Population impacts in white sucker (<i>Catostomus commersonii</i>) exposed to oil sands–derived contaminants in the Athabasca River

Arens, Collin J.; Arens, Jennifer C.; Hogan, Natacha S.; Kavanagh, Richard; Berrué, Fabrice; Kraak, Glen J. Van Der; Heuvel, Michael R. van den

doi:10.1002/etc.3735

Cited by 25 publications

(27 citation statements)

References 41 publications

(97 reference statements)

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“…Patterns in the relative abundance of white sucker compared with the others diverged in 2009. This suggests that some alterations in some of the factors affecting the relative abundances of fishes in the lower Athabasca basin occurred within the last decade, and indicate the importance of considering ecology in monitoring studies of migratory species (Arens et al 2017). More specifically, changes occur most frequently in species that migrate from Lake Athabasca into the oil sands area to spawn.…”

Section: Discussionmentioning

confidence: 99%

“…Acute toxicity to early life stages of fish may be a relevant indicator, but documenting changes using this measurement can be challenging in field settings. Changes in fish associated with chemical stressors have also been observed during field studies, but the detected differences are largely limited to the induction of biochemical markers of exposure, occurrence of PACs in fish muscle, PAC biotransformation products, and changes in reproductive physiology (Tetreault et al 2003;Ohiozebau et al 2016Ohiozebau et al , 2017Arens et al 2017).…”

Section: Introductionmentioning

confidence: 99%

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Increased size and relative abundance of migratory fishes observed near the Athabasca oil sands

Arciszewski

Munkittrick

Kilgour

et al. 2017

FACETS

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Responses to chemical and physical stressors are commonly expected among organisms residing near the Athabasca oil sands. Physiological effects have been observed in fishes during field studies; but further effects associated with development are not clear or consistent among species. For instance, data from a fish fence in 2009 show declines in the relative abundances of some species, including Arctic grayling (Thymallus arcticus). In contrast, increases were seen in white sucker (Catostomus commersoni). This divergence suggests incomplete understanding of the status of fishes residing near the oil sands. However, an important challenge limiting understanding is the lack of reliable baseline or reference data. To overcome this challenge, we used iterative normal ranges and a historical data set (electrofishing surveys done from 1987 to 2014) to determine if changes have occurred in fishes captured in the lower Athabasca River. These analyses revealed clear increases in the lengths of white sucker and walleye (Sander vitreus) and their relative abundances during the spawning season. The occurrence of these changes may be associated with overwintering location, but reduced fishing pressure in Lake Athabasca, eutrophication, or a cumulative effect may explain the form of changes detected in this study.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Increased size and relative abundance of migratory fishes observed near the Athabasca oil sands

Arciszewski

Munkittrick

Kilgour

et al. 2017

FACETS

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“…They also demonstrated reduced investment of energy into reproductive development (gonad size and fecundity) which was not seen in the studies here. This may be due to the fact that this study collected resident fish from the Athabasca River in the fall of the year, and Arens et al [12] collected fish during the spawning period in the spring. Earlier monitoring programs in the area collected fish community data on the mainstem Athabasca River as well as fish communities that use tributary streams for spawning in the spring (Regional Aquatic Monitoring Program).…”

Section: Natural Background Variabilitymentioning

confidence: 97%

“…It is recommended to evaluate whether improvements in fish health identified in year three are confirmed in the next sampling period. Arens et al [12] collected spawning white sucker from the Muskeg River, a tributary of the Athabasca River very close to the AR DS M4 location, and also demonstrated increased energy storage in terms of condition factor and liver size relative to fish collected from a lake upstream of the oil sands deposit. They also demonstrated reduced investment of energy into reproductive development (gonad size and fecundity) which was not seen in the studies here.…”

Section: Natural Background Variabilitymentioning

confidence: 99%

Aquatic Ecosystem Health Assessment of the Athabasca River Mainstem Oil Sands Area Using White Sucker Health

