Early life history characteristics of Pacific herring, Clupea harengus pallasi Valenciennes 1847, in the Strait of Georgia, British Columbia : hydrodynamics, dispersal, and analysis of growth rates

Robinson, Shawn Michael Charles

January 1988

Cohorts of larval Pacific herring, Clupea harengus pallasi Valenciennes 1847, were studied from hatch during the spring of 1985, 1986, and 1987 in the Strait of Georgia, British Columbia. The main objectives were to study the patterns in the larval dispersal process, to study a major spawning area for Pacific herring to determine whether this site may act as a nursery area for the resulting year-class, and to evaluate the current hypotheses concerning survival of the larval year-class for their applicability to Pacific herring. Results indicated a significant proportion of larval herring which hatched in Lambert Channel quickly dispersed into Baynes Sound, probably through a combination of tidal movements and wind driven surface currents. Baynes Sound was shown to be much more stable than Lambert Channel due to strong stratification through freshwater input and protection from wind mixing by the surrounding land masses which may also have resulted in an earlier spring plankton bloom. Baynes Sound also had significantly higher densities of microzooplankton important to the early feeding herring larvae than Lambert Channel and outside waters. The suite of potential predators was also different between the two channels with Baynes Sound having more hydromedusae and Lambert Channel having more chaetognaths and polychaetes. Analysis of larval growth rates using an RNA/DNA ratio technique on individuals from the yolk sac stage onwards indicated the larvae initially grew very slowly but, by postflexion were growing over 25 %•d⁻¹ in protein. Starvation did not appear to play an important role in mortality. The RNA/DNA ratio was demonstrated to be directly correlated with a morphometric condition factor Pacific herring larvae indicating it can also be used as a condition factor. There was a significant positive correlation between the mean protein growth rate measured with RNA/DNA ratios and the mean nauplii density. Feeding larvae in Baynes Sound were found to be growing faster than those in Lambert Channel suggesting Baynes Sound was being used as a nursery area. Analysis of otoliths suggested there was a significant increase in survival of larval herring having higher growth rates over as little as a 3-week period. / Science, Faculty of / Zoology, Department of / Graduate

Atlantic herring -- Growth

Pacific herring -- Growth

The endemic zooplankton population as a food supply for young herring in Yaquina Bay

Russell, Howard Jamison Jr

08 May 1964

Graduation date: 1964

Zooplankton -- Oregon -- Yaquina Bay

Pacific herring -- Oregon -- Yaquina Bay

Influence of incubation salinity and temperature and post-hatching temperature on salinity tolerance of Pacific herring (Clupea pallasi Valenciennes) larvae

