Your search keyword '"Aleicia, Holland"' showing total 45 results

1. Bacterioplankton Communities in Dissolved Organic Carbon-Rich Amazonian Black Water

Author

François-Étienne Sylvain, Sidki Bouslama, Aleicia Holland, Nicolas Leroux, Pierre-Luc Mercier, Adalberto Luis Val, and Nicolas Derome

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, Genetics, Cell Biology

Abstract

The Amazon basin discharge carries an important load of terrestrially derived dissolved organic matter (DOM) to the ocean. The bacterioplankton from this basin potentially plays important roles in transforming this allochthonous carbon, which has consequences on marine primary productivity and global carbon sequestration.

Published

2023

2. The influence of hardness at varying pH on zinc toxicity and lability to a freshwater microalga, Chlorella sp

Author

Gwilym. A. V. Price, Jenny L. Stauber, Aleicia Holland, Darren J. Koppel, Eric J. Van Genderen, Adam C. Ryan, and Dianne F. Jolley

Subjects

39999 Chemical Sciences not elsewhere classified, FOS: Chemical sciences, Public Health, Environmental and Occupational Health, 03 Chemical Sciences, 05 Environmental Sciences, 11 Medical and Health Sciences, Environmental Chemistry, General Medicine, Management, Monitoring, Policy and Law, Environmental Sciences

Abstract

Zinc is an essential element for aquatic organisms, however, activities such as mining and refining, as well as zinc's ubiquitous role in modern society can contribute to elevated environmental concentrations of zinc. Water hardness is widely accepted as an important toxicity modifying factor for metals in aquatic systems, though other factors such as pH are also important. This study investigated the influence of increasing water hardness, at three different pH values (6.7, 7.6 and 8.3), on the chronic toxicity of zinc to the growth rate of a microalgae, Chlorella sp. Zinc toxicity decreased with increasing hardness from 5 to 93 mg CaCO3 L−1 at all three pH values tested. The 72 h growth rate inhibition EC50 values ranged from 6.2 μg Zn L−1 (at 5 mg CaCO3 L−1, pH 8.3) to 184 μg Zn L−1 (at 92 mg CaCO3 L−1, pH 6.7). Increases in hardness from 93 to 402 mg CaCO3 L−1 generally resulted in no significant (p > 0.05) reduction in zinc toxicity. DGT-labile zinc measurements did not correspond with the observed changes in zinc toxicity as hardness was varied within a pH treatment. This suggests that cationic competition from increased hardness is decreasing zinc toxicity, rather than changes in metal lability. This study highlighted that current hardness algorithms used in water quality guidelines may not be sufficiently protective of sensitive species, such as Chlorella sp., in high hardness waters.

Published

2022

3. Genomic and Environmental Factors Shape the Active Gill Bacterial Community of an Amazonian Teleost Holobiont

Author

François-Étienne Sylvain, Nicolas Leroux, Éric Normandeau, Aleicia Holland, Sidki Bouslama, Pierre-Luc Mercier, Adalberto Luis Val, and Nicolas Derome

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, FOS: Biological sciences, Genetics, Cell Biology, Microbiology

Abstract

Fish bacterial communities provide functions critical for their host’s survival in contrasting environments. These communities are sensitive to environmental-specific factors (i.e., physicochemical parameters, bacterioplankton), and host-specific factors (i.e., host genetic background). The relative contribution of these factors shaping Amazonian fish bacterial communities is largely unknown. Here, we investigated this topic by analyzing the gill bacterial communities of 240 wild flag cichlids (Mesonauta festivus) from 4 different populations (genetic clusters) distributed across 12 sites in 2 contrasting water types (ion-poor/ acidic black water and ion-rich/circumneutral white water). Transcriptionally active gill bacterial communities were characterized by a 16S rRNA metabarcoding approach carried on RNA extractions. They were analyzed using comprehensive data sets from the hosts genetic background (Genotyping-By-Sequencing), the bacterioplankton (16S rRNA) and a set of 34 environmental parameters. Results show that the taxonomic structure of 16S rRNA gene transcripts libraries were significantly different between the 4 genetic clusters and also between the 2 water types. However, results suggest that the contribution of the host’s genetic background was relatively weak in comparison to the environment-related factors in structuring the relative abundance of different active gill bacteria species. This finding was also confirmed by a mixed-effects modeling analysis, which indicated that the dissimilarity between the taxonomic structure of bacterioplanktonic communities possessed the best explicative power regarding the dissimilarity between gill bacterial communities’ structure, while pairwise fixation indexes (FST) from the hosts’ genetic data only had a weak explicative power. We discuss these results in terms of bacterial community assembly processes and flag cichlid fish ecology.

Published

2023

4. The Influence of pH on Zinc Lability and Toxicity to a Tropical Freshwater Microalga

Author

Jenny L. Stauber, Adam C. Ryan, Aleicia Holland, Darren J. Koppel, Dianne F. Jolley, Eric Van Genderen, and Gwilym A. V. Price

Subjects

Aqueous solution, Lability, Health, Toxicology and Mutagenesis, chemistry.chemical_element, Fresh Water, Metal toxicity, Chlorella, Zinc, Hydrogen-Ion Concentration, medicine.disease_cause, Diffusive gradients in thin films, Bioavailability, chemistry, Environmental chemistry, Toxicity, Zinc toxicity, Microalgae, medicine, Environmental Chemistry, Water Pollutants, Chemical

Abstract

Increased focus on the development and application of bioavailability-based metal water quality guideline values requires increased understanding of the influence of water chemistry on metal bioavailability and toxicity. Development of empirical models, such as multiple linear regression models, requires the assessment of the influence of individual water quality parameters as toxicity-modifying factors. The present study investigated the effect of pH on the lability and toxicity of zinc (Zn) to a tropical green microalga (Chlorella sp.). Zinc speciation and lability were explored using the Windermere Humic Aqueous Model (WHAM7), ultrafiltration, and diffusive gradients in thin films (DGT). Zinc toxicity increased significantly with increasing pH from 6.7 to 8.3, with 50% growth inhibition effect concentrations decreasing from 185 to 53 µg l-1 across the pH range. Linear relationships between DGT-labile Zn and dissolved Zn did not vary across the tested pH range, nor did the linear relationship between dissolved (

Published

2021

5. Fish-microbe systems in the hostile but highly biodiverse Amazonian blackwaters

Author

François-Étienne Sylvain, Nicolas Leroux, Eric Normandeau, Jaqueline Custodio, Pierre-Luc Mercier, Sidki Bouslama, Aleicia Holland, Danilo Barroso, Adalberto Luis Val, and Nicolas Derome

Abstract

Amazonian blackwaters are extremely biodiverse systems containing some of the most naturally acidic, dissolved organic carbon-rich and ion-poor waters on Earth. Physiological adaptations of fish facing these ionoregulatory challenges are unresolved but could involve microbially-mediated processes. Here, we characterize the physiological response of 964 fish-microbe systems from four blackwater Teleost species along a natural hydrochemical gradient, using dual RNA-Seq and 16S rRNA of gill samples. We find that responses to blackwaters are host-species-specific, but occasionally include the overexpression of Toll-receptors and integrins associated to interkingdom communication. Blackwater gill microbiomes are characterized by a transcriptionally-active betaproteobacterial cluster potentially interfering with epithelial permeability. We explore further blackwater fish-microbe interactions by analyzing transcriptomes of 320 axenic zebrafish larvae exposed to sterile, non-sterile and inverted (non-native bacterioplankton) blackwater. We find that axenic zebrafish do not survive well when exposed to sterile/inverted blackwater, suggesting an essential role of endogenous symbionts in blackwater fish physiology.

Published

2022

6. Relevance of tributary inflows for driving molecular composition of dissolved organic matter (DOM) in a regulated river system

Author

Suman Acharya, Aleicia Holland, Gavin Rees, Andrew Brooks, Daniel Coleman, Chris Hepplewhite, Sarah Mika, Nick Bond, and Ewen Silvester

Subjects

Environmental Engineering, Ecological Modeling, Pollution, Waste Management and Disposal, Water Science and Technology, Civil and Structural Engineering

Published

2023

7. Genomics of Serrasalmidae teleosts through the lens of microbiome fingerprinting

Author

Nicolas Derome, Aleicia Holland, Eric Normandeau, François-Étienne Sylvain, and Adalberto Luis Val

Subjects

biology, Host (biology), Microbiota, Genomics, Interspecific competition, biology.organism_classification, Serrasalmidae, Intraspecific competition, Gastrointestinal Microbiome, Evolutionary biology, Sympatric speciation, RNA, Ribosomal, 16S, Genetics, Animals, Microbiome, Characiformes, Clade, Ecology, Evolution, Behavior and Systematics

Abstract

Associations between host genotype and the microbiome of holobionts have been shown in a variety of animal clades, but studies on teleosts mostly show weak associations. Our study aimed to explore these relationships in four sympatric Serrasalmidae (i.e. piranha) teleosts from an Amazonian lake, using datasets from the hosts genomes (SNPs from GBS), skin and gut microbiomes (16S rRNA metataxonomics), and diets (COI metabarcoding) from the same fish individuals. Firstly, we investigated whether there were significant covariations of microbiome and fish genotypes at the inter and intraspecific scales. We also assessed the extent of co-variation between Serrasalmidae diet and microbiome, to isolate genotypic differences from dietary effects on community structure. We observed a significant covariation of skin microbiomes and host genotypes at interspecific (R2=24.4%) and intraspecific (R2=6.2%) scales, whereas gut microbiomes correlated poorly with host genotypes. Serrasalmidae diet composition was significantly correlated to fish genotype only at the interspecific scale (R2=5.4%), but did not covary with gut microbiome composition (Mantel R=-0.04; only 6 microbiome taxa involved). Secondly, we tested whether microbial taxa represent reliable host traits to complement host genotypic variations in these species. By using an NMDS ordination-based approach, we observed that subsets of the skin and gut microbiomes selected by a machine-learning Random Forest algorithm can complement host genotypic variations by increasing significantly the average interspecific differentiation. The complementarity of genome and microbiome variations suggests that combining both markers could potentially benefit our understanding of the evolution of Serrasalmidae in future studies.