McMaster

Tetreatult

Clark

et al. 2018

WIT Transactions on Ecology and the Environment

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The Governments of Canada and Alberta designed an environmental monitoring plan for the lower Athabasca River between Fort McMurray and its confluence with Lake Athabasca. This plan, known as the Joint Oil Sands Monitoring Plan (JOSM), included monitoring aquatic ecosystem health with a focus on wild fish in the mainstem of the Athabasca River. The fish health program for JOSM used endpoints developed through Canada's Environmental Effects Monitoring Programs for the pulp and paper and metal mining sectors under Canada's Fisheries Act. Fish can be sensitive to multiple stressors, are critical components of aquatic ecosystems, and have significant social and economic value. The objective of the fish component of the aquatic monitoring program was to provide necessary data and supporting information to address key questions regarding both environmental health of fish populations and fish health issues related to use and consumption. The JOSM mainstem program consisted of large bodied fish health assessments at five stations and small bodied fish health assessments at nine stations on the Athabasca River. The large bodied white sucker were sensitive indicators of fish health in the system as consistent changes in fish health downstream, within the oil sands deposit were documented. These differences were indicative of nutrient enrichment as white sucker had increased condition and increased levels of internal fat stores relative to fish upstream of the oil sands area. The fish biomarker, ethoxyresorufin-O-deethylase activity, was a good indicator of exposure to polycyclic aromatic hydrocarbons and indicated the potential for increased exposure to these compounds downstream of oil sands development. Tiers and triggers are being developed for the program to predict change into the future and to be used in management decisions for further development in the area.

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“…However, this low absolute fecundity may also be related to an environmental impact on oogenesis (Murua & Saborido‐Rey, ). In fact, the presence of pollutants in the aquatic environment could be a stressor factor that affects the growth of oocytes and, then the quality of ova as well as the reproductive potential (fecundity) (Arens et al., ). The Itapecerica river, where the P. argentea was caught, receives generalized pollution from organic and industrial effluents as a result of poorly planned municipal sewage systems (IGAM, ).…”

Section: Discussionmentioning

confidence: 99%

Oogenesis is accompanied by cyclic morphological changes in hepatocytes of Neotropical freshwater fish Piabina argentea

Thomé

Cardoso

Oliveira

et al. 2018

Anat Histol Embryol

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We determined for the first time the reproductive biology of Piabina argentea through macroscopic and microscopic analysis of ovaries and evaluated the morphological changes in hepatocytes. Two hundred and 46 specimens were collected, 204 females and 42 males, between March 2014 and February 2015. Biometrics data were obtained. From females, gonad and liver samples were conducted to histological, histochemical and immunohistochemical techniques. Mature ovaries were used to determine absolute and relative fecundity. Total length and body weight values indicated that females were larger than males. The estimated weight-length ratio showed negative allometric growth. The absolute fecundity average was 171.83 ± 59.89 oocytes per ovary. In addition, females spawning capable and regressing stages were found throughout the sampling period and the presence of all oocyte types in regressing stage ovaries indicated asynchronous oocyte development and multiple spawning. From regenerating to spawning capable stage the oocytes accumulated yolk in cytoplasm became bigger. While in the liver hepatocytes with a larger cell area during regenerating stage and proliferative activity in the spawning capable stage were observed. Thus, our results indicate that P. argentea had an opportunistic reproductive strategy and cyclic morphological changes of hepatocytes occurred during the oogenesis.

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Population impacts in white sucker (Catostomus commersonii) exposed to oil sands–derived contaminants in the Athabasca River

Cited by 25 publications

References 41 publications

Increased size and relative abundance of migratory fishes observed near the Athabasca oil sands

Increased size and relative abundance of migratory fishes observed near the Athabasca oil sands

Aquatic Ecosystem Health Assessment of the Athabasca River Mainstem Oil Sands Area Using White Sucker Health

Oogenesis is accompanied by cyclic morphological changes in hepatocytes of Neotropical freshwater fish Piabina argentea

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