Dueñas, Corazon Echevarria

January 1981

A study was conducted to determine the effects of incubation salinity and temperature . and post-hatching temperature on salinity tolerance of Pacific herring (Clupea pallasi Valenciennes) larvae. Calorimetry experiments were also conducted on herring larvae that were incubated and reared in various combinations of salinity and temperature. In the salinity tolerance test, herring eggs were artificially fertilized in three salinities (13, 21 and 29°/ooS) at 6°C. Newly fertilized eggs were incubated in the same salinities as those in which they were fertilized at two levels of incubation temperature (6 and 12°C), making six incubation groups. During the peak of the hatching period, groups of larvae from each incubation group were exposed to a series of test salinities, ranging from 20 to 55°/ooS at three levels of post-hatching temperatures (6, 9 and 12°C). Salinity tolerance was measured by determining the mortality of larvae occurring in each test salinity over a period of 72 hours. Two approaches were employed: 1) time-mortality, and 2) dosage-mortality. The former provided estimates of the effective time to 50% mortality (ET₅₀), the latter, the effective dosage (salinity) to 50% mortality (ED₅₀). The ET₅₀ or ED₅₀ values were used as bases for comparison of the responses of larvae to incubation temperature and salinity, and post-hatching temperature. The results indicate that both incubation salinity and temperature exert a significant influence on the salinity tolerance of larvae. Eggs incubated in the highest salinity (29°/ooS) and lower temperature (6°C) produced larvae most tolerant to higher post-hatching salinities. Post-hatching temperature also showed a possible influence, although the trends seen were not statistically significant. Salinity tolerance of larvae hatching from the 6°C incubation temperature appeared to be maximized at post-hatching temperatures between 6 and 9°C; whereas, those larvae from the 12°C incubation temperature showed maximum salinity tolerance at 9 to 12°C post-hatching temperatures. The response. of. larvae to salinity may be a result of an irreversible non-genetic adaptation of the embryo to salinity and temperature during incubation. In the calorimetry experiments, samples of herring larvae were combusted in a microbomb calorimeter to determine caloric values. These larvae were hatched and reared in the same six combinations of incubation salinities and temperatures as those used in the main experiment. Larvae were sampled at day 0 (peak of hatching), 3, 6 and 9. Standard lengths, dry weights, ash-free dry weights and ash content of the larval samples were also taken. There was a considerable variability in the data for calorimetry of the herring larva. In general, larvae from all treatments, at hatching, averaged 6,586 cal/g ash-free dry weight and had a mean ash value of 8.25%, obtained by direct ashing. Mean standard length of larvae at the peak of hatching (day 0) ranged from 7.67 mm (12°C, 29°/ooS) to 9.93 mm (6°C, 13°/ooS). There was a trend towards larger larvae (greater standard length) at lower temperatures in lower salinities in all ages tested. Data on dry weights show a linear decrease in larval (body and yolk) weight from day 0 to day 9. Mean dry weight of larva at the peak of hatching ranged from 0.142 mg (6°C, 13°/OOS) to 0.162 mg (12°C, 21°/ooS; 12°C, 29°/ooS). At day 0, the largest larvae (in terms of dry weight) were found at higher temperatures in higher salinities, while at day 9 (past yolk-sac stage), the largest larvae were found at lower temperatures in lower salinities. The same trend was observed in terms of ash-free dry weight. / Science, Faculty of / Zoology, Department of / Graduate

Salinity

Fishes --Larvae

Atlantic herring

Salinity --Physiological effect

Pacific herring

Pacific herring and salmon: ecological interactions across the land-sea interface

Fox, Caroline Hazel

13 August 2013

Ecosystems are linked by spatial subsidies, the bi-directional flows of nutrients, materials and energy that cross ecosystem boundaries. Considered one of the planet’s most productive and diverse meta-ecosystems, the broad interface between land and sea is crossed by innumerable abiotic and biotic spatial subsidies, including migratory animals. Routinely crossing ecological boundaries, migrants play significant roles in subsidizing receiving ecosystems, including influencing ecosystem productivity, diversity, community structure and trophic cascades. On the Pacific coast of North America, spatial subsidies driven by migratory Pacific salmon have been intensively studied. Like many of the world’s migrants, however, salmon populations have declined considerably and most of our scientific knowledge has been gained from a diminished subsidy. Other subsidies, including those driven by migratory species in decline, remain relatively unknown. Each year, Pacific herring (Clupea pallasii) migrate to shallow waters to spawn on nearshore and intertidal substrates. Despite suggestions in the literature that herring, an abundant, nearshore/intertidal spawning forage fish, subsidizes coastal ecosystems, there had been no investigation of cross-ecosystem interactions. Just as stable isotopes and fatty acids have been used to explore wrack (drift macrophytes) subsidies to intertidal ecosystems, we combined both approaches to trace the input of Pacific herring and wrack to semi-terrestrial amphipods (Traskorchestia spp.), which are highly abundant detritivores in beach ecosystems. Brown algae and seagrass were major contributors to amphipods but when available, herring was also a significant resource. Because amphipods are prey for terrestrial consumers, including bears (Ursus spp.), we also identified indirect trophic linkages between herring and terrestrial ecosystems. Bears are major consumers and vectors of salmon into terrestrial ecosystems, but little is known regarding their involvement in other spatial subsidies. Using a model-based inference approach paired with remote cameras to monitor intertidal black bear (U. americanus) activity, we determined that the best predictors of black bear intertidal activity were major intertidal prey items (herring and amphipod biomass) and Julian day. Bears positively responded to herring and amphipod biomass on beaches but it was the analysis of scats that determined the contribution of herring eggs to the diets of bears. In 2010, the herring spawn was relatively poor and consumption of eggs was negligible, with amphipods constituting a major portion of bear diets. In following years, herring egg loading was relatively high and eggs were the dominant dietary item in bear scats. Tracing the contribution of herring into terrestrial areas proved challenging and instead, we furthered knowledge of the within-watershed spatiotemporal influences of salmon on conifer tree ring growth and δ15N signatures. Both tree ring growth and δ15N signatures tracked the known spatial distribution of salmon carcasses. Using a model-based inference approach, salmon abundance and interaction terms of salmon*temperature and salmon*distance into the forest best predicted tree growth. In contrast, salmon abundance was not a leading predictor of δ15N. By broadening our understanding of the fine-scale influence of salmon on a stand of ancient trees, this research is expected to contribute to future exploration of the terrestrial influences of Pacific herring. / Graduate / 0329 / cfox@uvic.ca