Published

2022

8. Genomic and environmental factors shape gill microbiome activity in an Amazonian teleost holobiont

Author

François-Étienne Sylvain, Nicolas Leroux, Éric Normandeau, Aleicia Holland, Sidki Bouslama, Pierre-Luc Mercier, Adalberto Luis Val, and Nicolas Derome

Abstract

Fish microbiomes provide functions critical for their host’s survival in contrasting environments. These communities are sensitive to a range of environmental-specific factors (i.e. physicochemical parameters, free-living bacterioplankton) and host-specific factors (i.e. host genetic background). The relative contribution of these genomic and environmental factors shaping Amazonian fish microbiomes is still unknown. Here, we investigated this topic by analyzing the gill microbiomes of 240 wild flag cichlids (Mesonauta festivus) from four different populations (genetic clusters) distributed in 12 sites of two contrasting water types (ion-poor/acidic black water and ion-rich/circumneutral white water). The transcriptionally active gill microbiomes were characterized by a 16S rRNA metabarcoding approach carried on RNA extractions. They were analyzed in light of comprehensive datasets from the hosts genetic background (Genotyping-By-Sequencing), the bacterioplanktonic pool of bacteria (16S rRNA) and a set of 34 environmental parameters. Results show that the transcriptional activity of gill microbiome samples was significantly different between the genetic clusters and between water types. However, they suggest that the contribution of the host’s genetic background was relatively weak in comparison to the environment-related factors in structuring the relative abundance of different gill microbiome transcripts. This result was also confirmed by a mixed-effects modeling analysis, which suggested that the dissimilarity between the transcriptional activity of bacterioplanktonic communities possessed the best explicative power regarding the dissimilarity between gill microbiomes transcripts, while pairwise fixation indexes (FST) from the hosts’ genetic data only had a weak explicative power. We discuss these results in terms of microbiome assembly processes and flag cichlid fish ecology.ImportanceHost-associated microbial communities respond to a range of factors specific to the host physiology, genetic backgrounds and life history. However, these communities also show different degrees of sensitivity to environment-dependant factors such as abiotic physico-chemical parameters and ecological interactions. The relative importance of host-versus environment-associated factors in shaping teleost microbiomes is still understudied and is paramount for their conservation and aquaculture. Here, we studied the relative importance of host- and environment-associated factors structuring teleost microbiomes using gill samples from a wild Amazonian teleost model (Mesonauta festivus) sampled in contrasting habitats along a 1500 km section of the Amazonian basin, thus ensuring high genetic diversity. Results showed that the contribution of the host’s genetic background was weak compared to environment-related bacterioplanktonic communities in shaping gill microbiomes, thereby suggesting that our understanding of teleost microbiome assembly could benefit from further studies focused on the ecological interplay between host-associated and free-living communities.

Published

2022

9. The influence of hardness at varying pH on zinc toxicity and lability to a freshwater microalga

Author

Gwilym A V, Price, Jenny L, Stauber, Aleicia, Holland, Darren J, Koppel, Eric J, Van Genderen, Adam C, Ryan, and Dianne F, Jolley

Subjects

Zinc, Hardness, Metals, Microalgae, Fresh Water, Chlorella, Hydrogen-Ion Concentration, Copper, Water Pollutants, Chemical

Abstract

Zinc is an essential element for aquatic organisms, however, activities such as mining and refining, as well as zinc's ubiquitous role in modern society can contribute to elevated environmental concentrations of zinc. Water hardness is widely accepted as an important toxicity modifying factor for metals in aquatic systems, though other factors such as pH are also important. This study investigated the influence of increasing water hardness, at three different pH values (6.7, 7.6 and 8.3), on the chronic toxicity of zinc to the growth rate of a microalgae

Published

2022

10. Allopatric speciation rather than ecological speciation drives evolution in an Amazonian fish

Author

Nicolas Leroux, François-Étienne Sylvain, Eric Normandeau, Aleicia Holland, Adalberto Luis Val, and Nicolas Derome

Abstract

Amazonia is characterized by very heterogeneous riverscapes dominated by two drastically divergent water types: black (ion-poor, dissolved organic carbonate rich and acidic) and white (nutrient rich and turbid) waters. Recent phylogeographic and genomic studies have associated the ecotone formed by these environments to ecologically driven speciation in fishes. With the objective of better understanding the evolutionary forces behind the Amazonian Teleostean diversification, we sampled 240 Mesonauta festivus from 12 sites on a wide area of the Amazonian basin. These sites included three confluences of black and white water environments to seek for repeated evidences of ecological speciation at these ecotones. Results obtained through our genetic assessment based on 41,268 SNPs contrast with previous findings and supports a low structuring power of water types. Conversely, we detected a strong pattern of isolation by unidirectional downstream water current and evidence of past events of vicariance potentially linked to the Amazon River formation. Using a combination of population genetic, phylogeographic analysis and environmental association models, we decomposed the spatial variance from the environmental genetic variance specifically to assess which evolutive forces have shaped inter-population differences in M. festivus’ genome. Our sampling design comprising four major Amazonian rivers and three confluences of black and white water rivers supports the possibility that past studies potentially confounded ecological speciation with a site effect unrepresentative of the full Amazonian watershed. While ecological speciation admittedly played a role in Amazonian fish species diversification, we argue that neutral evolutionary processes explain most of the divergence between M. festivus populations.

Published

2022

11. Natural organic matter source, concentration, and pH influences the toxicity of zinc to a freshwater microalga

Author

Gwilym A.V. Price, Jenny L. Stauber, Dianne F. Jolley, Darren J. Koppel, Eric J. Van Genderen, Adam C. Ryan, and Aleicia Holland

Subjects

Health, Toxicology and Mutagenesis, General Medicine, Toxicology, Pollution

Abstract

Zinc is a contaminant of concern in aquatic environments and is a known toxicant to many aquatic organisms. Dissolved organic matter (DOM) is a toxicity modifying factor for zinc and is an important water chemistry parameter. This study investigated the influence of DOM concentration, source, and water pH on the chronic toxicity of zinc to a freshwater microalga, Chlorella sp. The influence of DOM on zinc toxicity was dependent on both concentration and source. In the absence of DOM, the 72-h EC50 was 112 μg Zn.L

Published

2023

12. Natural Organic Matter Source and Ph Influences the Toxicity of Zinc to a Freshwater Microalga

Author

Gwilym Price, Jennifer Lee Stauber, Dianne F. Jolley, Darren J. Koppel, Eric van Genderen, Adam Ryan, and Aleicia Holland

Published

2022

13. Phylogeography of an Amazonian Cichlid supports strong structuration by water current and past evolution by vicariance associated to the Amazon's formation

Author

Nicolas Leroux, François-Étienne Sylvain, Eric Normandeau, Aleicia Holland, Adalberto Luis Val, and Nicolas Derome

Abstract

Amazonia is characterized by very heterogeneous riverscapes dominated by two drastically divergent water types: black (ion-poor, dissolved organic carbonate rich and acidic) and white (nutrient rich and turbid) waters. Recent phylogeographic and genomic studies have associated the ecotone formed by these environments to ecologically driven speciation in fish species. With the objective of better understanding the evolutionary forces behind the Amazonian Teleostean diversification, we sampled 240 Mesonauta festivus from 12 sites on a wide area of the Amazonian basin. These sites included three confluences of black and white water environments to seek for repeated evidences of ecological speciation at these ecotones. Our genetic dataset of 41,268 SNPs is contrasting with previous results and supports a low structuring power of water types. Conversely, we detected a strong pattern of isolation by unidirectional downstream water current and evidence of past events of vicariance potentially linked to the Amazon River formation and salt-water incursions that occurred 2.5 Mya. Using a combination of population genetic, phylogeographic analysis and environmental association models, we decomposed the spatial variance from the environmental genetic variance specifically to assess which evolutive forces have shaped inter-population differences in M. festivus’ genome. Our sampling design comprising four major Amazonian rivers and three confluences of black and white water rivers supports the possibility that past studies potentially confounded ecological speciation with a site effect unrepresentative of the full Amazonian watershed. While ecological speciation admittedly played a role in Amazonian fish species diversification, we argue that neutral evolutionary processes explain most of the divergence between M. festivus populations.

Published

2021

14. Changes to the amino acid profile and proteome of the tropical freshwater microalga Chlorella sp. in response to copper stress

Author

Manisha Shakya, Ewen Silvester, Gavin Rees, Kolin Harinda Rajapaksha, Pierre Faou, and Aleicia Holland

Subjects

Proteomics, Proteome, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, 60204 Freshwater Ecology, Fresh Water, General Medicine, Chlorella, Toxicology, Pollution, Stress, Physiological, FOS: Biological sciences, Environmental Science, Microalgae, Amino Acids, Copper, Water Pollutants, Chemical

Abstract

Contamination of freshwaters is increasing globally, with microalgae considered one of the most sensitive taxa to metal pollution. Here, we used 72 h bioassays to explore the biochemical effects of copper (Cu) on the amino acid (AA) profile and proteome of Chlorella sp. and advance our understanding of the molecular changes that occur in algal cells during exposure to environmentally realistic Cu concentrations. The Cu concentrations required to inhibit algal growth rate by 10% (EC10) and 50% (EC50) were 1.0 (0.7–1.2) µg L−1 and 2.0 (1.9–2.4) µg L−1, respectively. The AA profile of Chlorella sp. showed increases in glycine and decreases in isoleucine, leucine, valine, and arginine, with increasing Cu. Proteomic analysis revealed the modulation of several proteins involved in energy production pathways, including: photosynthesis, carbon fixation, glycolysis, and oxidative phosphorylation, which likely assists in meeting increased energy demands under Cu-stressed conditions. Copper exposure also caused up-regulation of cellular processes and signalling proteins, and the down-regulation of proteins related to ribosomal structure and protein translation. These changes in biomolecular pathways have direct effects on the AA profile and total protein content and provide an explanation for the observed changes in amino acid profile, cell growth and morphology. This study shows the complex mode of action of Cu on Chlorella under environmentally realistic Cu concentrations and highlights several potential biomarkers for future investigations.

