Your search keyword '"Arnott, Shelley E."' showing total 46 results

1. Timing determines zooplankton community responses to multiple stressors.

Author

Sun, Xinyu and Arnott, Shelley E.

Subjects

*FRESHWATER zooplankton, *HEAT waves (Meteorology), *ZOOPLANKTON, *CLIMATE change, *EFFECT of salt on plants

Abstract

Human activities and climate change cause abiotic factors to fluctuate through time, sometimes passing thresholds for organismal reproduction and survival. Multiple stressors can independently or interactively impact organisms; however, few studies have examined how they interact when they overlap spatially but occur asynchronously. Fluctuations in salinity have been found in freshwater habitats worldwide. Meanwhile, heatwaves have become more frequent and extreme. High salinity pulses and heatwaves are often decoupled in time but can still collectively impact freshwater zooplankton. The time intervals between them, during which population growth and community recovery could happen, can influence combined effects, but no one has examined these effects. We conducted a mesocosm experiment to examine how different recovery times (0‐, 3‐, 6‐week) between salt treatment and heatwave exposure influence their combined effects. We hypothesized that antagonistic effects would appear when having short recovery time, because previous study found that similar species were affected by the two stressors, but effects would become additive with longer recovery time since fully recovered communities would respond to heatwave similar to undisturbed communities. Our findings showed that, when combined, the two‐stressor joint impacts changed from antagonistic to additive with increased recovery time between stressors. Surprisingly, full compositional recovery was not achieved despite a recovery period that was long enough for population growth, suggesting legacy effects from earlier treatment. The recovery was mainly driven by small organisms, such as rotifers and small cladocerans. As a result, communities recovering from previous salt exposure responded differently to heatwaves than undisturbed communities, leading to similar zooplankton communities regardless of the recovery time between stressors. Our research bolsters the understanding and management of multiple‐stressor issues by revealing that prior exposure to one stressor has long‐lasting impacts on community recovery that can lead to unexpected joint effects of multiple stressors. [ABSTRACT FROM AUTHOR]

Published

2024

2. The ecosystem implications of road salt as a pollutant of freshwaters.

Author

Dugan, Hilary A. and Arnott, Shelley E.

Subjects

*POLLUTANTS, *WATER pollution, *STREAM salinity, *LAKES, *SALT

Abstract

Salt pollution is a threat to freshwater ecosystems. Anthropogenic salt inputs increase lake and stream salinity, and consequently change aquatic ecosystem structure and function. Elevated salt concentrations impact species directly not only through osmoregulatory stress, but also through community‐level feedbacks that change the flow of energy and materials through food webs. Here, we discuss the implications of road salt pollution on freshwater rivers and lakes and how "one size fits all" ecotoxicity thresholds may not adequately protect aquatic organisms. This article is categorized under:Science of Water > Water QualityWater and Life > Nature of Freshwater EcosystemsWater and Life > Stresses and Pressures on Ecosystems [ABSTRACT FROM AUTHOR]

Published

2023

3. Interactive effects of increasing chloride concentration and warming on freshwater plankton communities.

Author

McClymont, Alexandra, Arnott, Shelley E., and Rusak, James A.

Subjects

*COMMUNITIES, *ZOOPLANKTON, *FRESHWATER phytoplankton, *CHLORIDES, *FRESHWATER zooplankton, *WATER temperature, *WATER currents, *ECOSYSTEMS

Abstract

Across the Northern hemisphere, chloride concentrations in lakes are increasing from decades of road salt use, threatening aquatic ecosystems. Zooplankton are sensitive to increasing chloride but few studies have considered how additional stressors, such as soft water or increasing lake temperatures interact with the negative effects of chloride. To determine the effects of increasing chloride and temperature on freshwater zooplankton and phytoplankton communities, we conducted a mesocosm experiment using 30 concentrations of chloride from ambient levels to 1500 mg L−1, ambient or warmed (+2.7°C) temperatures, and plankton from a softwater lake. We compared the results with current Canadian Water Quality Guidelines (CWQG) for chronic exposure to chloride. Although warming elicited little response, increasing chloride concentrations led to reduced zooplankton biomass and richness, even at concentrations below the CWQG, and an increase in cyanobacteria abundance, suggesting that policies regulating road salt application should be reevaluated to better protect aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

4. Widespread variation in salt tolerance within freshwater zooplankton species reduces the predictability of community‐level salt tolerance.

Author

Arnott, Shelley E., Fugère, Vincent, Symons, Celia C., Melles, Stephanie J., Beisner, Beatrix E., Cañedo‐Argüelles, Miguel, Hébert, Marie‐Pier, Brentrup, Jennifer A., Downing, Amy L., Gray, Derek K., Greco, Danielle, Hintz, William D., McClymont, Alexandra, Relyea, Rick A., Rusak, James A., Searle, Catherine L., Astorg, Louis, Baker, Henry K., Ersoy, Zeynep, and Espinosa, Carmen

Subjects

*FRESHWATER zooplankton, *COMMUNITIES, *AQUATIC biodiversity, *FRESHWATER biodiversity, *SPECIES, *WATER quality, *CHLORIDES

Abstract

The salinization of freshwaters is a global threat to aquatic biodiversity. We quantified variation in chloride (Cl−) tolerance of 19 freshwater zooplankton species in four countries to answer three questions: (1) How much variation in Cl− tolerance is present among populations? (2) What factors predict intraspecific variation in Cl− tolerance? (3) Must we account for intraspecific variation to accurately predict community Cl− tolerance? We conducted field mesocosm experiments at 16 sites and compiled acute LC50s from published laboratory studies. We found high variation in LC50s for Cl− tolerance in multiple species, which, in the experiment, was only explained by zooplankton community composition. Variation in species‐LC50 was high enough that at 45% of lakes, community response was not predictable based on species tolerances measured at other sites. This suggests that water quality guidelines should be based on multiple populations and communities to account for large intraspecific variation in Cl− tolerance. [ABSTRACT FROM AUTHOR]

Published

2023

5. Effects of chloride and nutrients on freshwater plankton communities.

Author

Greco, Danielle A., Arnott, Shelley E., Fournier, Isabelle B., and Schamp, Brandon S.

Subjects

*COMMUNITIES, *FRESHWATER zooplankton, *CHLORIDES, *WATER currents, *WATER quality, *PLANKTON, *MARINE zooplankton, *NUTRIENT cycles

Abstract

Increasing chloride concentrations threaten freshwater zooplankton. We questioned the protectiveness of the Canadian Water Quality Guideline for chloride because it is based on individual species studied under laboratory conditions and does not account for potential interactive factors, such as nutrient concentration. We exposed plankton communities to 30 chloride concentration increments for 6 weeks, crossed with either ambient or high nutrient treatments. Total zooplankton abundance, biomass, and richness declined with increasing chloride, with losses observed below the Canadian Water Quality Guideline. Nutrients did not affect the impact of chloride on zooplankton. Phytoplankton and protist responses varied by nutrient level. Under low nutrients, phytoplankton and protist abundance, biomass, and richness increased with chloride. Under high nutrients, phytoplankton and protist abundance and biomass were unaffected while richness decreased with chloride. These results indicate that current water quality guidelines do not sufficiently protect plankton and that nutrient context may alter phytoplankton and protist response. [ABSTRACT FROM AUTHOR]

Published

2023

6. Interactive effects of increased salinity and heatwaves on freshwater zooplankton communities in simultaneous and sequential treatments.

Author

Sun, Xinyu and Arnott, Shelley E.

Subjects

*FRESHWATER zooplankton, *HEAT waves (Meteorology), *SALINITY, *MARINE zooplankton, *ZOOPLANKTON, *HEAT treatment

Abstract

Elevated lake chloride concentration has been observed in many regions, due to human activities such as mining, agriculture, and urbanisation. Meanwhile, lakes are also experiencing increasing frequency and intensity of heatwaves. The combination of elevated salinity and heatwaves has not been thoroughly studied in freshwater communities, limiting our ability to predict outcomes of future disturbances.We conducted a mesocosm experiment to investigate the individual and interactive effects of increased salinity and heatwaves on a freshwater zooplankton community. The combined effects of the two stressors were examined in two scenarios: when they occurred simultaneously and when a heatwave was preceded by an 8‐week increase in salinity. We expected to see a synergistic effect when the two stressors were applied simultaneously, as organisms might experience energy deficiency due to physiological changes caused by salinity stress and be overwhelmed by the heat treatment. When the two stressors were applied sequentially, we expected them to act independently as the two stressors trigger different physiological responses and physiological homeostasis may have already recovered from previous salt exposure and not influence an organism's response to a subsequent stressor.Individually, increased salinity and heatwave conditions both impaired zooplankton communities with largest effects on copepod nauplii and cladocerans. Together, these stressors caused antagonistic effects on total zooplankton abundance and biomass in both the simultaneous and sequential scenarios, with the combined effects being similar to the salt‐only effects.Our experiment illustrates the potential for heatwaves to have hidden effects when they occur in lakes experiencing salinisation. The findings suggested that the two stressors negatively impacted some zooplankton taxonomic groups, and at the community level, they acted antagonistically such that the occurrence of a 3‐day heatwave did not cause any additional loss of abundance or biomass regardless of whether the community was exposed to the sequential or simultaneous scenario. Our findings also illustrated that even when the two stressors were decoupled in time, the community could still be influenced by a previous stressor. [ABSTRACT FROM AUTHOR]

Published

2022

7. Current water quality guidelines across North America and Europe do not protect lakes from salinization.

Author

Hintz, William D., Arnott, Shelley E., Symons, Celia C., Greco, Danielle A., McClymont, Alexandra, Brentrup, Jennifer A., Cañedo-Argüelles, Miguel, Derry, Alison M., Downing, Amy L., Gray, Derek K., Melles, Stephanie J., Relyea, Rick A., Rusak, James A., Searle, Catherine L., Astorg, Louis, Baker, Henry K., Beisner, Beatrix E., Cottingham, Kathryn L., Ersoy, Zeynep, and Espinosa, Carmen

