation

Abstract

The Pacific lamprey Entosphenus tridentatus is an ancestral species of critical importance to the ecosystem and indigenous cultures in the Pacific Northwest. Conservation aquaculture has been proposed as a potential technique to restore Pacific lamprey populations. Intensive culture methods and diets for this species have not been developed. A sixteen week feeding trial tested the effects of seven diet treatments on the survival, growth, fatty acid profile and whole body lipid content of Pacific lamprey ammocoetes. Dietary treatments were: active dry yeast, yeast plus fish oil emulsion, micro-algae, micro-algae plus fish oil emulsion, yeast with micro-algae, yeast with micro-algae plus fish oil emulsion and yeast with larval fish diet. Each diet was offered to five replicate tanks stocked with 20 ammocoetes that were 51 days post hatch. Survival during the trial was not affected by diet. The greatest length and weight increases were in fish fed diets containing yeast. Growth decreased as the amount of algae in the diet was increased. Lipid retention was significantly higher in fish fed yeast with larval fish diet relative to the other treatments. Feed conversion ratio was lowest in fish fed diets containing yeast. Whole body fatty acid profiles tended to reflect the fatty acid profile of the diet. Percentages of 20:5n-3 and 22:6n-3 were significantly higher in fish fed diets containing fish oil emulsion. Overall, yeast with larval fish diet provided the best growth performance in larval Pacific lamprey. [ABSTRACT FROM AUTHOR]

Published

2016

37. Sample Sizes Needed to Describe Length-Frequency of Small-Bodied Fishes: An Example Using Larval Pacific Lamprey.

Author

Schultz, Luke D., Mayfield, Mariah P., and Whitlock, Steven L.

Subjects

FISH populations, GEOGRAPHICAL distribution of fishes, LAMPREYS

Abstract

The ability to describe the length distribution of a fish population requires sampling an adequate number of individuals, but collecting more fish than needed is inefficient. While fisheries managers have assessed sample size requirements for many sport fishes, these requirements are not routinely described for small-bodied fishes (i.e., maximum length ≤200 mm), particularly larval lampreys. To improve the efficiency of data collection for these fishes, we used resampling analyses to asses sample size requirements for accurately describing length distributions of larval (freshwater-dwelling) Pacific lamprey Entosphenus tridentatus, an anadromous fish native to western North America (total length 60-156 mm). We found that the highest increases in accuracy occurred with sample sizes <50, and that we needed sample sizes of 40 to 130 to describe length frequency with 95% confidence, depending on length interval used for performing length-frequency analyses. From these results, we recommend collecting 100 individuals if using 5-mm length intervals to examine length frequency of larval lamprey. These findings can also be used to estimate the relative accuracy of sample sizes in existing assessments and develop and refine monitoring programs for larval lampreys and other small-bodied fishes. [ABSTRACT FROM AUTHOR]

Published

2016

38. Effects of dewatering on behavior, distribution, and abundance of larval lampreys

Author

Lisa K. Weiland, Benjamin J. Clemens, Ann E. Gray, Theresa L. Liedtke, Joseph J. Skalicky, and Julianne E. Harris

Subjects

Larva, Lampetra, biology, Abundance (ecology), Ecology, Pacific lamprey, Entosphenus tridentatus, Drawdown (hydrology), Environmental Chemistry, biology.organism_classification, Dewatering, General Environmental Science, Water Science and Technology

Published

2020

39. Predicting larval metamorphosis of <scp>Pacific</scp> lamprey <scp> Entosphenus tridentatus </scp> through measurements of length and mass

Author

Timothy A. Whitesel, Gregory S. Silver, and Michelle McGree

Subjects

Washington, 0106 biological sciences, media_common.quotation_subject, Entosphenus tridentatus, Zoology, Captivity, Aquatic Science, 01 natural sciences, Condition factor, Rivers, Pacific lamprey, Animals, Body Size, Metamorphosis, Ecology, Evolution, Behavior and Systematics, media_common, Fish migration, Larva, biology, 010604 marine biology & hydrobiology, fungi, Metamorphosis, Biological, Lampreys, 04 agricultural and veterinary sciences, biology.organism_classification, Larval metamorphosis, Logistic Models, 040102 fisheries, 0401 agriculture, forestry, and fisheries, human activities