Published

2021

15. Metal forms and dynamics in urban stormwater runoff: New insights from diffusive gradients in thin-films (DGT) measurements

Author

Sarah McDonald, Aleicia Holland, Stuart L. Simpson, Jennifer B. Gadd, William W. Bennett, Glen W. Walker, Michael J. Keough, Tom Cresswel, and Kathryn L. Hassell

Subjects

Environmental Engineering, Ecological Modeling, Pollution, Waste Management and Disposal, Water Science and Technology, Civil and Structural Engineering

Abstract

Stormwater runoff typically contains significant quantities of metal contaminants that enter urban waterways over short durations and represent a potential risk to water quality. The origin of metals within the catchment and processes that occur over the storm can control the partitioning of metals between a range of different forms. Understanding the fraction of metals present in a form that is potentially bioavailable to aquatic organisms is useful for environmental risk assessment. To help provide this information, the forms and dynamics of metal contaminants in an urban system were assessed across a storm. Temporal patterns in the concentration of metals in dissolved and particulate (total suspended solids; TSS) forms were assessed from water samples, and diffusive gradients in thin-films (DGTs) were deployed to measure the DGT-labile time-integrated metal concentration. Results indicate that the concentrations of dissolved and TSS-associated metals increased during the storm, with the metals Al, Cd, Co, Cu, Pb and Zn representing the greatest concern relative to water quality guideline values (GVs). The portion of labile metal as measured by DGT devices indicated that during the storm a substantial fraction (∼98%) of metals were complexed and pose a lower risk of acute toxicity to aquatic organisms. Comparison of DGT results to GVs indicate that current GVs are likely quite conservative when assessing stormwater pollution risks with regards to metal contaminants. This study provides valuable insight into the forms and dynamics of metals in an urban system receiving stormwater inputs and assists with the development of improved approaches for the assessment of short-term, intermittent discharge events.

Published

2021

16. The Amazon River microbiome, a story of humic carbon

Author

Nicolas Leroux, Aleicia Holland, Sidki Bouslama, Pierre-Luc Mercier, Adalberto Luis Val, François-Étienne Sylvain, and Nicolas Derome

Subjects

Blackwater, Amazon rainforest, Ecology, Abundance (ecology), Amazonian, Dissolved organic carbon, Polynucleobacter sinensis, medicine, food and beverages, Environmental science, Bacterioplankton, medicine.disease_cause, Carbon cycle

Abstract

The Amazon River basin sustains dramatic hydrochemical gradients defined by three water types: white, clear and black waters. Black waters contain important loads of allochthonous humic dissolved organic carbon (DOC), mostly coming from bacteria-mediated lignin degradation, a process that remains understudied. Here, we identified the main bacterial taxa and functions associated with contrasting Amazonian water types, and shed light on their potential implication in the lignin degradation process. We performed an extensive field bacterioplankton sampling campaign from the three Amazonian water types, and combined our observations to a meta-analysis of 90 Amazonian basin shotgun metagenomes used to build a tailored functional inference database. We showed that the overall quality of DOC is a major driver of bacterioplankton structure, transcriptional activity and functional repertory. We also showed that among the taxa mostly associated to differences between water types, Polynucleobacter sinensis particularly stood out, as its abundance and transcriptional activity was strongly correlated to black water environments, and specially to humic DOC concentration. Screening the reference genome of this bacteria, we found genes coding for enzymes implicated in all the main lignin degradation steps, suggesting that this bacteria may play key roles in the carbon cycle processes within the Amazon basin.

Published

2021

17. Taxonomic, seasonal and spatial variation in the amino acid profile of freshwater macroinvertebrates

Author

Aleicia Holland, Manisha Shakya, Gavin N. Rees, and Ewen Silvester

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, biology, 010604 marine biology & hydrobiology, Freshwater shrimp, Zoology, Aquatic Science, Seasonality, Physa, biology.organism_classification, medicine.disease, 01 natural sciences, Freshwater snail, Caddisfly, medicine, Prawn, Spatial variability, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Water Science and Technology, Invertebrate

Abstract

Macroinvertebrates play a key role in aquatic food webs, with amino acids (AA) playing an important role in determining their nutritional value to higher consumers. This study aimed to determine whether AA profile varies among four macroinvertebrate taxa, spatially and seasonally (summer/winter). The freshwater prawn, Macrobrachium australiense; freshwater shrimp, Paratya australiensis; freshwater snail, Physa sp. and caddisfly, Triplectides sp. were collected from seven sites along the Murray–Darling Basin, Australia. Sampling was conducted during summer 2015 (October–December), winter 2016 (May–June) and summer 2016 (October–December). AA profiles were found to be significantly different among the four taxa, with the highest total amino acid content found in decapods (M. australiense and P. australiensis). Based on the total essential AA content from our study, decapods had higher nutritional value compared to Physa. Seasonal variations in AA profiles of decapods were observed, with an increased proportion of the non-essential amino acid glycine and decreased proportion of different essential AAs found in individuals collected during winter compared to summer. No seasonal variation in the AA profiles of Physa sp. or Triplectides sp. was shown. Spatial variation in the AA profile of macroinvertebrates was only recorded in P. australiense during winter 2016. These findings expand the current understanding of the AA profile of freshwater macroinvertebrates showing that AA profiles are taxa specific and vary seasonally and spatially depending on taxa.

Published

2021

18. Effect of Dissolved Organic Matter Concentration and Source on the Chronic Toxicity of Copper and Nickel Mixtures to Chlorella sp

Author

Jenny L. Stauber, Gabriella K. Macoustra, Dianne F. Jolley, Darren J. Koppel, and Aleicia Holland

Subjects

Health, Toxicology and Mutagenesis, Metal ions in aqueous solution, chemistry.chemical_element, Chlorella, 010501 environmental sciences, Dissolved Organic Matter, 01 natural sciences, Metal, 03 medical and health sciences, Nickel, Dissolved organic carbon, Environmental Chemistry, Chronic toxicity, 030304 developmental biology, 0105 earth and related environmental sciences, 0303 health sciences, Aqueous solution, Chemistry, Diffusive gradients in thin films, Copper, 6. Clean water, 13. Climate action, visual_art, Environmental chemistry, visual_art.visual_art_medium, Water Pollutants, Chemical

Abstract

There have been limited studies on the effects of toxicity-modifying factors, such as dissolved organic matter (DOM), on the toxicity of metal mixtures to aquatic biota. The present study investigated the effects of DOM concentration (low, 2.8 ± 0.1 mg C/L; high, 11 ± 1.0 mg C/L) and DOM source (predominantly terrestrial or microbial) on the chronic toxicity of copper (Cu) and nickel (Ni) binary mixtures to the green freshwater microalga Chlorella sp. This was assessed by using a full factorial design of 72-h growth inhibition bioassays. Measured algal growth rate was compared with growth predicted by the concentration addition and independent action reference models. Model predictions were based on concentrations of dissolved metals, labile metals (measured by diffusive gradients in thin films [DGT]), and calculated free metal ions (determined by the Windermere Humic Aqueous Model). Copper/Ni mixture toxicity was synergistic to Chlorella sp. in the absence of added DOM, with evidence of metal concentration-dependent toxicity at low effect concentrations. As DOM concentration increased, the mixture interaction changed from synergism to noninteraction or antagonism depending on the metal speciation method used. The DOM source had no significant effect on mixture interaction when based on dissolved and free metal ion concentrations but was significantly different when based on DGT-labile metal concentrations. Ratio-dependent mixture interaction was observed in all treatments, with increased deviation from the reference model predictions as the mixture changed from Ni- to Cu-dominated. The present study demonstrated that both DOM concentration and source can significantly change metal mixture toxicity interactions and that these interactions can be interpreted differently depending on the metal speciation method used. Environ Toxicol Chem 2021;40:1908-1918. © 2021 SETAC.

Published

2020

19. Cladocera resting egg banks in temporary and permanent wetlands

Author

Daryl L. Nielsen, Eliana Aparecida Panarelli, and Aleicia Holland

Subjects

0106 biological sciences, Floodplain, ephippia viability, Biodiversity, Wetland, Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, Dormancy, lcsh:Physical geography, lcsh:Environmental sciences, Uncategorized, Water Science and Technology, Invertebrate, lcsh:GE1-350, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, floodplain lakes, lcsh:Geography. Anthropology. Recreation, food and beverages, Juvenile fish, biology.organism_classification, Food web, ephippia diversity, lcsh:G, Cladocera, Species richness, lcsh:GB3-5030

Abstract

Cladocerans are important filter-feeders transferring energy up the food web to different invertebrate and vertebrate predators. Along the flood period, cladocerans are one of the primary food sources for juvenile fish in floodplain. Resting egg banks allow cladoceran populations to overcome the environmental stress, related to several limnological changes, including complete drying of temporary wetlands. After drought, resting egg banks influence cladoceran community attributes during the cyclic and successional processes driven by episodic flood events. In this study we compared the taxonomic richness of active (from the water column) and dormant (from the sediment) Cladocera assemblages and analyzed the structure of resting egg banks, comparing the diversity, abundance and apparent viability/unviability of the eggs, between six temporary and six permanent wetlands, located along the Ovens River Floodplain, Victoria, Australia. The qualitative analysis shows higher taxonomic richness in active assemblages from temporary (24 taxa) than permanent (13 taxa) wetlands compared to dormant assemblages present in resting egg banks (9 taxa) from temporary and permanent wetlands. However, richness was influenced by taxonomic level of identification, with the majority of resting eggs only being identified to the taxonomic level of family (i.e. Chydoridae). Total taxa richness within egg banks was similar between wetland types, however, on average higher Shannon’s diversity of resting eggs was found within permanent (1.53) than temporary (0.82) wetlands. This is likely to be due to more stable wetlands not providing appropriate cues to trigger dormancy induction or breakage for specific populations, leading to higher values of evenness in permanent than temporary wetlands. Comparing permanent and temporary wetlands, higher abundance of resting eggs (more than four times) consisting of higher abundance of unviable eggs and similar viable egg abundance to permanent wetlands, was found within temporary wetlands, suggesting that the increased resting egg abundance in temporary wetlands is balanced by the losses due to factors such as predation, parasitism or other physical damage, during the terrestrial phase. Despite resistant outer shell structure, this study highlights that the damage to egg integrity is intensified in wetlands that undergo dry phases. Cladoceran resting egg banks represent the potential assemblage to recover after disturbance events such as drying, and information about these is important to ensure appropriate management and conservation of floodplain biodiversity.