Subjects

*WATER quality, *WATER currents, *SALINIZATION, *WATER salinization, *NUTRIENT cycles

Abstract

Human-induced salinization caused by the use of road deicing salts, agricultural practices, mining operations, and climate change is a major threat to the biodiversity and functioning of freshwater ecosystems. Yet, it is unclear if freshwater ecosystems are protected from salinization by current water quality guidelines. Leveraging an experimental network of land-based and in-lake mesocosms across North America and Europe, we tested how salinization— indicated as elevated chloride (Cl2) concentration—will affect lake food webs and if two of the lowest Cl2 thresholds found globally are sufficient to protect these food webs. Our results indicated that salinization will cause substantial zooplankton mortality at the lowest Cl2 thresholds established in Canada (120 mg Cl2/L) and the United States (230 mg Cl2/L) and throughout Europe where Cl2 thresholds are generally higher. For instance, at 73% of our study sites, Cl2 concentrations that caused a ≥50% reduction in cladoceran abundance were at or below Cl2 thresholds in Canada, in the United States, and throughout Europe. Similar trends occurred for copepod and rotifer zooplankton. The loss of zooplankton triggered a cascading effect causing an increase in phytoplankton biomass at 47% of study sites. Such changes in lake food webs could alter nutrient cycling and water clarity and trigger declines in fish production. Current Cl2 thresholds across North America and Europe clearly do not adequately protect lake food webs. Water quality guidelines should be developed where they do not exist, and there is an urgent need to reassess existing guidelines to protect lake ecosystems from human-induced salinization. [ABSTRACT FROM AUTHOR]

Published

2022

8. Consistent and transient drivers of freshwater zooplankton communities.

Author

Sinclair, James S., Arnott, Shelley E., Nelson, William A., and Brougham, Kaitlyn B.

Subjects

*FRESHWATER zooplankton, *GEOMORPHOLOGY, *COMMUNITIES, *LONGITUDE, *LAKES

Abstract

Aim: Inferences of the predominant processes that structure communities are commonly based on single 'snapshots' in time, which may miss temporally transient but important mechanisms. In this study, we compared key environmental and spatial drivers of zooplankton composition across multiple years to quantify shifts in their relative importance through time, and to identify any drivers of temporal change. Location: Southern Ontario, Canada. Taxon: Zooplankton. Methods: Zooplankton were collected from 29 lakes in southern Ontario, Canada over four years (2013–2016). Variation partitioning was used to quantify the relative importance of independent and covarying components of local environmental conditions, regional east‐west and north‐south compositional trends, and inter‐lake geographic distance in each year. Measured environmental metrics included aspects of lake morphology and chemistry, and spatial relationships were quantified using lake latitude/longitude coordinates and Moran's Eigenvector Maps (MEMs). Redundancy analyses (RDAs) were also used to compare the influence of individual environmental and spatial variables across years. Results: Most local‐scale and regional‐scale community processes were consistently important across all surveyed years, but some were less consistent. Specifically, geomorphology was always an important driver of local environmental and regional spatial community patterns. This occurred because local community composition was strongly affected by whether a lake was shallower versus deeper, and due to spatial clusters of shallow and deep lakes that produced negative spatial autocorrelation in community composition. Conversely, the individual influences of lake chemistry and spatial east‐west compositional trends were important in some years and not in others, potentially due to inter‐annual shifts in the predominant environmental variables and extreme weather events. Main conclusions: A single‐year community snapshot can provide insight into consistent or slowly changing community structuring processes, such as those driven by geomorphology, but may not completely capture temporally transient mechanisms. Furthermore, snapshots collected during anomalous seasons or years may misrepresent which mechanisms are predominantly determining community composition. Future efforts to understand local and regional community drivers would therefore benefit from considering which processes are likely temporally 'consistent' versus 'transient', and studies with more variable components would benefit from considering or controlling for temporal shifts in their importance. [ABSTRACT FROM AUTHOR]

Published

2021

9. Benefits of increased colonist quantity and genetic diversity for colonization depend on colonist identity.

Author

Sinclair, James S., Arnott, Shelley E., Millette, Katie L., and Cristescu, Melania E.

Subjects

*DAPHNIA pulex, *COLONIZATION, *COLONISTS, *POPULATION genetics, *GENOTYPES

Abstract

Larger numbers of colonists can be more likely to establish and spread due to the benefits provided by either more individuals (quantity) or a greater diversity of genotypes or phenotypes (genetic diversity). However, the value of higher colonist quantity or genetic diversity varies widely across studies, leaving a great deal of uncertainty in how these respective mechanisms affect colonization success. This variability is potentially driven by differences in which traits are present in respective colonist pools ('colonist identity'). Studies with high‐performing colonizers (e.g. genotypes pre‐adapted to the colonizing environment) may find increasing quantity or diversity to be beneficial because it increases the chance high‐performers are sampled, while studies with no high‐performers may find no effects of quantity or diversity. Alternatively, quantity and genetic diversity may play little to no role if the smallest populations already contain high‐performing colonists because there is no scope for a sampling effect to operate. We conducted a field mesocosm experiment to determine if variability in the benefits provided by increased quantity or genetic diversity relates to colonist traits. Nine distinct genotypes of Daphnia pulex characterized also by phenotype, were introduced in 'single' (one individual) or 'many' (nine individuals) introduction quantities and at 'low' (monoclonal) and 'high' (mixed genotypes) genetic diversities. We found that larger‐bodied D. pulex genotypes benefited less from increased colonist quantity, while increasing genetic diversity tended to have a lower effect on higher growth rate genotypes. Our results show that the trait values of the colonists can determine the benefits gained when colonist quantity or genetic diversity are increased, with potential applications to future research and practical efforts to promote, or prevent, population establishment. [ABSTRACT FROM AUTHOR]

Published

2019

10. Anti-predator behaviour of native prey (Daphnia) to an invasive predator (Bythotrephes longimanus) is influenced by predator density and water clarity.

Author

Hasnain, Sarah S. and Arnott, Shelley E.

Subjects

*DAPHNIA, *PREDATORY animals, *WATER chemistry, *WATER, *DENSITY, *LAKE ecology

Abstract

Bythotrephes longimanus is an invasive zooplankton predator, negatively impacting zooplankton abundance and diversity in North American lakes. Previous studies have shown that Daphnia populations in lakes move to deeper waters during the day, in the presence of Bythotrephes, a visual predator occupying well-lit regions. However, Daphnia vertical position can be influenced by a variety of biotic and abiotic factors. We conducted a survey to determine (1) if Daphnia daytime vertical position differed between invaded and uninvaded lakes and (2) if Daphnia vertical position in invaded lakes was affected by water chemistry variables linked to water clarity, UV exposure, and phytoplankton production, and Bythotrephes density. Invaded lakes had a lower proportion of epilimnetic Daphnia as compared to uninvaded lakes. Daphnia vertical position was species-dependent, and with a lower proportion of epilimnetic Daphnia mendotae and greater proportion of epilimnetic D. longiremis observed in invaded lakes. D. mendotae were deeper in the water column in high Bythotrephes density lakes with low dissolved organic carbon levels. Our results show Daphnia vertical position response to Bythotrephes is species specific, dependent on Bythotrephes density and influenced by local abiotic conditions, with important implications for community structure and ecosystem function in invaded lakes. [ABSTRACT FROM AUTHOR]

Published

2019

11. Local context and connectivity determine the response of zooplankton communities to salt contamination.

Author

Sinclair, James S. and Arnott, Shelley E.

Subjects

*ZOOPLANKTON, *DEICING chemicals, *BIOTIC communities, *PHYSIOLOGICAL effects of salt, *DISPERSAL (Ecology)

Abstract

Abstract: Salt, primarily NaCl, is commonly used to de‐ice winter roads. The usage of road salt is steadily increasing as the area of urbanised land expands, and chloride concentrations in many lakes and flowing waters near roads have been steadily increasing through time. In some waterbodies, these concentrations are reaching levels that are toxic to freshwater organisms, such as zooplankton which are integral to the structure and function of freshwater communities. We currently have a poor understanding of the impact of road salt contamination on zooplankton communities, and particularly the variation in response among lakes. Zooplankton communities differ in factors that could influence the impacts of elevated chloride, such as local species composition, exposure history and regional connectivity. Assessing and predicting how increasing road salt usage affects natural, freshwater zooplankton communities requires studies that investigate how communities vary in the impacts of elevated chloride, and in their response to dispersal. We conducted a field mesocosm experiment that examined the effects of salt (NaCl) addition on two different zooplankton communities, which were also subjected to repeated introductions of zooplankton dispersers from the regional species pool. These treatments allowed us to determine whether communities differed in the impacts of salt, and how the effects of salt differed between communities that did and did not receive zooplankton dispersers. We found variation in the effects of salt and dispersal between our experimental communities. For one lake community, salt drove zooplankton species composition towards dominance by littoral cladocerans. Zooplankton dispersal into this community ameliorated these impacts of salt by returning species composition to a state more similar to our “Control” communities. Conversely, for the other lake community, salt alone had minimal effects on zooplankton, while the combination of salt and dispersal led to declines in adult copepods. Our experiment found that the impacts of salt varied between two zooplankton communities, causing a range of negative, positive and neutral community effects, and that dispersal from the regional species pool could serve as an ameliorating or exacerbating influence. Efforts to understand and predict the impacts of road salt on freshwater communities would therefore benefit from an evaluation of the potential role played by local (e.g., exposure history and biotic interactions) and regional (e.g., connectivity to possible sources of immigrants) context in the response of communities to elevated chloride. [ABSTRACT FROM AUTHOR]

Published

2018

12. Nonlinear effects of aqueous calcium concentration on antipredator response in Daphnia.

Author

Cox, Amelia R., Arnott, Shelley E., and Riessen, Howard P.