Abstract

The utility of length and mass measurements to predict the larval metamorphosis of Pacific lamprey Entosphenus tridentatus was evaluated. During 2004-2008, larval E. tridentatus were collected from Cedar Creek (Washington, USA) in either the spring or autumn, measured for total length and total mass, reared in captivity and monitored for metamorphosis. The minimum total length, total mass and condition factor of larvae that were observed to go through metamorphosis were 102 mm, 2.0 g and 1.52, respectively. Logistic models indicated that total length and condition factor in both spring and autumn were the most significant variables for predicting metamorphosis of Pacific lamprey during the subsequent summer. Mass in the autumn also appeared important to predict whether metamorphosis occurred in the subsequent summer. Collectively, all models using specific minimums of total length, total mass or condition factor of larvae as criteria for them to metamorphose were sometimes (5 of 14 cases) able to predict the percentage of larvae that would metamorphose but rarely (1 of 12 cases) able to predict which individual larvae would metamorphose. Similar to other anadromous species of lampreys, the size and condition of larval E. tridentatus have utility for predicting metamorphic fate.

Published

2020

40. Pacific Lamprey drag force modeling to optimize fishway design

Author

Christopher C. Caudill, Ralph Budwig, Hattie Zobott, William Basham, and Matthew L. Keefer

Subjects

biology, Drag, Pacific lamprey, %22">Fish , Environmental science, Water velocity, Critical ionization velocity, biology.organism_classification, Marine engineering

Abstract

Typically, fish passage design is informed by a critical velocity model whereby fish are assumed to fail passage if the water velocity is higher than the critical swim speed, an assumption that may...

Published

2020

41. Factors affecting the fate of Pacific lamprey carcasses and resource transport to riparian and stream macrohabitats

Author

Ralph T. Lampman, Aaron D. Jackson, Christopher C. Caudill, and Matthew R. Dunkle

Subjects

Fishery, geography, geography.geographical_feature_category, Resource (biology), biology, Pacific lamprey, Environmental science, STREAMS, Aquatic Science, biology.organism_classification, Riparian zone

Published

2020

42. Landlocked Pacific Lamprey Entosphenus tridentatus in the Middle Fork Willamette River, Oregon

Author

Benjamin J. Clemens, Margaret F. Docker, Douglas C. Larson, Brian L. Bangs, and Matt Helstab

Subjects

0106 biological sciences, Fish migration, education.field_of_study, biology, 010604 marine biology & hydrobiology, Entosphenus tridentatus, Population, 04 agricultural and veterinary sciences, Aquatic Science, biology.organism_classification, 01 natural sciences, Pacific ocean, Fishery, Flood control, Geography, Habitat, Pacific lamprey, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Landlocked country, education, human activities, Ecology, Evolution, Behavior and Systematics

Abstract

Pacific Lamprey Entosphenus tridentatus is an anadromous fish native to the west coast of North America and the Pacific coast of Asia. In the 1950s, construction of dams on the Middle Fork Willamette River blocked upstream migration of adult Pacific Lamprey which resulted in their extirpation from otherwise suitable habitats. We report evidence of landlocked Pacific Lamprey surviving for >40 years after the construction of two high-head flood control dams (Dexter and Lookout Point) in the Middle Fork Willamette River 355.0 and 360.3 km upstream of the Pacific Ocean, respectively. In 2001, six putative Pacific Lamprey (two juveniles and four larvae) were captured using an electro shocker during a stream survey, 21.7 km upstream of Lookout Point Dam (the uppermost of these dams) and were entered into the Smithsonian National Museum of Natural History’s Division of Fishes collection. We re-examined these specimens, and their morphometric measurements and dentition are consistent with Pacific Lamprey. Additional evidence supports the existence of a landlocked population of Pacific Lamprey that resided upstream of these two impassable dams for approximately five generations. To our knowledge, this is the first report of Pacific Lamprey surviving for multiple generations upstream of impassable impoundments. However, no Pacific Lamprey have been detected in recent targeted surveys, indicating that this population has since been extirpated or exists in very low numbers.