spatial subsidy

Pacific herring

spawn

salmon

Amphipoda

black bear

fatty acids

stable isotopes

conifer

Quantifying interannual variability in the condition of Young-of-Year Pacific herring (Clupea pallasi) in the Strait of Georgia, BC

Pascoe, Emma Sybil

31 August 2018

The condition of juvenile fish relates to their overall health and is a strong predictor of survival and eventual recruitment. Condition can be quantified and interpreted in a variety of ways covering different time scales and levels of biological organization. Here I (i) quantify interannual variability in the condition in Young-of-Year (YOY) Pacific herring (Clupea pallasi) in the Strait of Georgia, BC, from 2013-2016, and (ii) examine the extent to which the condition of an individual fish varies depending on which condition metric is used. Chapter 1 provides a general background on the concept of measuring condition in fish, as well as the basic biology of Pacific herring and their importance in Strait of Georgia ecosystem. In Chapter 2, I report the condition of YOY herring from 2013-2016 using six metrics: (i) Fulton’s K, (ii) the residuals from a length:weight regression, (iii) the RNA:DNA ratio, (iv) recent growth estimated via otolith microstructure analysis, (v) lipid content, and (vi) the ratio of two essential acids DHA:EPA. Four of these metrics (Fulton’s K, length:weight residuals, and growth from RNA:DNA and otolith increments) indicate a decrease in condition over the four years. In contrast, lipid content suggests an increase across the four years, while DHA:EPA suggests a decrease in 2015 but no change over the other three years. The observed interannual variability in condition can be partly linked to unfavourable changes in temperature and zooplankton community composition in 2015 and 2016, and to the propensity of juvenile fish to prioritize energy storage over somatic growth before a period of prey scarcity, such as their first winter. This dataset is further examined in Chapter 3, wherein I examine variability in condition of individual fish based on the different metrics used. Individual herring are ranked based on their scores from the six different metrics of condition, and the distribution of these rankings are examined to assess the degree of intercorrelation among the metrics. Based on this model, as well as pairwise Spearman rank correlations between the six metrics, I conclude that there is little intercorrelation between metrics, and that a fish that scores highly in terms of condition in any one metric will not necessarily score highly for the other metrics. These findings underscore the importance of choosing condition metrics carefully, based on the nature of the question being asked. / Graduate / 2019-07-04

Pacific herring

Juvenile fish

Strait of Georgia

Condition

Fatty acid profile

RNA:DNA

Otolith microstructure