Subjects

*CALCIUM compounds, *PREDATION, *DAPHNIA, *ZOOPLANKTON, *PHENOTYPIC plasticity, *PHYSIOLOGY

Abstract

Calcium decline is an emerging environmental concern for thousands of soft-water lakes. Daphnia, an important freshwater herbivore, has reduced reproduction, a weaker, less-rigid carapace, and decreased survival under low aqueous calcium concentrations, but there has been little attention to study how calcium decline will influence predator-prey relationships. We conducted a mesocosm experiment to determine the joint effects of calcium concentration (0.3, 1.2, and 2.3 mg/l) and kairomones from Chaoborus americanus, a ubiquitous invertebrate predator, on Daphnia minnehaha populations. In the presence of Chaoborus kairomones, chemical signals of Chaoborus presence, Daphnia populations had delayed peak abundance and grew antipredator neck spine defenses. However, aqueous calcium concentration influenced the strength of the response. Daphnia in both 0.3 and 2.3 mg Ca/l had stronger neck spine responses and larger reproductive delays than Daphnia in 1.2 mg Ca/l. Our results suggest that as lake calcium concentrations continue to fall, Daphnia populations will respond in complex, nonlinear ways. [ABSTRACT FROM AUTHOR]

Published

2018

13. The impact of calcium decline on population growth rates of crustacean zooplankton in Canadian Shield lakes.

Author

Azan, Shakira S. E. and Arnott, Shelley E.

Subjects

*ZOOPLANKTON, *POPULATION, *DAPHNIA, *HIGH-calcium diet, *PHOSPHORUS, *PHYSIOLOGY

Abstract

Abstract: Within the last decade, calcium decline has emerged as a stressor for many soft water lakes. A legacy of long‐term acid deposition and logging, calcium decline has been implicated in the loss of large herbivores, such as Daphnia, and changes in community structure as taxa with presumed low calcium demand also increase. Although lake surveys, paleolimnological studies, and laboratory experiments have provided considerable evidence that declining Daphnia abundances are associated with low calcium concentration, causal relationships for zooplankton response to calcium decline have not been assessed using field experiments with natural zooplankton communities. We conducted a six‐week field experiment under low food conditions typical of Canadian Shield lakes, using four calcium concentrations (0.6 mg/L, 1.0 mg/L, 1.4 mg/L, and 2.4 mg/L) and zooplankton communities originating from eight lakes along a gradient from 1.78 mg Ca/L to 24.8 mg Ca/L, to examine the effect of calcium on growth rates and reproduction of individual and groups of taxa. Population growth rates for daphniids, Bosmina spp., and three cyclopoids declined as calcium concentration decreased. At low calcium, growth rates of Daphnia pulex, Daphnia catawba, and Mesocyclops edax were negative indicating declining populations. There was no effect of calcium on reproduction of the most common cladocerans. Although we detected some variation in growth rates amongst source lakes, zooplankton communities did not differ in their response to low calcium. As calcium concentrations continue to decline in soft water lakes, reduced zooplankton growth rates may result in shifts in zooplankton community structure and overall declines in total zooplankton production. [ABSTRACT FROM AUTHOR]

Published

2018

14. The quick and the dead: copepods dominate as cladocerans decline following invasion by Hemimysis anomala.

Author

Sinclair, James S., Arnott, Shelley E., Cox, Amelia, and Fisk, Aaron

Subjects

*COPEPODA, *SPECIES diversity, *ZOOPLANKTON, *ENVIRONMENTAL management, *TEMPERATURE measurements

Abstract

The North American invasion of a non-native mysid, Hemimysis anomala, has been expanding since 2006, with the first inland lake invasions detected for Oneida Lake in 2009 and Seneca Lake in 2010. Although we know that Hemimysis primarily consumes zooplankton, our ability to predict the community-level impact of an invasion is hampered by a lack of information on taxon-specific effects. To investigate the effects of Hemimysis on native zooplankton, we conducted two mesocosm experiments that compared composition between communities with and without Hemimysis and studied how the effects of this predator on zooplankton species composition varied across a natural gradient of low to high invader densities (0.01-0.1 individuals·L−1). Our first experiment found that Hemimysis primarily affected cladocerans, and particularly Daphnia, shifting communities towards dominance by copepods. Our second experiment showed that Hemimysis invasions may do little to suppress Daphnia abundances until between 0.067-0.11 individuals·L−1 or higher. Cladocerans are important links in freshwater trophic transfer and the nutrient cycle, and disruption of these linkages following Hemimysis invasion could result in both bottom-up and top-down impacts in nearshore food webs. However, Hemimysis can also fill a similar trophic role as the zooplankton they consume, and longer-term experiments are required to better assess their eventual impacts on native communities. [ABSTRACT FROM AUTHOR]

Published

2016

15. A review of the effects of Bythotrephes longimanus and calcium decline on zooplankton communities - can interactive effects be predicted?

Author

Azan, Shakira S.E., Arnott, Shelley E., and Yan, Norman D.

Subjects

*BYTHOTREPHES longimanus, *ZOOPLANKTON, *CALCIUM in the body, *ANTHROPOGENIC effects on nature, *ECOPHYSIOLOGY

Abstract

Anthropogenic stressors including acid deposition, invasive species, and calcium (Ca) decline have produced widespread damage to Canadian Shield lakes, especially to their zooplankton communities. Here, we review current knowledge on the individual effects on zooplankton by the non-indigenous predator Bythotrephes longimanus and Ca decline; we identify knowledge gaps in this literature and examine the likely interactive impacts of Bythotrephes invasions and Ca decline on zooplankton. The negative impacts of Bythotrephes longimanus on zooplankton communities are well known, whereas current understanding of the effects of declining Ca on zooplankton is restricted to Daphnia spp.; hence, there is a large knowledge gap on how declining Ca may affect zooplankton communities in general. The co-occurring impacts of Bythotrephes and declining Ca have rarely been studied at the species level, and we expect daphniids, particularly Daphnia retrocurva and Daphnia pulicaria, to be the most sensitive to both stressors. We also expect a synergistic negative interaction on cladocerans in lakes with both stressors, leaving a community dominated by Holopedium glacialis and (or) copepods. Our predictions form testable hypotheses but since species and ecosystem response to multiple stressors are difficult to predict, we may actually see ecological surprises in Canadian Shield lakes as Bythotrephes continues to spread and Ca levels continue to fall. [ABSTRACT FROM AUTHOR]

Published

2015

16. Dispersal strength influences zooplankton co-occurrence patterns in experimental mesocosms.

Author

Schamp, Brandon S., Arnott, Shelley E., and Joslin, Katelyn L.

Subjects

*ZOOPLANKTON, *ANIMAL dispersal, *COMPETITION (Biology), *PREDATION

Abstract

Negative co-occurrence patterns are intriguing because they may reflect the outcome of interspecific interactions and therefore signal how competition shapes communities. However, other factors also contribute to these patterns. For example, theoretical studies as well as two survey-based studies have all suggested that dispersal may also impact these patterns. While natural communities commonly have nonrandom patterns of negative co-occurrence, understanding how different processes drive these patterns requires further research. We tested the influence of dispersal on co-occurrence patterns using a zooplankton mesocosm experiment with four different dispersal treatments varying in the number of dispersers delivered into mesocosms on regular intervals. Our dispersal treatments were intended to adjust the relative importance of dispersal and competition experienced within mesocosms (i.e., high dispersal results in a relatively low influence of competition on species composition and vice versa). Higher dispersal translated into increased zooplankton species richness and inter-mesocosm compositional similarity, and also changed species occupancy patterns such that species occurrences were more even across mesocosms in higherdispersal treatments. Dispersal treatments also differed markedly in species co-occurrence patterns. Negative co-occurrence patterns were significant for all but the lowest-dispersal treatment, peaked in the intermediate-dispersal treatments, and declined in the highestdispersal treatment. Stability analyses illustrate that co-occurrence differences are robust to the exclusion of any single mesocosm in null model analyses. Dispersal treatments did not significantly differ with respect to abiotic variation, which has been recognized as a potential driver of negative co-occurrence patterns. These results suggest that not only can dispersal influence patterns of negative co-occurrence via changes to species richness and distribution (occupancy patterns among mesocosms), but the degree to which they do so varies nonlinearly with the strength of dispersal. Critically, because negative co-occurrence patterns were nonsignificant when the contribution of dispersal was lowest, it is possible that dispersal contributes strongly to many observed patterns of negative co-occurrence. Consequently, great care should be taken prior to interpreting significant co-occurrence tests as a product of species interactions. [ABSTRACT FROM AUTHOR]

Published

2015

17. Effects of an invasive consumer on zooplankton communities are unaltered by nutrient inputs.

Author

Sinclair, James S. and Arnott, Shelley E.