Published

2020

43. Mercury concentrations in Pacific lamprey ( Entosphenus tridentatus) and sediments in the Columbia River basin.

Author

Linley, Timothy, Krogstad, Eirik, Mueller, Robert, Gill, Gary, and Lasorsa, Brenda

Subjects

*MERCURY content of fish, *ANALYSIS of river sediments, *LAMPETRA tridentata, *METHYLMERCURY, *AMMOCOETES, *FLUORESCENCE spectroscopy

Abstract

The accumulation of mercury was investigated in Pacific lamprey and stream sediments in the Columbia River basin. Mercury concentrations in larval lamprey differed significantly among sample locations ( p < 0.001) and were correlated with concentrations in sediments ( r2 = 0.83). Adult concentrations were highly variable (range, 0.1-9.5 μg/g) and unrelated to holding time after collection. The results suggest that Pacific lamprey in the Columbia River basin may be exposed to mercury levels that have adverse ecological effects. Environ Toxicol Chem 2016;35:2571-2576. © 2016 SETAC [ABSTRACT FROM AUTHOR]

Published

2016

44. Role of large- and fine-scale variables in predicting catch rates of larval Pacific lamprey in the Willamette Basin, Oregon.

Author

Schultz, Luke D., Mayfield, Mariah P., Sheoships, Gabe T., Wyss, Lance A., Clemens, Benjamin J., Whitlock, Steven L., and Schreck, Carl B.

Subjects

*FISH dispersal, *FISH habitats, *LAMPETRA tridentata, *HABITATS, *FISH conservation

Abstract

Pacific lamprey Entosphenus tridentatus is an anadromous fish native to the Pacific Northwest of the USA. That has declined substantially over the last 40 years. Effective conservation of this species will require an understanding of the habitat requirements for each life history stage. Because its life cycle contains extended freshwater rearing (3-8 years), the larval stage may be a critical factor limiting abundance of Pacific lamprey. The objective of our study was to estimate the influence of barriers and habitat characteristics on the catch-per-unit-effort ( CPUE) of larval Pacific lamprey in the Willamette River Basin, Oregon, USA. We sampled lampreys at multiple locations in wadeable streams throughout the basin in 2011-13 and used an information theoretic approach to examine the relative influence of fine- and large-scale predictors of CPUE. Pacific lamprey was observed across the basin, but its relative abundance appeared to be limited by the presence of natural and artificial barriers in some sub-basins. Lower velocity habitats such as off-channel areas and pools contained higher densities of larval lamprey; mean Pacific lamprey CPUE in off-channel habitats was 4 and 32 times greater than in pools and riffles respectively. Restoration and conservation strategies that improve fish passage, enhance natural hydrologic and depositional processes and increase habitat heterogeneity will likely benefit larval Pacific lamprey. [ABSTRACT FROM AUTHOR]

Published

2016

45. A Stepwise Approach to Assess the Occupancy State of Larval Lampreys in Streams

Author

Jeffrey C. Jolley, R.D. Nelle, Timothy A. Whitesel, Julianne E. Harris, and Gregory S. Silver