Published

2020

20. Speciation of nickel and its toxicity to Chlorella sp. in the presence of three distinct dissolved organic matter (DOM)

Author

Dianne F. Jolley, Gabriella K. Macoustra, Darren J. Koppel, Jenny L. Stauber, and Aleicia Holland

Subjects

inorganic chemicals, Environmental Engineering, Health, Toxicology and Mutagenesis, media_common.quotation_subject, 0208 environmental biotechnology, chemistry.chemical_element, Fresh Water, 02 engineering and technology, Chlorella, 010501 environmental sciences, 01 natural sciences, Nickel, Dissolved organic carbon, otorhinolaryngologic diseases, Environmental Chemistry, Animals, Chronic toxicity, 0105 earth and related environmental sciences, EC50, media_common, Lability, Chemistry, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Pollution, Diffusive gradients in thin films, 020801 environmental engineering, Speciation, Metals, Environmental chemistry, Toxicity, Water Pollutants, Chemical

Abstract

Nickel is often a metal of interest in regulatory settings given its increasing prevalence in disturbed freshwaters and as a known toxicant to fish and algae. Dissolved organic matter (DOM) is a toxicity modifying factor for nickel and a ubiquitous water physicochemical parameter. This study investigated the effect of DOM concentration and source on the chronic toxicity of nickel to Chlorella sp. using three DOM at two concentrations (3.1 ± 1.8 and 12 ± 1.3 mg C/L). Nickel toxicity to Chlorella sp. was not strongly influenced by DOM concentration. In the absence of DOM, the 72-h EC50 for Chlorella sp. was 120 μg Ni/L. In the low DOM treatment, nickel toxicity was either unchanged or slightly increased (87–140 μg Ni/L) and unchanged or slightly decreased in the high DOM treatment (130–240 μg Ni/L). DOM source also had little effect on nickel toxicity, the largest differences in nickel toxicity occurring in the high DOM treatment. Labile nickel (measured by diffusive gradients in thin-films, DGT) followed strong linear relationships with dissolved nickel (R2 > 0.97). DOM concentration and source had limited effect on DGT-labile nickel. DGT-labile nickel decreased with increasing DOM concentration for only one of the three DOM. Modelled labile nickel concentrations (expressed as maximum dynamic concentrations, cdynmax) largely agreed with DGT-labile nickel and suggested that toxicity is explained by free Ni2+ concentrations. This study confirms that nickel toxicity is largely unaffected by DOM concentration or source and that both measured (DGT) and modelled (cdynmax and free Ni2+) nickel concentrations can explain nickel toxicity.

Published

2020

21. Fish Skin and Gut Microbiomes Show Contrasting Signatures of Host Species and Habitat

Author

Nicolas Derome, Émie Audet-Gilbert, François-Étienne Sylvain, Camille Lavoie, Adalberto Luis Val, Aleicia Holland, and Sidki Bouslama

Subjects

Niche, Zoology, Biology, Applied Microbiology and Biotechnology, Microbial Ecology, 03 medical and health sciences, Species Specificity, RNA, Ribosomal, 16S, Animals, 14. Life underwater, Microbiome, Ecosystem, Phylogeny, 030304 developmental biology, Skin, Ecological niche, 0303 health sciences, Mucous Membrane, Ecology, Phylogenetic tree, Bacteria, Host Microbial Interactions, 030306 microbiology, Host (biology), Community structure, Bacterioplankton, Cichlids, 15. Life on land, Mucus, Gastrointestinal Microbiome, RNA, Bacterial, Characiformes, Brazil, Food Science, Biotechnology

Abstract

Teleost fish represent an invaluable repertoire of host species to study the factors shaping animal-associated microbiomes. Several studies have shown that the phylogenetic structure of the fish gut microbiome is driven by species-specific (e.g., host ancestry, genotype, or diet) and habitat-specific (e.g., hydrochemical parameters and bacterioplankton composition) factors. However, our understanding of other host-associated microbial niches, such as the skin mucus microbiome, remains limited. The goal of our study was to explore simultaneously the phylogenetic structure of the fish skin mucus and gut microbiome and compare the effect of species- and habitat-specific drivers on the structure of microbial communities in both tissues. We sampled 114 wild fish from 6 populations of 3 ecologically and phylogenetically contrasting Amazonian teleost species. Water samples were collected at each site, and 10 physicochemical parameters were characterized. The skin mucus, gut, and water microbial communities were characterized using a metabarcoding approach targeting the V3-V4 regions of the 16S rRNA. Our results showed a significant distinction between the phylogenetic profile and diversity of the microbiome from each microbial niche. Skin mucus and bacterioplankton communities were significantly closer in composition than gut and free-living communities. Species-specific factors mostly modulated gut bacterial communities, while the skin mucus microbiome was predominantly associated with environmental physicochemistry and bacterioplankton community structure. These results suggest that the variable skin mucus community is a relevant target for the development of microbial biomarkers of environmental status, while the more conserved gut microbiome is better suited to study long-term host-microbe interactions over evolutionary time scales. IMPORTANCE Whether host-associated microbiomes are mostly shaped by species-specific or environmental factors is still unresolved. In particular, it is unknown to what extent microbial communities from two different host tissues from the same host respond to these factors. Our study is one of the first to focus on the microbiome of teleost fish to shed a light on this topic as we investigate how the phylogenetic structure of microbial communities from two distinct fish tissues are shaped by species- and habitat-specific factors. Our study showed that in contrast to the teleost gut microbiome, skin mucus communities are highly environment dependent. This result has various implications: (i) the skin mucus microbiome should be used, rather than the gut, to investigate bacterial biomarkers of ecosystem perturbance in the wild, and (ii) the gut microbiome is better suited for studies of the drivers of phylosymbiosis, or the coevolution of fish and their symbionts.

Published

2020

22. Dissolved organic matter signatures vary between naturally acidic, circumneutral and groundwater-fed freshwaters in Australia

Author

Melanie A. Trenfield, Jenny L. Stauber, Chris M. Wood, Aleicia Holland, and Dianne F. Jolley

Subjects

Environmental Engineering, 010504 meteorology & atmospheric sciences, Fresh Water, 010501 environmental sciences, 01 natural sciences, Absorbance, Abundance (ecology), Dissolved organic carbon, Temperate climate, Groundwater, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, Abiotic component, Principal Component Analysis, Ecological Modeling, Aquatic ecosystem, Australia, Hydrogen-Ion Concentration, Pollution, Colored dissolved organic matter, Spectrometry, Fluorescence, Environmental chemistry, Factor Analysis, Statistical, Environmental Monitoring

Abstract

Dissolved organic matter (DOM) plays important roles in both abiotic and biotic processes within aquatic ecosystems, and these in turn depend on the quality of the DOM. We collected and characterized chromophoric DOM (CDOM) from different Australian freshwater types (circumneutral, naturally acidic and groundwater-fed waterways), climatic regions and seasons. CDOM quality was characterized using absorbance and fluorescence spectroscopy. Excitation emission scans followed by parallel factor (PARAFAC) analysis showed that CDOM was characterized by three main components: protein-like, fulvic-like and humic-like components commonly associated with various waters globally in the Openfluor database. Principal component analysis showed that CDOM quality varied between naturally acidic, circumneutral and groundwater-fed waters, with unique CDOM quality signatures shown for each freshwater type. CDOM quality also differed significantly within some sites between seasons. Clear differences in dominant CDOM components were shown between freshwater types. Naturally acidic waters were dominated by highly aromatic (as indicated by the specific absorbance co-efficient (SAC340) and the specific UV absorbance (SUVA254) values which ranged between 31 and 50 cm2 mg−1 and 3.9–5.7 mg C−1 m−1 respectively), humic-like CDOM of high molecular weight (as indicated by abs254/365 which ranged from 3.8 to 4.3). In contrast, circumneutral waters were dominated by fulvic-like CDOM of lower aromaticity (SAC340: 7–21 cm2 mg−1 and SUVA254: 1.5–3.0 mg C−1 m−1) and lower molecular weight (abs254/365 5.1–9.3). The groundwater-fed site had a higher abundance of protein-like CDOM, which was the least aromatic (SAC340: 2–5 cm2 mg−1 and SUVA254: 0.58–1.1 mg C−1 m−1). CDOM was generally less aromatic, of a lower molecular weight and more autochthonous in nature during the summer/autumn sampling compared to winter/spring. Significant relationships were shown between various CDOM quality parameters and pH. This is the first study to show that different freshwater types (circumneutral, naturally acidic and groundwater-fed) contain distinct CDOM quality signatures in Australia, a continent with unique flora and geology.