Subjects

*ZOOPLANKTON, *MARINE zooplankton, *FRESHWATER zooplankton, *MUSSEL culture, *PHYTOPLANKTON, *COPEPODA, *PREDATION

Abstract

1. Interactions between multiple anthropogenic stressors can have unexpected synergistic or antagonistic effects, making it difficult to predict their combined effects using single-stressor studies. The interaction between invasive consumers and nutrient enrichment is particularly important as both stressors frequently co-occur, and their respective bottom-up and top-down effects have the potential to interact across multiple trophic levels. 2. We conducted a mesocosm experiment that crossed an increasing nutrient addition gradient against an increasing zebra mussel invasion gradient. Native zooplankton communities were added to the mesocosms, and after 3 months, we examined how the single-stressor effects on available resources and the zooplankton community were altered by their multiple-stressor interaction. 3. Added nutrients had no effect on small phytoplankton, but increased the abundance and dominance of copepods and reduced the density of large phytoplankton, probably due to increased topdown predation pressure. Zebra mussels reduced large phytoplankton concentration by about 80%, rotifer abundance by about 75%, and shifted communities towards dominance by cladocerans and adult/juvenile copepods. 4. When combined, the top-down control exerted by the mussels interacted antagonistically to prevent any bottom-up influence of nutrient enrichment on the zooplankton community. These results provide insight into the potential outcomes of nutrient and invasive consumer stressor interactions, and illustrate the need for researchers to consider environmental change in a multiple-stressor context. [ABSTRACT FROM AUTHOR]

Published

2015

18. Influence of light on the foraging impact of an introduced predatory cladoceran, Bythotrephes longimanus.

Author

Jokela, Anneli, Arnott, Shelley E., and Beisner, Beatrix E.

Subjects

*PHYSIOLOGICAL effects of light, *BYTHOTREPHES longimanus, *FORAGING behavior, *PREDATORY animals, *INTRODUCED animals, *BIOTIC communities

Abstract

Identifying factors that influence the foraging ability of an introduced predator is essential for assessing its potential impact on the invaded community. We conducted a series of in situ enclosure experiments to determine the effect of light on the foraging ability and community-level effects of the invasive cladoceran Bythotrephes longimanus in lakes., In 1-L enclosures with only Daphnia prey, a strong effect of predation under ambient light conditions was observed. There was no evidence of predation in dark treatments, suggesting that Bythotrephes is unable to feed by mechanoreception alone., A subsequent experiment using larger enclosures exposed an assemblage of prey from an uninvaded lake to Bythotrephes predation across a similar light gradient. Consistent with regional lake surveys, Bythotrephes reduced cladoceran abundance under ambient light conditions., At the community level, predation effects were overall strongest under ambient light; however, the influence of light on predation varied across trials that differed in initial community structure of prey. Also, some predation under dark conditions was possible on Ceriodaphnia and Bosmina, suggesting that Daphnia, in particular, may be less vulnerable under low-light conditions., Our results suggest that light refuges for some prey taxa could play an important role in mediating the impact of Bythotrephes. [ABSTRACT FROM AUTHOR]

Published

2013

19. Regional zooplankton dispersal provides spatial insurance for ecosystem function.

Author

Symons, Celia C. and Arnott, Shelley E.

Subjects

*ZOOPLANKTON, *DISPERSAL (Ecology), *EUTROPHICATION, *BIODIVERSITY, *ECOLOGICAL integrity, *HABITATS

Abstract

Changing environmental conditions are affecting diversity and ecosystem function globally. Theory suggests that dispersal from a regional species pool may buffer against changes in local community diversity and ecosystem function after a disturbance through the establishment of functionally redundant tolerant species. The spatial insurance provided by dispersal may decrease through time after environmental change as the local community monopolizes resources and reduces community invasibility. To test for evidence of the spatial insurance hypothesis and to determine the role dispersal timing plays in this response we conducted a field experiment using crustacean zooplankton communities in a subarctic region that is expected to be highly impacted by climate change - Churchill, Canada. Three experiments were conducted where nutrients, salt, and dispersal were manipulated. The three experiments differed in time-since-disturbance that the dispersers were added. We found that coarse measures of diversity (i.e. species richness, evenness, and Shannon- Weiner diversity) were generally resistant to large magnitude disturbances, and that dispersal had the most impact on diversity when dispersers were added shortly after disturbance. Ecosystem functioning (chl- a) was degraded in disturbed communities, but dispersal recovered ecosystem function to undisturbed levels. This spatial insurance for ecosystem function was mediated through changes in community composition and the relative abundance of functional groups. Results suggest that regional diversity and habitat connectivity will be important in the future to maintain ecosystem function by introducing functionally redundant species to promote compensatory dynamics. [ABSTRACT FROM AUTHOR]

Published

2013

20. The role of dispersal levels, Allee effects and community resistance as zooplankton communities respond to environmental change.

Author

Gray, Derek K., Arnott, Shelley E., and Cadotte, M.

Subjects

*ZOOPLANKTON, *WATER acidification, *INTRODUCED aquatic species, *PHYSIOLOGICAL effects of hydrogen-ion concentration, *FACTORIAL experiment designs, *ANALYSIS of variance, *DISPERSAL (Ecology), *ALLEE effect

Abstract

Worldwide, freshwater zooplankton communities have been subjected to multiple environmental stressors including acidification, invasive species introductions, habitat alteration and climate change. Understanding the factors that affect zooplankton community responses in the face of environmental change is an important goal if ecologists expect to make predictions regarding the impact of current and future stressors. The acidification and recovery of lakes provides a well-studied example of the impacts of environmental change., For this study, we conducted a field enclosure experiment using zooplankton communities that are recovering from the effects of acidification to determine whether dispersal levels, Allee effects and biotic interactions could influence comˋmunity responses as pH levels increase. The experiment involved the introduction of four acid-sensitive colonist species ( Daphnia retrocurva, Skistodiaptomus oregonensis, Epischura lacustris and Tropocyclops extensus) into enclosures stocked with recipient communities. The experiment was a factorial design with colonists introduced at three starting densities (low, medium and high) and enclosures being stocked with either diverse communities typical of neutral lakes or relatively depauperate communities dominated by the acid-tolerant copepod Leptodiaptomus minutus. Per capita growth rates ( r) for colonist species were measured by sampling communities in enclosures over a 10-week period. Factorial anovas were conducted to determine whether r differed according to starting densities, recipient community type or their interaction., Our results indicated that r for the copepods E. lacustris and S. oregonensis were greater when introduced at high initial densities, suggesting an Allee effect based on mate limitation. In addition, r for S. oregonensis was lower when introduced to acid communities, suggesting biotic interactions with the resident community were important for this species. Per capita growth rates for T. extensus and D. retrocurva did not differ among treatments., Synthesis and applications. These results suggest that community response to environmental change can be influenced by dispersal, Allee effects and community interactions. Studies evaluating the ongoing recovery of zooplankton communities from acidification, or their response to other stressors, should take these factors into account. If rapid community responses are desired, dispersal rates for sexual zooplankton species (copepods) may need to be artificially increased. [ABSTRACT FROM AUTHOR]

Published

2012

21. Watercraft decontamination practices to reduce the viability of aquatic invasive species implicated in overland transport.

Author

Mohit, Shrisha, Johnson, Timothy B., and Arnott, Shelley E.

Subjects

*INTRODUCED species, *HOT water, *BOATS & boating, *ZEBRA mussel, *WATER pressure, *BIOMATERIALS, *BALLAST water

Abstract

Recreational boating activities enable aquatic invasive species (AIS) dispersal among disconnected lakes, as invertebrates and plants caught on or contained within watercraft and equipment used in invaded waterbodies can survive overland transport. Besides simple preventive measures such as "clean, drain, dry", resource management agencies recommend decontaminating watercraft and equipment using high water pressure, rinsing with hot water, or air-drying to inhibit this mode of secondary spread. There is a lack of studies assessing the efficacy of these methods under realistic conditions and their feasibility for recreational boaters. Hence, we addressed this knowledge gap via experiments on six invertebrate and plant AIS present in Ontario. Washing at high pressures of 900–1200 psi removed the most biological material (90%) from surfaces. Brief (< 10 s) exposure to water at ≥ 60 °C caused nearly 100% mortality among all species tested, except banded mystery snails. Acclimation to temperatures from 15 to 30 °C before hot water exposure had little effect on the minimum temperature required for no survival. Air-drying durations producing complete mortality were ≥ 60 h for zebra mussels and spiny waterfleas, and ≥ 6 days among plants, whereas survival remained high among snails after a week of air-drying. Hot water exposure followed by air-drying was more effective than either method separately against all species tested. [ABSTRACT FROM AUTHOR]

Published

2023

22. The recovery of acid-damaged zooplankton communities in Canadian Lakes: the relative importance of abiotic, biotic and spatial variables.

Author

GRAY, DEREK K., ARNOTT, SHELLEY E., SHEAD, JUSTIN A., and DERRY, ALISON M.

Subjects

*ZOOPLANKTON, *HYDROGEN-ion concentration, *SULFUR dioxide, *MULTIVARIATE analysis, *NITROGEN oxides, *LAKES

Abstract

Summary 1. Acidification has damaged biota in thousands of lakes and streams throughout eastern North America. Fortunately, reduced emissions of sulphur dioxide and nitrogen oxides beginning in the 1960s have allowed pH levels in many affected systems to increase. Determining the extent of biological and pH recovery in these systems is necessary to assess the success of emissions reductions programmes. 2. Although there have been promising signs of biological recovery in many systems, recovery has occurred more slowly than expected for some taxa. Past studies with crustacean zooplankton indicate that a mixture of local abiotic variables, biotic variables and dispersal processes may influence the structure of recovering communities. However, most studies have been unable to determine the relative importance of these three groups of variables. 3. We assessed chemical and biological recovery of acid-damaged lakes in Killarney Park, Ontario. In addition, we assessed the relative importance of local abiotic variables, biotic variables and dispersal processes for structuring recovering communities. We collected zooplankton community data, abiotic and biotic data from 45 Killarney Park lakes. To assess the recovery of zooplankton communities, we compared zooplankton data collected in 2005 to a survey conducted for the same lakes in 1972-73 using several univariate measures of community structure, as well as multivariate methods based on relative species abundances. To determine the factors influencing the structure of recovering zooplankton communities, we used hierarchical partitioning for univariate measures and spatial modelling and variation partitioning techniques for multivariate analyses. 4. Our survey revealed significant pH increases for the majority of sampled lakes but univariate measures of community structure, such as species richness and diversity, indicated that only minor changes have occurred in many acid-damaged lakes. Hierarchical partitioning identified several variables that may influence our univariate measures of recovery, including pH, dissolved organic carbon (DOC) levels, fish presence/absence, lake surface area and lake elevation. 5. Multivariate methods revealed a shift in communities through time towards a structure more typical of neutral lakes, providing some evidence for recovery. Variation partitioning suggested that the structure of recovering copepod communities was influenced most by dispersal processes and abiotic variables, while biotic ( Chaoborus densities, fish presence/absence) and abiotic variables were more important for cladoceran zooplankton. 6. Our results indicate that the recovery of zooplankton communities in Killarney Park is not yet complete, despite decades of emission reductions. The importance of variables related to acidification, such as pH and DOC, indicates that further chemical recovery may be necessary. The differing importance of abiotic, biotic and dispersal processes for structuring copepod versus cladoceran zooplankton might indicate that different management approaches and expectations for recovery are needed for these groups. [ABSTRACT FROM AUTHOR]

Published

2012

23. Lake thermal structure influences macroinvertebrate predation on crustacean zooplankton.

Author

MacPhee, Shannon A., Arnott, Shelley E., and Keller, Wendel (Bill)

Subjects

*PREDATION, *FRESHWATER ecology, *AQUATIC invertebrate behavior, *AQUATIC habitats, *ZOOPLANKTON, *WATER temperature, *CRUSTACEA, *THERMAL pollution of rivers, lakes, etc.