Subjects

0106 biological sciences, Larva, Fish migration, Ecology, Occupancy, 010604 marine biology & hydrobiology, Entosphenus tridentatus, STREAMS, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Fishery, Pacific lamprey, Animal Science and Zoology, Stepwise approach, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Pacific Lamprey Entosphenus tridentatus is an ecologically and culturally important anadromous species of conservation concern for which fisheries managers use information on occupancy state in streams to assess species status and inform stream management decisions. Here we developed a stepwise approach that incorporates the potential for nondetection and a preselected expected maximum probability of stream occupancy if field crews do not document larval Pacific Lamprey during sampling. Our approach includes seven steps: define the occupancy question; select the maximum acceptable probability of occupancy, if the species is not documented during sampling; define an assumed detection probability for the target organism; calculate required sampling effort; select sampling units; conduct sampling; and interpret sampling results into probabilistic occupancy conclusions. We examined detection probability of our approach for larval lamprey using data from multiple occupied streams in the Pacific Northwest. We illustrated our approach by evaluating Balm Grove Dam as a barrier to Pacific Lamprey migration in Gales Creek, Oregon. Bayesian estimates of detection probability in occupied streams ranged from 0.15 to 0.94, with an overall median of 0.70 (95% credible interval: 0.60–0.79). Assuming detection probability is at least 0.15 (i.e., lowest estimate), 19 reaches are required for the expected maximum probability of occupancy to be not more than 0.05, if the species is not documented through our sampling approach. Although detected downstream, we detected no larvae upstream of Balm Grove Dam; thus, we conclude that the maximum probability of occupancy upstream of Balm Grove Dam was not more than 0.05 at an assumed detection probability of 0.4, suggesting the dam as a barrier to adult migration. We provide an occupancy assessment tool with standardized sampling requirements that incorporates the potential for nondetection and the flexibility to select an expected maximum probability of occupancy if researchers document no larvae, to aid management and restoration in a single stream.

Published

2019

46. Marine biology of the pacific lamprey Entosphenus tridentatus

Author

Keith R. Parker, Laurie L. Porter, Jon E. Hess, Alexei M. Orlov, Julianne E. Harris, Trent M. Sutton, Kevin Siwicke, Joy Wade, Laurie A. Weitkamp, and Benjamin J. Clemens

Subjects

0106 biological sciences, Fish migration, Ecology, 010604 marine biology & hydrobiology, Lamprey, 04 agricultural and veterinary sciences, Aquatic Science, Biology, biology.organism_classification, 01 natural sciences, Spawn (biology), Predation, Bycatch, Pacific lamprey, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Marine ecosystem, Philopatry, human activities

Abstract

Pacific lamprey Entosphenus tridentatus has an anadromous life cycle that begins with larvae that filter-feed in freshwater, followed by transformation into juveniles that migrate to the ocean where they parasitize hosts, and adults that migrate into freshwater to spawn and die. The marine-phase (i.e., juvenile life stage) is important yet poorly understood, and is associated with growth opportunities to achieve maximum body size and recruitment. The four goals of this paper are to: (1) synthesize the literature to identify patterns in the marine biology of Pacific lamprey; (2) develop hypotheses to explain these patterns; (3) identify limiting factors and threats, and (4) identify research needs. We hypothesize that recruitment of adult lamprey to spawning populations is influenced by oceanographic regimes through impacts on host abundance. Three marine factors that may be limiting lamprey abundance include: (1) predation and fisheries bycatch; (2) host availability; and (3) host contaminant loads. Four potential marine-related threats to lamprey include: (1) pollution; (2) climate change; (3) unfavorable oceanographic regimes; and (4) the effects of interactions between climate and regimes. Pacific lamprey is not philopatric and the extent to which host migrations and other factors influence lamprey entry into rivers is unclear. Research is needed to fill information gaps on how, when, why, and where lamprey move, feed, and grow in the ocean. Their widespread distribution, parasitic life history, diverse hosts, and multiple predators suggest that Pacific lamprey is integrated into diverse marine ecosystems.

Published

2019

47. Occurrence of pathogens in Pacific lamprey (Entosphenus tridentatus)

Author

Jeffrey C. Jolley, Scott E. LaPatra, Melissa G. White, Alexa N. Maine, Corie Samson, Mary L. Moser, Linda D. Rhodes, Kenneth M. Lujan, Marilyn Blair, Sam T. Onjukka, Ralph T. Lampman, and Aaron D. Jackson

Subjects

0106 biological sciences, Larva, biology, 010604 marine biology & hydrobiology, Lamprey, Entosphenus tridentatus, Zoology, 04 agricultural and veterinary sciences, Aquatic Science, biology.organism_classification, 01 natural sciences, Aeromonas salmonicida, Habitat destruction, Pacific lamprey, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Juvenile, human activities, Pathogen