Published

2018

23. Spatial variation in the amino acid profile of four macroinvertebrate taxa along a highly polluted river

Author

Leigh Stitz, Gavin N. Rees, Ewen Silvester, Aleicia Holland, and Manisha Shakya

Subjects

010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Dytiscidae, 010501 environmental sciences, Toxicology, Odonata, 01 natural sciences, Chironomidae, Upstream and downstream (DNA), Animals, Humans, Amino Acids, Ecosystem, 0105 earth and related environmental sciences, Invertebrate, biology, Ecology, Aquatic ecosystem, Australia, General Medicine, Acid mine drainage, biology.organism_classification, Invertebrates, Pollution, eye diseases, Queensland, sense organs, Species richness, Environmental Monitoring

Abstract

Acid mine drainage (AMD) is one of the major environmental problems impacting aquatic ecosystems globally. We studied changes in the community composition of macroinvertebrates and amino acid (AA) profiles of dominant taxa along an AMD contamination gradient within the Dee River, Queensland, Australia to understand how AMD can affect the biomolecular composition of macroinvertebrates. Taxa richness and community composition of macroinvertebrates changed widely along the AMD gradient with significantly lower taxa richness recorded at the polluted sites compared to upstream and downstream sites. The Dipteran families: Chironomidae and Ceratopogonidae, the Odonata family Gomphidae, and the Coleoptera family Dytiscidae were the only families found at all sampling sites and were used here for AA analysis. There were significant variations in the AA profiles among the studied taxa. The AA profile of each taxon also varied among upstream, polluted and downstream sites suggesting that contamination of a river system with acid mine drainage not only alters the overall macroinvertebrate community composition but also significantly influences the AA profile of organisms that are tolerant to AMD. This study highlights the potential of using AA profiling to study the response of aquatic organisms to contamination gradients such as those associated with AMD.

Published

2021

24. The effects of changing flows on basal resource productivity and quality

Author

McInerney, Paul, Shackleton, Michael, Rees, Gavin, Aleicia Holland, Davey, Chris, Petrie, Rochelle, Durant, Rebecca, and Vlamis, Thelma

Subjects

50102 Ecosystem Function, Ecology, FOS: Biological sciences, Environmental Science, Limnology, 60204 Freshwater Ecology, 50205 Environmental Management, FOS: Earth and related environmental sciences

Abstract

MMCP Collaboration (MMCP) is a project supported by the Joint State Governments and the Murray-Darling Basin Authority to generate and adopt freshwater ecological knowledge through collaboration, to maintain research capability and contribute supporting science to underpin the Basin-Wide Watering Strategy.This project, is one of five research themes that make up MMCP. This research theme investigated the biofilm succession patterns and ecosystem dynamics in the Edward-Wakool River system.

Published

2020

25. MMCP Collaboration Final report 2019 - Biofilm succession patterns and ecosystem dynamics in the Edward-Wakool River system

Author

McInerney, Paul, Shackleton, Michael, Rees, Gavin, Aleicia Holland, Davey, Chris, and Petrie, Rochelle

Subjects

50102 Ecosystem Function, Ecology, FOS: Biological sciences, Environmental Science, Limnology, 60204 Freshwater Ecology, FOS: Earth and related environmental sciences, 50206 Environmental Monitoring

Abstract

MMCP Collaboration (MMCP) is a project supported by the Joint State Governments and the Murray-Darling Basin Authority to generate and adopt freshwater ecological knowledge through collaboration, to maintain research capability and contribute supporting science to underpin the Basin-Wide Watering Strategy.The biofilm succession theme is one of five themes that make up MMCP. This study examined the successional patterns of biofilms through time, under relatively constant flow conditions.

Published

2020

26. Legacy Arsenic Contamination from Historical Gold Mining on the Floodplains of South Eastern Australia River

Author

Francesco Colombi, Ewen Silvester, Darren Baldwin, Aleicia Holland, Susan Lawerence, Peter Davis, Jodi Turnbull, Ian Rutherford, and Mark Macklin

Published

2020

27. Influence of Soil Phosphate on the Accumulation and Toxicity of Arsenic and Antimony in Choy Sum Cultivated in Individually and Co-contaminated Soils

Author

Aleicia Holland, Dianne F. Jolley, Lakmini P. Egodawatta, and Darren J. Koppel

Subjects

Antimony, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Brassica, chemistry.chemical_element, Biological Availability, Choy sum, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Phosphates, chemistry.chemical_compound, Soil, Environmental Chemistry, Humans, Soil Pollutants, Arsenic, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, biology, Drug Synergism, biology.organism_classification, Phosphate, Bioaccumulation, Bioavailability, chemistry, Environmental chemistry, Shoot, Soil water, Toxicity, Arsenates

Abstract

Fertilizers containing phosphate (PO4 3- ) are commonly used within the agricultural industry and are known to increase the bioavailability and mobility of metalloids like arsenic (As). This may increase plant uptake of As and hence pose a risk to human health. Arsenic and antimony (Sb) often co-occur in contaminated soils; however, little is known about the interactions between As and Sb with PO4 3- on their bioavailability, accumulation, and toxicity in plants. The present study investigated individual and combined As and Sb-contaminated soils across 2 soil PO4 3- concentrations using a commonly consumed leafy vegetable, choy sum (Brassica chinensis var. parachinensis). Increased soil PO4 3- had no clear influence on the bioavailability of As or Sb (derived from a sequential extraction procedure). At high PO4 3- concentration, B. chinensis accumulated higher amounts of As in the shoots and roots in both individual and co-contaminated soil, whereas Sb accumulation increased only when Sb was the only contaminant. When As was the only contaminant, the translocation of As from roots to shoots decreased as soil PO4 3- increased. Increased soil PO4 3- had no influence on Sb translocation from root to shoot. Although As was toxic (impaired growth) at low PO4 3- soil concentration, no toxicity was observed in the high-PO4 3- soil. No toxicity was observed for Sb in either low- or high-PO4 3- soils. Increased soil PO4 3- concentration ameliorated or masked As toxicity to plant growth and led to higher As concentration in the plant's edible parts. The addition of high soil PO4 3- concentrations ameliorated or masked As toxicity to plant growth in both individually and As + Sb co-contaminated soil; however, the plant's edible parts accumulated higher As and Sb concentrations. Environ Toxicol Chem 2020;39:1233-1243. © 2020 SETAC.

Published

2019

28. Interactive effects of arsenic and antimony on Ipomoea aquatica growth and bioaccumulation in co-contaminated soil

Author

Lakmini P. Egodawatta, Dianne F. Jolley, Darren J. Koppel, and Aleicia Holland

Subjects

Antimony, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, chemistry.chemical_element, 010501 environmental sciences, Toxicology, 01 natural sciences, Arsenic, Soil, food, Soil Pollutants, 0105 earth and related environmental sciences, Chemistry, Chlorophyll A, fungi, Ipomoea aquatica, food and beverages, General Medicine, Pollution, Soil contamination, Bioaccumulation, food.food, Bioavailability, Environmental chemistry, Soil water, Shoot, Metalloid, Ipomoea

Abstract

Antimony (Sb) is an emerging contaminant and until recently it was assumed to behave in a similar way to arsenic (As). Arsenic and Sb often co-occur in contaminated sites, yet most investigations consider their toxicity to plants singly. More research is needed to understand the interactions between As and Sb in soils and plants. This study investigated the interactive effect of As and Sb in terms of soil bioavailability, plant toxicity and bioaccumulation on the commercially important agricultural plant, water spinach (Ipomoea aquatica) using a pot experiment. Plants were exposed to As and Sb individually (As (individual), Sb (individual)) and as a mixture (As + Sb (combined)) at different concentrations. Plant growth was measured using shoot and root dry mass, length and chlorophyll a content of leaves. At the end of the bioassay, bioavailable metalloids were extracted from the soil as per a sequential extraction procedure (SEP) and plant tissue was analysed for metalloid content. For As, there were no differences observed between the bioavailability of As in the As + Sb (combined) and As (individual) treatments. For Sb, no increase in bioavailability was observed with co-contamination compared to single-Sb exposures for most concentrations except at 1250 mg/kg. Single-Sb was not toxic to I. aquatica shoot dry mass and length, but there was greater shoot Sb accumulation in the As + Sb (combined) than the Sb (individual) treatment. In contrast, single-As was toxic to I. aquatica growth. When As and Sb were present together in the soil, there was a synergistic toxicity to shoot dry mass (EC50 Toxic Unit (TU) was less than 1) and additive toxicity (EC50 equal to 1 TU) to shoot length. This work shows that the co-occurrence of As and Sb in soil increases Sb bioavailability and can cause synergistic toxicity to an important agricultural crop.

Published

2019

29. Humic substances: remediation option for anthropogenically acidified waterways

Author

Susan Kinnear, Aleicia Holland, and L. J. Duivenvoorden

Subjects

021110 strategic, defence & security studies, Environmental Engineering, Environmental remediation, 0211 other engineering and technologies, Environmental engineering, 02 engineering and technology, 010501 environmental sciences, Acid mine drainage, 01 natural sciences, Pollution, Applied Microbiology and Biotechnology, Environmentally friendly, Food web, Green waste, Environmental chemistry, Dissolved organic carbon, Soil water, Environmental science, Acid rain, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

The acidification of waterways through anthropogenic means is a global problem. Treatment options for anthropogenically acidified waterways are currently limited. This review proposes the use of humic substance (HS) to treat waterways acidified via anthropogenic means such as those affected by acid rain, acid mine drainage and acid sulphate soils. In laboratory settings, HS have been shown to successfully remove metals from solutions. HS also have the added benefit of being present in all natural waters and have been shown to positively influence aquatic organism’s survival to acidification, metals and the combined stressors of low pH and metal mixtures commonly associated with anthropogenically acidified waters. Comparative food webs of waterways affected by natural and anthropogenic acidification are provided along with a third conceptual food web showing the potential benefits of adding HS to an affected system. HS may represent a sustainable remediation option as it may be locally sourced from environmentally friendly options such as green waste. However, if such options are to be fully developed and utilised, the specific requirements for treating anthropogenically acidified waters with different HS sources (e.g. treatment volumes and efficacy) will require further study.