Abstract

Changes in lake thermal structure, which are predicted with future climate warming, may alter predator–prey interactions if foraging rates or the spatial overlap of predators and prey depend on thermal conditions. Small Boreal Shield lakes are particularly responsive to weather-induced changes in thermal structure. They are often fishless, with macroinvertebrate predators regulating crustacean zooplankton communities. We performed a mesocosm experiment to examine how thermal structure (stratified and isothermal) influences the predation impact of surface-orienting Buenoa macrotibialis and vertically migrating Chaoborus punctipennis on crustacean zooplankton. We expected predation from surface-orienting predators to be greatest in stratified conditions when food resources are concentrated near the surface in proximity with predators. Surprisingly, surface predators had no effect on zooplankton abundance, and zooplankton avoided surface predators regardless of thermal habitat structure. In contrast, Chaoborus had a strong predation impact and reduced total zooplankton abundance, but only in isothermal conditions. We hypothesize that this predation effect was due to increased predator metabolism, foraging and ingestion rates when migrating through a thermally homogenous warm water column without access to cool bottom waters. These results demonstrate that changes in lake thermal structure may result in strong, unexpected consequences for predator–prey dynamics. [ABSTRACT FROM AUTHOR]

Published

2011

24. The effects of habitat connectivity and regional heterogeneity on artificial pond metacommunities.

Author

Pedruski, Michael T. and Arnott, Shelley E.

Subjects

*INVERTEBRATE communities, *ECOLOGICAL heterogeneity, *FRESHWATER invertebrates, *BIODIVERSITY, *ZOOPLANKTON, *WATER mites, *CHAOBORUS

Abstract

Habitat connectivity and regional heterogeneity represent two factors likely to affect biodiversity across different spatial scales. We performed a 3 × 2 factorial design experiment to investigate the effects of connectivity, heterogeneity, and their interaction on artificial pond communities of freshwater invertebrates at the local (α), among-community (β), and regional (γ) scales. Despite expectations that the effects of connectivity would depend on levels of regional heterogeneity, no significant interactions were found for any diversity index investigated at any spatial scale. While observed responses of biodiversity to connectivity and heterogeneity depended to some extent on the diversity index and spatial partitioning formula used, the general pattern shows that these factors largely act at the β scale, as opposed to the α or γ scales. We conclude that the major role of connectivity in aquatic invertebrate communities is to act as a homogenizing force with relatively little effect on diversity at the α or γ levels. Conversely, heterogeneity acts as a force maintaining differences between communities. [ABSTRACT FROM AUTHOR]

Published

2011

25. Complex interactions between regional dispersal of native taxa and an invasive species.

Author

STRECKER, ANGELA L. and ARNOTT, SHELLEY E.

Subjects

*ECOLOGICAL disturbances, *ZOOPLANKTON, *LAKES, *PREDATION, *ANIMAL ecology, *BIOTIC communities

Abstract

In the event of an environmental disturbance, dispersal of native taxa may provide species and genetic diversity to ecosystems, increasing the likelihood that there will be species and genotypes present that are less vulnerable to the disturbance. This may allow communities to maintain functioning during a disturbance and may be particularly important when the perturbation is novel to the system, such as the establishment of an invasive species. We examined how dispersal of native species may influence crustacean zooplankton communities in freshwater lakes invaded by the invertebrate predator, Bythotrephes longimanus. Using large enclosures, we experimentally tested the effect of dispersal on zooplankton community abundance, richness, and composition in (1) a community invaded by Bythotrephes, (2) the same community with the invader removed, and (3) a community that was never invaded. Dispersal increased zooplankton community abundance and richness; however, these effects were usually only significant in the invader-removed treatment. Dispersal tended to make the invader-removed communities more similar to never-invaded communities in abundance, richness, and composition. Dispersal had little effect on zooplankton abundance in the invaded community; however, richness significantly increased, and the community composition changed to resemble a never-invaded community by the end of the experiment. Our results have implications for understanding the role of dispersal during transitory states in communities. Dispersal of native taxa may be particularly important during the period between the arrival and broad-scale establishment of Bythotrephes, as dispersal through space or time (i.e., from resting eggs) may rapidly increase zooplankton abundance when the, invader is absent or in low abundances. Overall, our results suggest that communities with strong local predatory and competitive interactions may be closed to immigration from colonists, but that invasive species may alter the conditions under which species can establish. These results have implications for the interaction of native and invasive species across broad spatial scales, as regional dispersal of native taxa may forestall the local extirpation of native species. In particular, transient phases that result from variable persistence of invaders within habitats or across a region may permit native colonists to successfully establish, and thus increase local and regional resistance to future disturbance. [ABSTRACT FROM AUTHOR]

Published

2010

26. Ecological linkages between community and genetic diversity in zooplankton among boreal shield lakes.

Author

Derry, Alison M., Arnott, Shelley E., Shead, Justin A., Hebert, Paul D. N., and Boag, Peter T.

Subjects

*ZOOPLANKTON, *BIOTIC communities, *POPULATION biology, *ANIMAL diversity, *ANIMAL genetics, *SPECIES diversity, *MITOCHONDRIAL DNA

Abstract

Ecological linkages between species diversity in communities and genetic diversity in populations have potential to influence the assembly of communities in habitats recovering from human disturbance, but few studies have attempted to synthesize relationships between these levels of biological organization, especially for locally adapted species. No such studies have been done in freshwater ecosystems despite the plethora of environmental stressors plaguing aquatic communities around the world. We present the first study to test (I) whether diversity and dissimilarity among communities and populations of a locally adapted species are correlated and (2) whether communities and population haplotypes respond differently to environmental selection and spatial structure of habitats. We used a fragment of mitochondrial DNA (mtDNA) belonging to the gene cytochrome oxidase subunit I (COl) as a neutral tag to discriminate among different population haplotype variants. In boreal lakes with different histories of exposure to anthropogenic acidification, diversity and dissimilarity metrics for crustacean zooplankton communities and locally adapted populations of an abundant and broadly distributed calanoid copepod species, Leptodiaptomus minutus, did not correlate. This discord was likely because zooplankton communities responded more strongly to acidity and acidity-related environmental variables than spatial structure of lakes, whereas the distribution of L. minutus haplotypes' was more strongly governed by spatial structure of lakes than environmental selection. Although spatial structure was the dominant driver of haplotype structure among L. minutus lake populations, there were similarities in the types of environmental variables that influenced the distributions of species in communities and haplotypes in populations. How haplotype diversity among populations relates to community diversity depends on the relative influence of spatial structure of habitats and selection at each of these scales of biological organization. [ABSTRACT FROM AUTHOR]

Published

2009

27. Recovery of acid damaged zooplankton communities: measurement, extent, and limiting factors.

Author

Gray, Derek K. and Arnott, Shelley E.

Subjects

*ZOOPLANKTON, *ACIDIFICATION, *CHEMICAL reactions, *HYDROGEN-ion concentration

Abstract

Anthropogenic acidification has affected biota in thousands of lakes in eastern North America and Europe. To measure the degree and extent of biological recovery following pH recovery in acidified lakes, many studies have assessed changes occurring in acid-damaged zooplankton communities. In this review we synthesize studies of zooplankton recovery from regions severely affected by acidification. In doing so, we provide a critical overview of: (1) the design of studies used to detect recovery; (2) the status of communities in acidified regions; and (3) our current understanding of the factors that limit recovery. The design of most studies assessing zooplankton recovery fall into three categories based on their selection of data to be used for recovery benchmarks: (1) historical; (2) reference-lakes; and (3) temporal. Within these study designs, the most commonly used metrics include species richness, indicator species, and relative species abundances. Many studies have used species richness as the sole indicator of recovery; however, we argue that additional metrics should be considered in analyses to make conclusions more robust. Studies conducted in eastern North America and Northern Europe have demonstrated significant, though often incomplete, recovery of zooplankton communities in lakes that reach a pH > 6.0. Data collected in central Europe indicate little recovery in the heavily affected Bohemian Forest lakes, but complete recovery of species richness in the moderately acidified Tatra Mountain lakes. Factors limiting biological recovery, including slow chemical recovery, dispersal limitation, and community resistance, vary in importance among and within regions, suggesting that region- and lake-specific management approaches may be required. [ABSTRACT FROM AUTHOR]

Published

2009

28. Invasive Predator, Bythotrephes, has Varied Effects on Ecosystem Function in Freshwater Lakes.

Author

Strecker, Angela L. and Arnott, Shelley E.