Abstract

Pacific lamprey (Entosphenus tridentatus) is a First Food of Native Americans. Declines in lamprey abundance due to dam construction and habitat loss have curtailed traditional harvest opportunities. Artificial propagation is an emerging recovery tool for this imperiled species, and other lamprey species in Finland and Japan. To manage disease risk at prospective lamprey hatcheries, it is critical to understand the pathogens and parasites most likely to affect lamprey and other fish, both in culture and in the wild. We assembled data from regional fish health laboratories to assess pathogen prevalence in Pacific lamprey sampled from various sources (518 adults, 275 larvae, and one juvenile). In adults, Aeromonas salmonicida was identified using standard health screening methods in 0–69% of dead lamprey samples submitted, but no other pathogens were typically observed. All larvae were negative for bacterial and viral infections, and larvae experimentally exposed to A. salmonicida showed no infection or mortality. Conspicuously absent were detailed health assessments for metamorphosed larvae (juveniles). However, external examinations of over 20,000 juveniles captured at dams on the lower Columbia River indicated that they are susceptible to fungal infection in warm water conditions (> 12 °C), which can lead to mortality. To fully evaluate the disease risk associated with lamprey culture, directed research is needed along with standardized health screenings of lamprey at all life stages. Control of A. salmonicida, the etiological agent for furunculosis, will be a top priority for Pacific lamprey use, as this was the only pathogen regularly identified in this species.

Published

2019

48. THE FEEDING OF LARVAL OF PACIFIC LAMPREY LETHENTERON CAMTSCHATICUM IN MALAYA KHUSI RIVER (SAKHALIN ISLAND)

Author

Evolution, Leninskij prosp., Moscow, Russia, E.A. Kirillova, N.V. Polyakova, and A.V. Kucheryavyy

Subjects

Larva, biology, Pacific lamprey, Zoology, biology.organism_classification, Arctic lamprey

Published

2019

49. Evaluation of environmental DNA surveys for identifying occupancy and spatial distribution of Pacific Lamprey (Entosphenus tridentatus) andLampetraspp. in a Washington coast watershed

Author

Jeffrey J. Duda, Dorothy M. Chase, Carl O. Ostberg, Michael C. Hayes, Marshal S. Hoy, Jeffrey C. Jolley, Gregory S. Silver, and Carrie Cook-Tabor

Subjects

Watershed, Ecology, biology, Occupancy, Lamprey, biology.organism_classification, Spatial distribution, Fishery, Lampetra, Electrofishing, Pacific lamprey, Genetics, Environmental DNA, Ecology, Evolution, Behavior and Systematics

Published

2019

50. Pathogens of Pacific Lamprey Detected Through Routine Fish Health Screenings

Author

Jeffrey C. Jolley and Kenneth M. Lujan

Subjects

0106 biological sciences, Ecology, biology, 010604 marine biology & hydrobiology, Entosphenus tridentatus, Zoology, 04 agricultural and veterinary sciences, Fish health, biology.organism_classification, 01 natural sciences, Vibrio, Aeromonas, Pacific lamprey, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Animal Science and Zoology, human activities, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Interest in conservation, management, and captive rearing of Pacific Lamprey Entosphenus tridentatus in the Pacific Northwest has risen in recent years. General and specific information regarding the occurrence of fish pathogens and the risk of Pacific Lamprey as a vector for pathogens to other species is not well understood. Specific efforts to captively rear or artificially propagate Pacific Lamprey at facilities that are used for Pacific salmon Oncorhynchus spp. have increased. We performed fish health surveys on wild-caught larval and adult Pacific Lamprey from locations that were used as lamprey sources for captive research to determine the occurrence of bacteria, viruses, and parasites that may be pathogens. A variety of potential pathogens was detected, most notably Aeromonas hydrophila and Vibrio vulnificus from larval Pacific Lamprey and A. salmonicida from adult lampreys. There was a general lack of pathogenic activity and absence of viral detections from all lampreys. The diversity of bacteria encountered from the larvae in our study could be indicative of the wide diversity of bacteria that is known to be associated with larval lamprey in general. Further efforts to understand pathogenic risk from Pacific Lamprey to salmonid propagation programs are warranted.

Published

2019