Published

2016

30. Amelioration of copper toxicity to a tropical freshwater microalga: Effect of natural DOM source and season

Author

Dianne F. Jolley, Darren J. Koppel, Aleicia Holland, Jenny L. Stauber, and Gabriella K. Macoustra

Subjects

010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, chemistry.chemical_element, Fresh Water, Chlorella, 010501 environmental sciences, Toxicology, 01 natural sciences, Dry season, Dissolved organic carbon, Microalgae, medicine, Chronic toxicity, 0105 earth and related environmental sciences, media_common, Lability, Copper toxicity, Australia, General Medicine, medicine.disease, Pollution, Diffusive gradients in thin films, Copper, Speciation, chemistry, Environmental chemistry, Seasons, Water Pollutants, Chemical

Abstract

Australian tropical freshwaters can experience extreme seasonal variability in rainfall and run off, particularly due to pulse events such as storms and cyclones. This study investigated how seasonal variability in dissolved organic matter (DOM) quality impacted the chronic toxicity of copper to a tropical green alga (Chlorella sp.) in the presence of two concentrations of DOM (low: ∼2 mg C/L; high: ∼10 mg C/L) collected from three tropical waters. Copper speciation and lability were explored using diffusive gradients in thin-films (DGT) and modelled maximum dynamic concentrations (cdynmax) using data derived from the Windermere Humic Aqueous Model (WHAM VII). Relationships between copper lability and copper toxicity were assessed as potential tools for predicting toxicity. Copper toxicity varied significantly with DOM concentration, source and season. Copper toxicity decreased with increasing concentrations of DOM, with 50% growth inhibition effect concentrations (EC50) increasing from 1.9 μg Cu/L in synthetic test waters with no added DOM (0.34 mg C/L) up to 63 μg Cu/L at DOM concentrations of 9.9 mg C/L. Copper toxicity varied by up to 2-fold between the three DOM sources and EC50 values were generally lower in the presence of wet season DOM compared to dry season DOM. Linear relationships between DGT-labile copper and dissolved copper were significantly different between DOM source, but not concentration or season. Modelled cdynmax consistently under-predicted labile copper in high DOM treatments compared to DGT measurements but performed better in low DOM treatments, indicating that this method is DOM-concentration dependent. Neither speciation method was a good surrogate for copper toxicity in the presence of different sources of natural DOM. Our findings show that DOM source and season, not just DOM concentration, affect copper toxicity to freshwater biota. Therefore, DOM quality should be considered as a toxicity-modifying factor for future derivation of bioavailability-based site-specific water quality guideline values.

Published

2020

31. Effect of Various Natural Dissolved Organic Carbon on Copper Lability and Toxicity to the Tropical Freshwater Microalga Chlorella sp

Author

Jenny L. Stauber, Gabriella K. Macoustra, Aleicia Holland, and Dianne F. Jolley

Subjects

chemistry.chemical_element, Fresh Water, Chlorella, 010501 environmental sciences, 01 natural sciences, Dissolved organic carbon, medicine, Microalgae, Environmental Chemistry, Chronic toxicity, 0105 earth and related environmental sciences, EC50, biology, Lability, Chemistry, Copper toxicity, Australia, General Chemistry, biology.organism_classification, medicine.disease, Diffusive gradients in thin films, Copper, 6. Clean water, Carbon, Environmental chemistry, Water Pollutants, Chemical

Abstract

This study adds further critical information to the limited body of knowledge on the ameliorative ability of Australian dissolved organic carbon (DOC), reinforcing the importance of DOC source and concentration as significant factors controlling the risk copper poses to organisms in freshwater systems. The ameliorative ability of five unstudied DOCs on the chronic toxicity of copper to the tropical alga Chlorella sp. was compared. Sensitivity to copper varied dramatically; effect concentrations at the 50 percent effect level (EC50) increased by up to 22-fold in the high DOC treatment compared to controls and more than 2-fold between DOCs at the same concentration. The analytical techniques, diffusive gradients in thin films (DGT) and Chelex column, were used to understand whether differences in copper toxicity could be explained by copper lability. Labile copper mirrored the trends seen in the toxicity tests; lability decreased with increasing DOC concentration and varied between DOCs at the same concentration. The equilibrium model, WHAM VII, was also used to better understand the role of the free copper ion on the toxicity observed. Disagreement between EC50 values derived using the WHAM-predicted free Cu2+ concentrations and agreement between DGT-labile and the maximum dynamic concentration ( cmaxdyn) suggest free copper is not the sole contributor to toxicity and that the source of the specific DOCs also plays a role.

Published

2019

32. Dissolved organic matter and metabolic dynamics in dryland lowland rivers

Author

Aleicia Holland, Michael Shackleton, Paul McInerney, Nick Bond, Ewen Silvester, and Gavin N. Rees

Subjects

biology, Chemistry, Microbial metabolism, Heterotroph, Primary production, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Analytical Chemistry, Productivity (ecology), Algae, Environmental chemistry, Dissolved organic carbon, Ecosystem, Autotroph, 0210 nano-technology, Instrumentation, Spectroscopy

Abstract

Dissolved organic matter (DOM) within freshwaters is essential for broad ecosystem function. The concentration and type of DOM within rivers depends on the relative contributions of allochthonous sources and the production and consumption of DOM by microbes. In this work we have examined the temporal patterns in DOM quality and productivity in three lowland rivers in dryland Australia using fluorescence excitation emission scans. We assessed the production and consumption of DOM within light and dark bottle assays to quantify the relative contribution of bacteria and algae to the DOM pool and simultaneously assessed whether the systems were autotrophic or heterotrophic. DOM varied temporally within the three river systems over the course of the study period. Characterisation of DOM within light and dark bottles following a 6-hour incubation revealed microbial consumption of a humic-like component and production of protein-like components similar in nature to the amino acids tryptophan and tyrosine. The lack of a significant difference in DOM quality between the light and dark bottles indicated that the protein-like DOM is likely derived from bacterial activity. Respiration was shown to be higher than gross primary production in both whole river and bottle assays, yielding negative net production values and demonstrating that these rivers were predominately heterotrophic. Our work suggests that bacterial metabolism of DOM may be a significant contributor to the production of protein-like components within heterotrophic freshwater systems.

Published

2020

33. Macroinvertebrate Responses to Conductivity in Different Bioregions of Victoria, Australia

Author

Aleicia Holland, Leigh Stitz, Michael Shackleton, and Paul McInerney

Subjects

Hydrology, 010504 meteorology & atmospheric sciences, Geography, Victoria, Health, Toxicology and Mutagenesis, Field data, Electric Conductivity, 010501 environmental sciences, Conductivity, 01 natural sciences, Invertebrates, Salinity, Bioregion, Species Specificity, Water Quality, Environmental Chemistry, Environmental science, Animals, Water quality, 0105 earth and related environmental sciences

Abstract

The use of field data to derive guideline water quality trigger values is likely to be more environmentally relevant than laboratory estimates. In the present study, macroinvertebrate responses to conductivity (specific conductance at 25 °C) within 5 bioregions in Victoria, Australia, were derived from 19 yr of macroinvertebrate field data. Varying response to electrical conductivity (EC) occurred among taxa. Ninety-five percent extirpation concentrations (XC95) for EC were calculated for each genus and species and ranged from 25 to 23 600 µS/cm. Hazardous concentration 5th percentiles (HC05) were calculated for each bioregion from species sensitivity distributions developed using genus and species XC95 values. Genus HC05 values varied substantially between bioregions: bioregion 1 (29 µS/cm), 2 (78 µS/cm), 3 (143 µS/cm), 4 (1068 µS/cm), and 5 (2226 µS/cm). No substantial differences in HC05 values were shown between genus- and species-level calculations in bioregions 1 to 3 and 5; however, a decrease of approximately 300 µS/cm was shown for bioregion 4. The substantial differences in HC05 values between bioregions supports the need for region-specific determination of effects of EC. We explore the use of HC05 values as water quality guidelines across a bioregion gradient and provide a comprehensive analysis of macroinvertebrate responses to changes in EC, with important implications for waterway management. Environ Toxicol Chem 2019;38:1334-1342. © 2019 SETAC.

Published

2017

34. Corrigendum to 'Nickel toxicity to cardinal tetra (Paracheirodon axelrodi) differs seasonally and among the black, white and clear river waters of the Amazon Basin' [Water Res. 123 (2017) 21-29]

Author

Chris M. Wood, D. Scott Smith, Aleicia Holland, Adalberto Luis Val, and Tiago Gabriel Correia

Subjects

Cardinal tetra, Environmental Engineering, White (horse), biology, Ecology, Ecological Modeling, biology.organism_classification, Pollution, Geography, Paracheirodon, Waste Management and Disposal, Water Science and Technology, Civil and Structural Engineering, Amazon basin

Published

2017

35. Humic acid decreases acute toxicity and ventilation frequency in eastern rainbowfish (Melanotaenia splendida splendida) exposed to acid mine drainage

Author

Aleicia Holland, Susan Kinnear, and L. J. Duivenvoorden

Subjects

Health, Toxicology and Mutagenesis, Fresh Water, Mining, Metals, Heavy, Water Quality, Dissolved organic carbon, Animals, Humic acid, Humic Substances, chemistry.chemical_classification, biology, Public Health, Environmental and Occupational Health, General Medicine, Contamination, Rainbowfish, Acid mine drainage, biology.organism_classification, Pollution, Smegmamorpha, Acute toxicity, chemistry, Environmental chemistry, Toxicity, Breathing, Queensland, Water Pollutants, Chemical

Abstract

Acid mine drainage (AMD) is a global problem leading to the acidification of freshwaters, as well as contamination by heavy metals. The ability of humic substances (HS) such as humic acid (HA) to decrease toxicity of heavy metals is widely known, whereas limited studies have examined the ability of HS to decrease toxicity linked with multiple stressors such as those associated with AMD. This study investigated the ability of HA to decrease acute toxicity defined as morbidity and ventilation frequency (measured via the time elapsed for ten operculum movements) in eastern rainbowfish ( Melanotaenia splendida splendida ) exposed to the multiple stressors of AMD-driven heavy metal concentrations, together with low pH. Water from the Mount Morgan open pit (a now closed gold and copper mine site), located at Mount Morgan, Central Queensland, Australia, was used as the AMD source. Fish were exposed to zero per cent (pH 7.3), two per cent (pH 6.7), three per cent (pH 5.7) and four per cent (pH 4.6) AMD in the presence of 0, 10 and 20 mg/L Aldrich Humic Acid (AHA) over 96 h. HA was shown to significantly decrease the acute toxicity of AMD and its adverse effects on ventilation frequency. These results are important in showing that HA can influence toxicity of metal mixtures and low pH, thus indicating a potential role for HA in decreasing toxicity of multiple environmental stressors more widely, and possible value as a rehabilitation aid.