Subjects

*ZOOPLANKTON, *BIOTIC communities, *LAKES, *CRUSTACEA, *PREDATORY animals, *BIOMASS, *PHYTOPLANKTON, *PREDATION, *HABITATS

Abstract

Bythotrephes longimanus is an invertebrate predator that has invaded the North American Great Lakes and a number of inland lakes, where it preys on crustacean zooplankton. We examined the effect of Bythotrephes on two measures of ecosystem function during a four-month observational study of freshwater lakes on the boreal shield. Bythotrephes-invaded lakes had significantly lower epilimnetic zooplankton abundance and production compared to reference lakes. On average, Bythotrephes consumed 34% of zooplankton production when it was present in lakes. There was some evidence of changes in the timing of zooplankton production, as well as shifts to cooler, less productive habitats, which may lessen the overall effect of the invader on the transfer of energy to higher trophic levels. We experimentally demonstrated a weak trophic cascade where invader predation reduced zooplankton biomass, and subsequently increased phytoplankton growth. However, the response was small in magnitude and not biologically relevant at the whole lake-scale. The most conspicuous effect of Bythotrephes that we measured was a diversion of energy away from native predators at higher trophic levels. [ABSTRACT FROM AUTHOR]

Published

2008

29. Zooplankton community response to experimental acidification in boreal shield lakes with different ecological histories.

Author

Derry, Alison M and Arnott, Shelley E

Subjects

*ZOOPLANKTON, *LAKE ecology, *FRESHWATER biodiversity, *ACID rain & the environment, *ACIDIFICATION, *WATER pollution, *POLLUTION, *FRESHWATER ecology, *ANTHROPOGENIC effects on nature, BOREAL Shield Ecozone

Abstract

Community responses to acidification and recovery of boreal lakes are poorly understood, particularly after several years of recovered lake-water pH (pH ≥ 6.0). We tested if zooplankton communities in two circumneutral lakes with different acidification histories were adapted to historical lake-water pH with a reciprocal transplant field enclosure experiment. A second objective was to assess the influence of local environments on zooplankton survival and abundance. Differences in acid tolerance could be detected in some zooplankton among the two lakes with different acidification histories — zooplankton from acid-recovering Carlyle Lake, recovered to pH ≥ 6.0 for 6 years were more speciose and maintained higher total abundance at pH 4.8 than the community from a buffered lake. The zooplankton community in this historically acidified lake was comprised of two dominant species with acid-adaptable tolerances, Holopedium gibberum and Leptodiaptomus minutus. High establishment of transplanted zooplankton in our experiment has important implications for the recovery of zooplankton communities because it suggests that local conditions are suitable for most species in acid-recovering lakes with pH ≥ 6.0 and that other factors such as dispersal limitation and biotic interactions may be impeding recovery. [ABSTRACT FROM AUTHOR]

Published

2007

30. Diversity–stability relationship varies with latitude in zooplankton.

Author

Shurin, Jonathan B., Arnott, Shelley E., Hillebrand, Helmut, Longmuir, Allyson, Pinel-Alloul, Bernadette, Winder, Monika, and Yan, Norman D.

Subjects

*RADIOACTIVE pollution of water, *ZOOPLANKTON, *BIOTIC communities, *ECOSYSTEM management, *POPULATION biology, *LAKES

Abstract

Analyses of temporal patterns of diversity across a wide range of taxa have found that more diverse communities often show smaller compositional changes over time. This generality indicates that high diversity is associated with greater temporal stability in species composition. We examined patterns of diversity and community stability in zooplankton time series data from 36 lakes sampled over a combined 483 years. The species–time relationship was flatter in more species-rich lakes in the temperate zone. However, high-latitude lakes had both low richness and low turnover. These patterns were consistent for turnover both within and among years. Daily, annual and long-term richness were all higher in large lakes while turnover was unaffected by the surface area. Richness on all time scales, as well as turnover within and among years, all declined at high latitude. Species–area relations and latitudinal gradients in richness therefore reflect different temporal components of diversity. Our results suggest that diversity shows strong associations with compositional stability that vary qualitatively across biogeographical provinces. Community stability increases with diversity among lakes in the temperate zone; however, the two are negatively correlated across latitudinal gradients. These patterns indicate that either the direct effects of diversity on stability or their covariance with environmental fluctuations vary with latitude. [ABSTRACT FROM AUTHOR]

Published

2007

31. Immigration and zooplankton community responses to nutrient enrichment: a mesocosm experiment.

Author

Forrest, Jessica and Arnott, Shelley E.

Subjects

*ZOOPLANKTON behavior, *DISPERSAL of microorganisms, *SPECIES pools, *COLONIZATION (Ecology), *EUTROPHICATION, *MICROBIAL invasiveness, *EXPERIMENTAL ecology

Abstract

Dispersal can be an important determinant of local diversity and species composition, but evidence for effects of the regional species pool on local zooplankton communities has been mixed. Theory and experiments suggest that immigration will be necessary for maintenance of community diversity and functioning during periods of environmental change; conversely, fluctuating resource levels may increase the likelihood of invasion success. We conducted a factorial-design mesocosm experiment to test the effects of a nutrient pulse and weekly immigration from other lakes on the diversity and composition of a pelagic zooplankton community. Contrary to expectations, there were no interactive effects of nutrient enrichment and immigration on any measure of diversity, and the initial shift in community composition in response to the nutrient pulse did not depend on the introduction of new species or genotypes from more productive lakes. Although immigration increased species richness in enclosures, success of most colonising species was poor. However, the dispersal treatment appears to have enabled a stronger predator response to increased herbivore numbers in nutrient-pulsed enclosures, leading to an eventual decline in the abundance of some herbivorous species in response to immigration. We conclude that community invasibility was not influenced by productivity, and that dispersal limitation did not strongly constrain the response of the zooplankton community to our applied disturbance. This indicates an unexpected resistance to change in species composition and diversity in spite of disturbance, and suggests that, in our study system, changes in the abundance of resident species are more important than introductions of new species in the community response to short-term environmental change. [ABSTRACT FROM AUTHOR]

Published

2006

32. Variation in the response of crustacean zooplankton species richness and composition to the invasive predator Bythotrephes longimanus.

Author

Strecker, Angela L., Arnott, Shelley E., Yan, Norman D., and Girard, Robert

Subjects

*BYTHOTREPHES longimanus, *BIOLOGICAL invasions, *ZOOPLANKTON, *SPECIES distribution, *PALEOCLIMATOLOGY, *SPECIES pools, *KAIROMONES, *ECOSYSTEM health

Abstract

The predacious invertebrate Bythotrephes longimanus has now invaded >90 freshwater lakes in North America. There is some evidence that B. longimanus has a negative effect on summer zooplankton species richness; however, no study has examined the effect of B. longimanus throughout the ice-free season in more than one lake. We visited 10 invaded and 4 reference lakes every 2 weeks from May to September, collecting B. longimanus, crustacean zooplankton, and water chemistry samples. Composite samples were pooled across the study season for each lake. Bythotrephes longimanus significantly reduced cladoceran species richness, diversity, and abundance, and the total zooplankton community also exhibited decreased richness, diversity, and abundance. Seasonal sampling was better than synoptic surveys at detecting changes in abundance, but richness estimates were similar. As B. longimanus continues to spread across lake landscapes, we expect it will have profound impacts on local and regional richness and species distribution patterns. [ABSTRACT FROM AUTHOR]

Published

2006

33. Impact of Bythotrephes invasion on zooplankton communities in acid-damaged and recovered lakes on the Boreal Shield.

Author

Strecker, Angela L. and Arnott, Shelley E.

Subjects

*BIOTIC communities, *ACID deposition, *LAKES, *ZOOPLANKTON, *PREDATORY aquatic animals, *BIOMASS, *PREDATION

Abstract

Invasive species introductions into freshwater ecosystems have had a multitude of effects on aquatic communities. Few studies, however, have directly compared the impact of an invader on communities with contrasting structure. Historically high levels and subsequent reductions of acid deposition have produced landscapes of lakes of varying acidity and zooplankton community structure. We conducted a 30-day enclosure experiment in Killarney Provincial Park, Ontario, Canada, to test the effects of Bythotrephes longimanus, an invasive invertebrate predator, on two contrasting zooplankton communities at different stages of recovery from acidification: recovered and acid damaged. Bythotrephes significantly decreased zooplankton biomass and abundance in both communities but had a greater negative effect on the abundance of zooplankton in the recovered community. Bythotrephes reduced species diversity of the recovered zooplankton community but not of the acid-damaged community. Species richness of both community types was unaffected by Bythotrephes predation. The effect of Bythotrephes on small cladocerans, a preferred prey type, differed between the community types and appeared to be related to density-dependent predation by Bythotrephes. Both community- and species-level results suggest that recovered and acid-damaged zooplankton assemblages may be negatively affected by an invasion of Bythotrephes but that the specific response is dependent on the original community structure. [ABSTRACT FROM AUTHOR]

Published

2005

34. THE RELATIONSHIP IN LAKE COMMUNITIES BETWEEN PRIMARY PRODUCTIVITY AND SPECIES RICHNESS.

Author

Dodson, Stanley I. and Arnott, Shelley E.

Subjects

*BIODIVERSITY, *LAKE ecology, *PHYTOPLANKTON

Abstract

Investigates the relationship between the primary productivity of lake ecosystems and the number of species for lacustrine phytoplankton, rotifers, cladocerans, copepads, macrophytes and fish. Factors that influence aquatic species richness; Relationship between phytoplankton and species richness pelagic primary productivity; Factors that decrease species richness.

Published

2000

35. Zooplankton assemblages in fishless bog lakes: Influence of biotic and abiotic factors.

Author

Arnott, Shelley E.