Published

2014

36. Humic substances: The answer to improved mayfly survivorship in acidic environments?

Author

Susan Kinnear, L. J. Duivenvoorden, and Aleicia Holland

Subjects

chemistry.chemical_classification, Atalophlebia, food.ingredient, biology, Ecology, Fauna, Hard water, Biota, Aquatic Science, biology.organism_classification, Mayfly, food, chemistry, Environmental chemistry, Dissolved organic carbon, Humic acid, Soft water

Abstract

Acidification of freshwaters via anthropogenic means is a global problem. Decreases in pH in these systems have devastating effects on macroinvertebrate fauna especially Ephemeropterans. However, fauna in naturally acidic waters with high concentrations of humic substances (HS) appear to be less affected by acidification. This study investigated the ability of HS to decrease toxicity of low pH to mayflies (Atalophlebia spp.) in both hard and soft water environments. Laboratory trialling with both hard and soft water was conducted to represent water chemistries commonly associated with anthropogenic and naturally acidic freshwaters. Mayflies were exposed to decreases in pH between 7 (control) and 3.5 in the presence of 0, 10 and 20 mg/L HS (Aldrich humic acid). HS increased mayfly survival by up to 45% in soft water and up to 39% in hard water. HS were also shown to increase 96 h LC50 values in both soft (4.29, 0 mg/L; 3.99, 10 mg/L and 3.97, 20 mg/L) and hard water (4.58, 0 mg/L; 4.22, 10 mg/L and 4.07, 20 mg/L). The results of this study are important in showing that HS can influence the toxicity of low pH environments; thus providing insight into why contrasting effects on biota are recorded from naturally acidic compared with anthropogenically-acidified environments.

Published

2014

37. Humic substances of varying types increase survivorship of the freshwater shrimp Caridina sp. D to acid mine drainage

Author

L. J. Duivenvoorden, Aleicia Holland, and Susan Kinnear

Subjects

Environmental remediation, Health, Toxicology and Mutagenesis, Industrial Waste, Management, Monitoring, Policy and Law, Toxicology, Mining, Rivers, Decapoda, Water Quality, Toxicity Tests, Dissolved organic carbon, Animals, Ecotoxicology, Humic acid, Benzopyrans, Humic Substances, chemistry.chemical_classification, Ecology, Freshwater shrimp, General Medicine, Acid mine drainage, Shrimp, chemistry, Environmental chemistry, Toxicity, Water Pollutants, Chemical

Abstract

Differences relating to the ability of various types of humic substances (HS) to influence toxicity of pollutants have been reported in the literature, but there still remains a gap in understanding whether various HS will have the same influence on the toxicity of acid mine drainage (AMD). This study investigated differences in the ability of Aldrich humic acid (AHA), Suwannee River humic acid and Suwannee River fulvic acid to decrease toxicity of AMD to the freshwater shrimp (Caridina sp. D). Toxicity tests were conducted over 96 h and used Mount Morgan open pit water as source of AMD and Dee River water as control/diluents. Concentrations of 0-4 % AMD at 0 mg/L HS, 10 mg/L AHA, 10 mg/L Suwannee River humic acid and 10 mg/L Suwannee River fulvic acid were used. Significantly higher survival of shrimp was recorded in the HS treatments compared with the treatment containing no HS. No significant differences were found among HS type. HS considerably increased LC50 values irrespective of type, from 1.29 (0 mg/L HS) to 2.12 % (AHA); 2.19 (Suwannee River humic acid) and 2.22 % (Suwannee River fulvic acid). These results support previous work that HS decrease the toxicity of AMD to freshwater organisms, but with the novel finding that this ability occurs irrespective of HS type. These results increase the stock of knowledge regarding HS and may contribute to a possible remediation option for AMD environments.

Published

2014

38. Influence of Aldrich humic acid and metal precipitates on survivorship of mayflies (Atalophlebiaspp.) to acid mine drainage

Author

Susan Kinnear, L. J. Duivenvoorden, and Aleicia Holland

Subjects

chemistry.chemical_classification, Atalophlebia, food.ingredient, Ecology, Health, Toxicology and Mutagenesis, Heavy metals, Metal toxicity, Acid mine drainage, eye diseases, Metal, food, chemistry, visual_art, Environmental chemistry, Toxicity, Dissolved organic carbon, visual_art.visual_art_medium, Environmental Chemistry, Humic acid

Abstract

Humic substances (HS) have been shown to decrease the toxicity of environmental stressors, but knowledge of their ability to influence the toxicity of multiple stressors such as metal mixtures and low pH associated with acid mine drainage (AMD) is still limited. The present study investigated the ability of HS to decrease toxicity of AMD to mayflies (Atalophlebia spp.). The AMD was collected from the Mount Morgan (Mount Morgan, Queensland, Australia) open pit. Mayflies were exposed to concentrations of AMD at 0%, 1%, 2%, 3%, and 4% in the presence of 0 mg/L, 10 mg/L, and 20 mg/L Aldrich humic acid (AHA). A U-shaped response was noted in all AHA treatments, with higher rates of mortality recorded in the 2% and 3% dilutions compared with 4%. This result was linked with increased precipitates in the lower concentrations. A follow-up trial showed significantly higher concentrations of precipitates in the 2% and 3% AMD dilutions in the 0 mg/L AHA treatment and higher precipitates in the 2% AMD, 10 mg/L and 20 mg/L AHA, treatments. Humic substances were shown to significantly increase survival of mayflies exposed to AMD by up to 50% in the 20 mg/L AHA treatment. Humic substances may have led to increased survival after AMD exposure through its ability to influence animal physiology and complex heavy metals. These results are valuable in understanding the ability of HS to influence the toxicity of multiple stressors. Environ Toxicol Chem 2014;33:567–572. © 2013 SETAC

Published

2014

39. The double-edged sword of humic substances: contrasting their effect on respiratory stress in eastern rainbow fish exposed to low pH

Author

Susan Kinnear, L. J. Duivenvoorden, and Aleicia Holland

Subjects

biology, Chemistry, Health, Toxicology and Mutagenesis, Fishes, Hard water, General Medicine, Hydrogen-Ion Concentration, Rainbowfish, biology.organism_classification, Pollution, Oxygen Consumption, Animal science, Rivers, Stress, Physiological, Environmental chemistry, Respiration, Toxicity, Animals, Environmental Chemistry, Ecotoxicology, Water Pollutants, Soft water, Respiratory system, Ecotoxicity, Humic Substances

Abstract

High amounts of humic substances (HS) are commonly found in natural acidic waterways and have been suggested to offer some protection against low pH. This study investigated the ability of HS to decrease respiratory stress in eastern rainbowfish (Melanotaenia splendida splendida) exposed to decreases in pH (range of 7-3.5) in soft and hard water. Repeated measures ANOVA revealed a significant difference in respiration (time taken for ten operculum movements) between pH and HS treatments, with a significant interaction between pH and HS present in 5/6 trials. Respiratory stress was shown to increase with increasing acidity, but significantly decreased in treatments with HS (10 and 20 mg/L) compared to those without. The fish exposed to pH treatments without HS also displayed increased hyperactivity, larger operculum movements and increased mucous production. Increased morbidity was shown in HS treatments at pH 3.5 (soft water) and at pH 4 (hard water) compared to treatment without HS. This indicates that HS is helpful in ameliorating the effects of decreased pH on respiration at sublethal pH levels; however, as pH decreases further, it seems that HS increases the toxicity (morbidity) of the low pH.

Published

2013

40. Interpreting the Possible Ecological Role(s) of Cyanotoxins: Compounds for Competitive Advantage and/or Physiological Aide?

Author

Aleicia Holland and Susan Kinnear

Subjects

microcystin, Resource (biology), cyanoprokaryotes, media_common.quotation_subject, Ecology (disciplines), Bacterial Toxins, saxitoxin, Pharmaceutical Science, Fresh Water, Review, Environment, Biology, cyanobacteria, Competitive advantage, Competition (biology), Anatoxin-a, chemistry.chemical_compound, Drug Discovery, cylindrospermopsin, Production (economics), anatoxin-a, lcsh:QH301-705.5, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Ecosystem, media_common, Ecology, Cyanotoxin, lcsh:Biology (General), chemistry, allelopathy, Marine Toxins, Water Microbiology, Marine toxin

Abstract

To date, most research on freshwater cyanotoxin(s) has focused on understanding the dynamics of toxin production and decomposition, as well as evaluating the environmental conditions that trigger toxin production, all with the objective of informing management strategies and options for risk reduction. Comparatively few research studies have considered how this information can be used to understand the broader ecological role of cyanotoxin(s), and the possible applications of this knowledge to the management of toxic blooms. This paper explores the ecological, toxicological, and genetic evidence for cyanotoxin production in natural environments. The possible evolutionary advantages of toxin production are grouped into two main themes: That of "competitive advantage" or "physiological aide". The first grouping illustrates how compounds produced by cyanobacteria may have originated from the need for a cellular defence mechanism, in response to grazing pressure and/or resource competition. The second grouping considers the contribution that secondary metabolites make to improved cellular physiology, through benefits to homeostasis, photosynthetic efficiencies, and accelerated growth rates. The discussion also includes other factors in the debate about possible evolutionary roles for toxins, such as different modes of exposures and effects on non-target (i.e., non-competitive) species. The paper demonstrates that complex and multiple factors are at play in driving evolutionary processes in aquatic environments. This information may provide a fresh perspective on managing toxic blooms, including the need to use a "systems approach" to understand how physico-chemical conditions, as well biological stressors, interact to trigger toxin production.

Published

2013

41. Nickel toxicity to cardinal tetra (Paracheirodon axelrodi) differs seasonally and among the black, white and clear river waters of the Amazon basin

Author

Chris M. Wood, Adalberto Luis Val, Tiago Gabriel Correia, D. Scott Smith, and Aleicia Holland

Subjects

0301 basic medicine, Wet season, Environmental Engineering, Fresh Water, 010501 environmental sciences, 01 natural sciences, 03 medical and health sciences, Rivers, Nickel, Metals, Heavy, Dry season, Dissolved organic carbon, Animals, Paracheirodon, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, Cardinal tetra, Total organic carbon, biology, Chemistry, Ecological Modeling, Fishes, biology.organism_classification, Pollution, 6. Clean water, Acute toxicity, Carbon, 030104 developmental biology, 13. Climate action, Environmental chemistry, Toxicity, Seasons, Water Pollutants, Chemical

Abstract

This study investigated the acute toxicity of nickel (Ni) to cardinal tetra (Paracheirodon axelrodi), within the three main water types of the Amazon basin: black (Rio Negro), white (Rio Solimoes) and clear (Rio Tapajos) during the wet and dry season at pH 7 (representative of white and clear rivers) and pH 4 (representative of black waters). The influence of dissolved organic carbon (DOC) quality on Ni toxicity within the three waters was also explored via the use of DOC isolates. Differences in water chemistry, DOC quality and ion concentrations were shown between waters and between seasons. Toxicity of Ni was shown to vary between river waters, seasons, and pHs. Ni was significantly less toxic during the dry season at pH 4 in all three river waters; for example, black water during the wet season had an LC50 of 9.72 mg Ni/L compared to 41.5 mg Ni/L during the dry season. At pH 7, contrasting effects in toxicity between seasons were shown between black and clear waters (black: wet = 28.9 mg/L, dry = 17.3 mg/L; clear: wet = 13.8 mg/L, dry = 24.1 mg/L). There were no significant differences in Ni toxicity for white waters at pH 7 (white: wet = 22.2 mg/L, dry = 21.8). Overall, Ni was shown to be more toxic at pH 7 than at pH 4 except in black water during the wet season. Toxicity of Ni at pH 4 was positively related to DOC concentration and amount of humic-like and fulvic-like DOC and negatively related to fluorescence index. Therefore, at pH 4, Ni is more toxic in waters containing more allochthonous DOC, consisting of higher amounts of humic-like and fulvic-like components. LC50 values for the different DOC concentrates at the same DOC concentration of 4.5 mg/L (black: 26.8 mg/L; white: 73.3 mg/L; clear: 49.2) support the river water findings at pH 4 (Ni more toxic in presence of black DOC) indicating that DOC quality alone can influence Ni toxicity at this pH.

Published

2016

42. Naturally acidic waterways: conceptual food webs for better management and understanding of ecological functioning

Author

Susan Kinnear, L. J. Duivenvoorden, and Aleicia Holland

Subjects

chemistry.chemical_classification, Ecology, Ecology (disciplines), Global warming, Biodiversity, Aquatic Science, Habitat, chemistry, Dissolved organic carbon, Environmental science, Terrestrial ecosystem, Organic matter, Water quality, Nature and Landscape Conservation

Abstract

Naturally acidic fresh waters have high conservation value, with their habitats supporting a high level of biodiversity as well as providing for rare organisms that are specially adapted to life in low-pH environments. Food webs within naturally acidic waterways are heavily reliant on the input of large amounts of organic matter from the surrounding terrestrial environment. Although these systems are found worldwide, the increasing threats of global climate change and urban developments are placing naturally acidic environments under threat of catastrophic changes to their ecology. Despite this, studies of these unique systems remain in their infancy, especially when compared with systems acidified by anthropogenic means. This paper aims to explore the varying influences on key food-web elements in naturally acidic waterways, particularly with regard to allochthonous organic matter (AOM). A conceptual model for the food webs of naturally acidic environments is presented, with the aim of providing a framework to understand the ecological functioning of these under-studied systems. This information will be critical in informing management decisions as naturally acidic streams are challenged by increasing environmental pressures. The possibility that dissolved organic carbon (DOC) can buffer organisms in naturally acidic environments against the toxicity caused by low pH is also explored. Copyright © 2012 John Wiley & Sons, Ltd.

Published

2012

43. Influence of Aldrich humic acid and metal precipitates on survivorship of mayflies (Atalophlebia spp.) to acid mine drainage

Author

Aleicia, Holland, Leo J, Duivenvoorden, and Susan H W, Kinnear

Subjects

Insecta, Metals, Heavy, Animals, Queensland, Hydrogen-Ion Concentration, Wastewater, Humic Substances, Mining, Water Pollutants, Chemical

Abstract

Humic substances (HS) have been shown to decrease the toxicity of environmental stressors, but knowledge of their ability to influence the toxicity of multiple stressors such as metal mixtures and low pH associated with acid mine drainage (AMD) is still limited. The present study investigated the ability of HS to decrease toxicity of AMD to mayflies (Atalophlebia spp.). The AMD was collected from the Mount Morgan (Mount Morgan, Queensland, Australia) open pit. Mayflies were exposed to concentrations of AMD at 0%, 1%, 2%, 3%, and 4% in the presence of 0 mg/L, 10 mg/L, and 20 mg/L Aldrich humic acid (AHA). A U-shaped response was noted in all AHA treatments, with higher rates of mortality recorded in the 2% and 3% dilutions compared with 4%. This result was linked with increased precipitates in the lower concentrations. A follow-up trial showed significantly higher concentrations of precipitates in the 2% and 3% AMD dilutions in the 0 mg/L AHA treatment and higher precipitates in the 2% AMD, 10 mg/L and 20 mg/L AHA, treatments. Humic substances were shown to significantly increase survival of mayflies exposed to AMD by up to 50% in the 20 mg/L AHA treatment. Humic substances may have led to increased survival after AMD exposure through its ability to influence animal physiology and complex heavy metals. These results are valuable in understanding the ability of HS to influence the toxicity of multiple stressors.

Published

2013

44. Humic substances increase survival of freshwater shrimp Caridina sp. D to acid mine drainage

Author

Aleicia Holland, Susan Kinnear, and L. J. Duivenvoorden

Subjects

Health, Toxicology and Mutagenesis, chemistry.chemical_element, Mineralogy, Fresh Water, Zinc, Toxicology, Mining, Decapoda, Metals, Heavy, Humic acid, Animals, Humic Substances, chemistry.chemical_classification, Cadmium, biology, Chemistry, Freshwater shrimp, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Acid mine drainage, Pollution, Shrimp, Caridina, Environmental chemistry, Toxicity, Queensland, Water Pollutants, Chemical

Abstract

Humic substances (HS) are known to decrease the toxicity of heavy metals to aquatic organisms, and it has been suggested that they can provide buffering protection in low pH conditions. Despite this, little is known about the ability for HS to increase survival to acid mine drainage (AMD). In this study, the ability of HS to increase survival of the freshwater shrimp (Caridina sp. D sensu Page et al. in Biol Lett 1:139-142, 2005) to acid mine drainage was investigated using test waters collected from the Mount Morgan open pit in Central Queensland with the addition of Aldrich humic acid (AHA). The AMD water from the Mount Morgan open pit is highly acidic (pH 2.67) as well as contaminated with heavy metals (1780 mg/L aluminum, 101 mg/L copper [Cu], 173 mg/L manganese, 51.8 mg/L zinc [Zn], and 51.8 mg/L iron). Freshwater shrimp were exposed to dilutions in the range of 0.5 % to 5 % AMD water with and without the addition of 10 or 20 mg/L AHA. In the absence of HS, all shrimp died in the 2.5 % AMD treatment. In contrast, addition of HS increased survival in the 2.5 % AMD treatment by ≤66 % as well as significantly decreased the concentration of dissolved Cu, cobalt, cadmium, and Zn. The decreased toxicity of AMD in the presence of HS is likely to be due to complexation and precipitation of heavy metals with the HS; it is also possible that HS caused changes to the physiological condition of the shrimp, thus increasing their survival. These results are valuable in contributing to an improved understanding of potential role of HS in ameliorating the toxicity of AMD environments.

Published

2012

45. Effect of key water quality variables on macroinvertebrate and fish communities within naturally acidic wallum streams

Author

L. J. Duivenvoorden, Aleicia Holland, and Susan Kinnear

Subjects

Blackwater, geography, geography.geographical_feature_category, Ecology, Biogeochemistry, Biota, Estuary, STREAMS, Aquatic Science, Plankton, Oceanography, Water quality, Ecology, Evolution, Behavior and Systematics, Invertebrate

Abstract

Adverse impacts of acidification on aquatic biota have been observed worldwide; however, most reports are based on fresh waters acidified by anthropogenic means. By contrast, naturally low pH values may not affect biota within naturally acidic fresh waters. This field study provides information on the water quality, macroinvertebrate and fish communities in little-studied, naturally acidic wallum streams in Central Queensland, Australia. Mid-range pH sites (pH 5–6) were compared with low pH sites (pH 5–3.8) to investigate the effect of pH and other key water quality variables on these communities. Field data indicated that pH had less of an effect in these systems in terms of biotic changes compared with other water quality variables, with dissolved oxygen (% saturation) identified as the key driver for changes in macroinvertebrate composition. Fish were present at all sites, including those with pH

Published

2015