Subjects

*ZOOPLANKTON

Abstract

Determines the importance of biotic and abiotic factors in preventing the successful invasion of small zooplankton species into fishless lakes in northern Wisconsin and Michigan. Use of a series of field manipulations; Relative importance of competition with large herbivores; Predation by large invertebrates; Abiotic conditions including pH; Zooplankton community structures.

Published

1993

36. Dietary lipid quality mediates salt tolerance of a freshwater keystone herbivore.

Author

Isanta-Navarro, Jana, Arnott, Shelley E., Klauschies, Toni, and Martin-Creuzburg, Dominik

Abstract

Salinization of freshwater ecosystems is a growing hazard for organisms and ecosystem functioning worldwide. In northern latitudes, road salt that is being transported into water bodies can cause year-round increases in lake salinity levels. Exploring the environmental factors driving the susceptibility of freshwater zooplankton to road salt is crucial for assessing the impact of salinization on food web processes. We studied the role of essential lipids, i.e., sterols and long-chain polyunsaturated fatty acids (PUFAs), in mediating salt tolerance of the freshwater keystone herbivore Daphnia. Sterols and PUFAs are involved in regulating ion permeability of biological membranes and thus we hypothesized that the susceptibility to salt is affected by the dietary sterol and PUFA supply. Life history experiments revealed opposing effects of sterol and PUFA supplementation on salt tolerance, i.e., tolerance increased upon sterol supplementation but decreased upon PUFA supplementation, which is consistent with their proposed impact on membrane permeability. Our results suggest that the susceptibility of freshwater zooplankton to salinization strongly depends on the dietary lipid supply and thus the phytoplankton community composition. Hence, trophic state related differences in the phytoplankton community composition need to be considered when assessing the consequences of salinization for freshwater ecosystem functioning. Unlabelled Image • Food quality is crucial for assessing salt tolerance of freshwater animals. • Salt tolerance increased upon sterol supplementation but decreased upon PUFA supplementation. • Chloride thresholds in current water quality guidelines (USA, Canada and Europe) are set too high. [ABSTRACT FROM AUTHOR]

Published

2021

37. A comparative evaluation of five common pairwise tests of species association.

Author

Lavender, Thomas Michael, Arnott, Shelley E., Rusak, James A., and Schamp, Brandon S.

Subjects

*SPECIES, *NULL models (Ecology), *SPATIAL distribution (Quantum optics), *MATRICES (Mathematics), *STATISTICAL association

Abstract

Researchers have long viewed patterns of species association as key to understanding the processes that structure communities. Community‐level tests of species association have received the most attention; however, pairwise species associations may offer greater opportunity for linking patterns to specific mechanisms. Although several tests of pairwise association have been developed, there remain gaps in our understanding of their performance. Consequently, it is unclear whether these methods reliably detect patterns of association, or if any one method is superior. We maximized association patterns for single species pairs in synthetic community matrices and examined how accurately five pairwise association tests found that pair, while not finding others (i.e., type I and II error rates). All tests are more likely to miss patterns of association than to falsely detect them. When we maximized association for a species pair that included one or more rare or common species, tests were frequently unable to identify that pair as significantly associated. Consequently, these tests are best suited for identifying significant associations between pairs of species that occur in an intermediate number of samples; for such pairs, three of the five tests considered here detected 100% of the pairs for which we maximized associations. [ABSTRACT FROM AUTHOR]

Published

2019

38. Recreational watercraft decontamination: can current recommendations reduce aquatic invasive species spread?

Author

Mohit, Shrisha, Johnson, Timothy B., and Arnott, Shelley E.

Subjects

*INTRODUCED species, *BOATS & boating, *WATER immersion, *HOT water, *CLEANING compounds, *POTAMOGETON

Abstract

Decontaminating recreational watercraft, and fishing, sailing or watersports equipment after use can reduce the overland dispersal of aquatic invasive species (AIS) among lakes. Recommended methods include pressure-washing, rinsing with hot water, using cleaning agents, or air-drying, but the extent of their efficacy is unknown. The aim of this review is to assess the effectiveness of current decontamination measures for recreational watercraft against various AIS. Web of Science, Greenfile, Environment Complete and Geobase were searched for articles published through September 2019. Studies on preventing overland AIS spread, and plant and invertebrate AIS response to hot water, pressure-washing, desiccation or cleaning agents, were selected. Of 37 studies included in the review, the majority (70.3%) assessed air-drying, followed by hot water (32.4%), household chemicals (16.2%), and pressure-washing (2.7%). The recommended air-drying duration of up to one week produced high mortality (= 90%) among several invertebrate and macrophyte species, although survival was high for certain aquatic snails. Larger and/or older invertebrates were more resistant to desiccation. Aquatic plant survival and growth were inversely related to water loss (a function of drying time and relative humidity), and short or single fragments were less resistant to air-drying than larger or clustered fragments. Immersion in water = 50 °C for 15 minutes resulted in 100% mortality among mussels, small invertebrates and some plant species. A higher temperature of 60 °C was required for hot water spray applications lasting = 5 seconds to achieve the same mortality rate among dreissenid mussels. High pressure-washing eliminated significantly more entangled plants, and small organisms and seeds than low pressure. Household chemicals such as salt or bleach required specific doses and immersion durations to be lethal to small organisms. This review reveals that current decontamination methods may be effective, but their efficacy against a diversity of AIS, including those on watch lists, are not yet well-understood. As the literature is currently skewed towards studies on air-drying, which has limited efficacy, further research is required to evaluate practical, and alternate or combined measures to best inform management practices. [ABSTRACT FROM AUTHOR]

Published

2021

39. Dry conditions disrupt terrestrial-aquatic linkages in northern catchments.

Author

Szkokan‐Emilson, Erik J., Kielstra, Brian W., Arnott, Shelley E., Watmough, Shaun A., Gunn, John M., and Tanentzap, Andrew J.

Subjects

*AQUATIC ecology, *CARBON compounds, *DROUGHTS, *HYALELLA azteca, *HISTOSOLS

Abstract

Aquatic ecosystems depend on terrestrial organic matter ( tOM) to regulate many functions, such as food web production and water quality, but an increasing frequency and intensity of drought across northern ecosystems is threatening to disrupt this important connection. Dry conditions reduce tOM export and can also oxidize wetland soils and release stored contaminants into stream flow after rainfall. Here, we test whether these disruptions to terrestrial-aquatic linkages occur during mild summer drought and whether this affects biota across 43 littoral zone sites in 11 lakes. We use copper (Cu) and nickel (Ni) as representative contaminants, and measure abundances of Hyalella azteca, a widespread indicator of ecosystem condition and food web production. We found that tOM concentrations were reduced but correlations with organic soils (wetlands and riparian forests) persisted during mild drought and were sufficient to suppress labile Cu concentrations. Wetlands, however, also became a source of labile Ni to littoral zones, which was linked to reduced abundances of the amphipod H. azteca, on average by up to 70 times across the range of observed Ni concentrations. This reveals a duality in the functional linkage of organic soils to aquatic ecosystems whereby they can help buffer the effects of hydrologic disconnection between catchments and lakes but at the cost of biogeochemical changes that release stored contaminants. As evidence of the toxicity of trace contaminant concentrations and their global dispersion grows, sustaining links among forests, organic soils and aquatic ecosystems in a changing climate will become increasingly important. [ABSTRACT FROM AUTHOR]

Published

2017

40. Lake salinization drives consistent losses of zooplankton abundance and diversity across coordinated mesocosm experiments.

Author

Hébert, Marie‐Pier, Symons, Celia C., Cañedo‐Argüelles, Miguel, Arnott, Shelley E., Derry, Alison M., Fugère, Vincent, Hintz, William D., Melles, Stephanie J., Astorg, Louis, Baker, Henry K., Brentrup, Jennifer A., Downing, Amy L., Ersoy, Zeynep, Espinosa, Carmen, Franceschini, Jaclyn M., Giorgio, Angelina T., Göbeler, Norman, Gray, Derek K., Greco, Danielle, and Hassal, Emily

Subjects

*SALINIZATION, *WATER salinization, *BRACHIONUS, *CALANOIDA, *ZOOPLANKTON, *LAKES, *SALT lakes, *CRUSTACEA

Abstract

Human‐induced salinization increasingly threatens inland waters; yet we know little about the multifaceted response of lake communities to salt contamination. By conducting a coordinated mesocosm experiment of lake salinization across 16 sites in North America and Europe, we quantified the response of zooplankton abundance and (taxonomic and functional) community structure to a broad gradient of environmentally relevant chloride concentrations, ranging from 4 to ca. 1400 mg Cl− L−1. We found that crustaceans were distinctly more sensitive to elevated chloride than rotifers; yet, rotifers did not show compensatory abundance increases in response to crustacean declines. For crustaceans, our among‐site comparisons indicate: (1) highly consistent decreases in abundance and taxon richness with salinity; (2) widespread chloride sensitivity across major taxonomic groups (Cladocera, Cyclopoida, and Calanoida); and (3) weaker loss of functional than taxonomic diversity. Overall, our study demonstrates that aggregate properties of zooplankton communities can be adversely affected at chloride concentrations relevant to anthropogenic salinization in lakes. [ABSTRACT FROM AUTHOR]

Published

2023

41. Dispersal acts as both bane and balm for invaded zooplankton communities.

Author

SINCLAIR, JAMES S., FURLANETTO, KATRINA J., and ARNOTT, SHELLEY E.

Subjects

*ZOOPLANKTON, *DISPERSAL (Ecology), *ROTIFERA, *COPEPODA, *ZEBRA mussel

Abstract

Dispersal of native species from the regional pool can recover invaded communities to a pre-invaded state by supplementing declining populations or providing resistant species. However, dispersal may also exacerbate the negative effects of an invader. Introduced species can open or create new niche space, which could facilitate the establishment of competitors or predators that previously could not succeed in the uninvaded local community. To investigate the interaction between dispersal and invasion by a non-native consumer, we conducted a field mesocosm experiment that introduced zebra mussels into native zooplankton communities. Regional zooplankton were collected and added to both invaded and uninvaded communities. In uninvaded communities, zooplankton dispersal reduced cladoceran diversity by ~40%, rotifer abundance by ~65% and copepod nauplii abundance by ~80%. In invaded communities, dispersal increased cladoceran diversity by ~60%, but also further exacerbated the negative effects of zebra mussels on rotifer abundance. This experiment illustrates the potential for dispersal to both positively and negatively affect local communities, and how these effects may change with disturbance and the taxa or community metric of study. [ABSTRACT FROM AUTHOR]

Published

2015

42. Freshwater salinisation: a research agenda for a saltier world.

Author

Cunillera-Montcusí, David, Beklioğlu, Meryem, Cañedo-Argüelles, Miguel, Jeppesen, Erik, Ptacnik, Robert, Amorim, Cihelio A., Arnott, Shelley E., Berger, Stella A., Brucet, Sandra, Dugan, Hilary A., Gerhard, Miriam, Horváth, Zsófia, Langenheder, Silke, Nejstgaard, Jens C., Reinikainen, Marko, Striebel, Maren, Urrutia-Cordero, Pablo, Vad, Csaba F., Zadereev, Egor, and Matias, Miguel

Subjects

*FRESHWATER biodiversity, *FRESH water, *FRESHWATER habitats, *ECOSYSTEM services, *FRESHWATER organisms, *HUMAN services, *CLIMATE change

Abstract

The widespread salinisation of freshwater ecosystems poses a major threat to the biodiversity, functioning, and services that they provide. Human activities promote freshwater salinisation through multiple drivers (e.g., agriculture, resource extraction, urbanisation) that are amplified by climate change. Due to its complexity, we are still far from fully understanding the ecological and evolutionary consequences of freshwater salinisation. Here, we assess current research gaps and present a research agenda to guide future studies. We identified different gaps in taxonomic groups, levels of biological organisation, and geographic regions. We suggest focusing on global- and landscape-scale processes, functional approaches, genetic and molecular levels, and eco-evolutionary dynamics as key future avenues to predict the consequences of freshwater salinisation for ecosystems and human societies. The global acceleration of freshwater salinisation due to human activities such as agriculture, resource extraction, and urbanisation and its amplification by climate change is unequivocal. Although research in this field is growing, there are key aspects at the ecological and evolutionary levels that remain unaddressed. Increasing salinisation is a problem as it can increase the stress or mortality of freshwater organisms, leading to a loss of diversity and/or functionality of freshwater ecosystems but also the services and benefits to human societies that they provide. We identify the main gaps of recent research and suggest a research agenda to facilitate future research efforts in order to achieve a more comprehensive understanding on freshwater salinisation. [ABSTRACT FROM AUTHOR]

Published

2022

43. Dispersal limitation and climate-related environmental gradients structure microcrustacean composition in freshwater lakes, Ellesmere Island, Canada.

Author

Strecker, Angela L., Milne, Rebecca, and Arnott, Shelley E.

Subjects

*RADIOACTIVE substances in rivers, lakes, etc., *RADIOACTIVE pollution of water, *COMMUNITIES, *RADIATION, *GUMS & resins, *COLD (Temperature), *AIR pollution, *GASES, *OZONE

Abstract

Dramatic environmental change is expected in the Arctic, yet little is known about the occurrence and community composition of microcrustaceans in Arctic lakes and how this will be influenced by future environmental change. We sampled and calculated relative abundances of microcrustacean species in 54 lakes on Ellesmere Island, Canada. New species records on Ellesmere Island included Daphnia umbra, Tachidius discipes, and Artemeopsis stefanssoni. Daphnia middendorffiana/tenebrosa was the most common taxon and often dominated microcrustacean assemblages, likely a result of its pigmentation, which offers resistance to ultraviolet radiation. Species richness was positively associated with nutrients, dissolved organic carbon (DOC), temperature, calcium, and conductivity and negatively affected by elevation. In contrast to most findings in temperate systems, we detected a negative relationship between species richness and surface area. Community composition was influenced by DOC, nutrients, and elevation but was also related to spatial variables, suggesting that spatial gradients in environmental conditions and dispersal are important drivers of differences among sites. Arctic ecosystems are expected to change rapidly in the coming years because of climate change and ozone thinning, and we expect that associated changes in DOC, temperature, and nutrients will affect microcrustacean species richness and distribution throughout the landscape. [ABSTRACT FROM AUTHOR]

Published

2008

44. Ca2+ levels in Daphnia hemolymph may explain occurrences of daphniid species along recent Ca gradients in Canadian soft-water lakes.

Author

Durant, Andrea C., Celis-Salgado, Martha P., Ezatollahpour, Shayan, Yan, Norman D., Arnott, Shelley E., and Donini, Andrew

Subjects

*DAPHNIA, *CALCIUM ions, *DAPHNIIDAE, *LAKES, *HEMOLYMPH, *PHYSIOLOGY

Abstract

Calcium levels are declining in eastern North American and western European lakes. This widespread issue is affecting the composition of crustacean zooplankton communities, as the presence and abundance of several calcium-rich daphniid species are declining, while two other daphniids, D. catawba and D. ambigua , that apparently tolerate low calcium environments, are prospering. The physiological basis for low calcium tolerance of these daphniids is unknown. In this study the presence of one Ca-rich ( D. pulicaria ) and one Ca-poor ( D. ambigua ) daphniid species in Canadian Shield lakes is assessed in relation to lake water Ca levels. The occurrence of D. ambigua was independent of Ca levels in Ontario lakes, whereas D. pulicaria was more likely to occur in lakes with relatively more Ca. In the laboratory, D. ambigua maintained lower levels of hemolymph Ca 2+ across a range of low Ca levels (0.7 to 7 mg l −1 ) compared with D. pulicaria . The hemolymph pH remained steady across this Ca gradient in D. ambigua while it was significantly more acidic in D. pulicaria in the two lowest Ca treatments. While Ca 2+ uptake was observed adjacent to the surface of D. ambigua individuals, Ca 2+ loss was observed for D. pulicaria assayed under moderately high Ca levels. Based on these observations we propose that D. ambigua is able to survive in low Ca lakes by maintaining low free ionic Ca 2+ levels in the hemolymph which minimizes the Ca gradient across the body wall in low Ca water thus limiting overall Ca loss and facilitating Ca 2+ uptake. [ABSTRACT FROM AUTHOR]

Published

2018

45. Some Sources and Sinks of Monomethyl and Inorganic Mercury on Ellesmere Island in the Canadian High Arctic.

Author

St. Louis, Vincent L., Sharp, Martin J., Steffen, Alexandra, May, Al, Barker, Joel, Kirk, Jane L., Kelly, David J. A., Arnott, Shelley E., Keatley, Bronwyn, and Smol, John P.

Subjects

*MERCURY, *ATMOSPHERE, *METEOROLOGICAL precipitation, *SOLUTION mining, *SOIL leaching, *MAMMALS

Abstract

We identified some of the sources and sinks of monomethyl mercury (MMHg) and inorganic mercury (Hg(ll)) on Ellesmere Island in the Canadian High Arctic. Atmospheric Hg depletion events resulted in the deposition of Hg(II) into the upper layers of snowpacks, where concentrations of total Hg (all forms of Hg) reached over 20 ng/L. However, our data suggest that much of this deposited Hg(lI) was rapidly photoreduced to Hg(0) which then evaded back to the atmosphere. As a result, we estimate that net wet and dry deposition of Hg(lt) during winter was lower at our sites (0.4-5.9 mg/ha) than wet deposition in more southerly locations in Canada and the United States. We also found quite high concentrations of monomethyl Hg (MMHg) in snowpacks (up to 0.28 ng/L), and at times, most of the Hg in snowpacks was present as MMHg. On the Prince of Wales Icefield near the North Water Polynya, we observed a significant correlation between concentrations of CI and MMHg in snow deposited in the spring, suggesting a marine source of MMHg. We hypothesize that dimethyl Hg fluxes from the ocean to the atmosphere through polynyas and open leads in ice, and is rapidly photolyzed to MMHg- Cl. We also found that concentrations of MMHg in initial snowmelt on John Evans Glacier (up to 0.24 ng/L) were higher than concentrations of MMHg in the snowpack (up to 0.11 ng/L), likely due to either sublimation of snow or preferential leaching of MMHg from snow during the initial melt phase. This springtime pulse of MMHg to the High Arctic, in conjunction with climate warming and the thinning and melting of sea ice, may be partially responsible for the increase in concentrations of Hg observed in certain Arctic marine mamma's in recent decades. Concentrations of MMHg in warm and shallow freshwater ponds on Eilesmere Island were also quite high (up to 3.0 μg/I), leading us to conclude that there are very active regions of microbial Hg(ll) methylation in freshwater systems during the short summer season in the High Arctic. [ABSTRACT FROM AUTHOR]

Published

2005

46. Developing Conceptual Frameworks for the Recovery of Aquatic Biota from Acidification.

Author

Yan, Norman D., Leung, Brian, Keller, Wendel, Arnott, Shelley E., Gunn, John M., and Raddum, Gunnar G.

Subjects

*BIOTIC communities, *ECOSYSTEM management, *DECISION making, *WATER pollution, *WATER quality management

Abstract

Examines conceptual frameworks in order to understand the sequence of ecological steps needed for the recovery of biotic communities and on where and how to intervene in this process should recovery stall. Description of decision tree, highlighting the sequence of processes necessary for ecological recovery; Analysis of process bottlenecks such as inadequate water quality; Details of the framework for the integration of ecological processes in a larger management context.

Published

2003