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8. Carbapenemase gene blaOXA-48 detected at six freshwater sites in Northern Ireland discharging onto identified bathing locations.

Author

Brooks, Catherine, Mitchell, Elaine, Brown, James, O'Donovan, Sinéad, Carnaghan, Kelly-Anne, Bleakney, Eoin, and Arnscheidt, Joerg

Subjects
WATER pollution, SURFACE contamination, GENETIC markers, DRUG resistance in microorganisms, WATER sampling, COLIFORMS
Abstract

Faecal contamination of surface waters has the potential to spread not only pathogenic organisms but also antimicrobial resistant organisms. During the bathing season of 2021, weekly water samples, from six selected coastal bathing locations (n  = 93) and their freshwater tributaries (n  = 93), in Northern Ireland (UK), were examined for concentrations of faecal indicator bacteria Escherichia coli and intestinal enterococci. Microbial source tracking involved detection of genetic markers from the genus Bacteroides using PCR assays for the general AllBac marker, the human HF8 marker and the ruminant BacR marker for the detection of human, and ruminant sources of faecal contamination. The presence of beta-lactamase genes bla OXA-48, bla KPC, and bla NDM-1 was determined using PCR assays for the investigation of antimicrobial resistance genes that are responsible for lack of efficacy in major broad-spectrum antibiotics. The beta-lactamase gene bla OXA-48 was found in freshwater tributary samples at all six locations. bla OXA-48 was detected in 83% of samples that tested positive for the human marker and 69% of samples that tested positive for the ruminant marker over all six locations. This study suggests a risk of human exposure to antimicrobial resistant bacteria where bathing waters receive at least episodically substantial transfers from such tributaries. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Rhamnolipids Mediate the Effects of a Gastropod Grazer in Regards to Carbon–Nitrogen Stoichiometry of Intertidal Microbial Biofilms.

Author

Gill, Stephanie P., Kregting, Louise, Banat, Ibrahim M., Arnscheidt, Joerg, and Hunter, William R.

Subjects
BIOSURFACTANTS, BIOFILMS, RHAMNOLIPIDS, GASTROPODA, STOICHIOMETRY, ECOSYSTEMS
Abstract

Microbial biofilms have co-evolved with grazing animals, such as gastropods, to develop mutually beneficial relationships. Although microbial biofilms demonstrate resilience and resistance to chemical exposure, pre-existing relationships can be negatively affected by chemical input. In this study, we determined how the grazer, Littorina littorea (common periwinkle sea snail), and a biological surfactant (rhamnolipid) interact on a phototrophic marine biofilm. Biofilms were cultured in 32 twenty-liter buckets at the Queen's University Marine Laboratory in Portaferry, Northern Ireland on clay tiles that were either exposed to 150 ppm of a rhamnolipid solution or that had no chemical exposure. L. littorea were added into half of the buckets, and biofilms were developed over 14 days. Biofilms exposed to grazing alone demonstrated high tolerance to the disturbance, while those growing on rhamnolipid-exposed substrate demonstrated resistance but experienced slight declines in carbon and stoichiometric ratios. However, when exposed to both, biofilms had significant decreases in stoichiometry and declined in productivity and respiration. This is problematic, as continuing marine pollution increases the likelihood that biofilms will be exposed to combinations of stressors and disturbances. Loss of biofilm productivity within these areas could lead to the loss of an important food source and nutrient cycler within the marine ecosystem. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Impact of dietary protein content on growth of the white-clawed crayfish Austropotamobius pallipes (Lereboullet, 1858) (Decapoda, Astacidae) in captive rearing for conservation.

Author

Cartwright, Allison, Rice, Andrew R., Dooley, James S. G., Smyth, John, and Arnscheidt, Joerg

Subjects
CRAYFISH, DIETARY proteins, DECAPODA, LOW-protein diet, WEIGHT gain, GERMPLASM
Abstract

The white-clawed crayfish, Austropotamobius pallipes is endangered throughout its entire biogeographic range in Europe due to infection with Aphanomyces astaci (crayfish plague) and habitat deterioration. Ex situ propagation is of increasing importance to safeguard genetic resources and enable restocking measures after the pathogen's disappearance. This study aimed to quantify the impact of crude protein content on growth response and survival of white-clawed crayfish as optimal growth efficiency of white-clawed crayfish captive rearing has remained largely unexplored. Three separate 80 day feeding trials were conducted: juvenile monosex and juvenile mixed sex crayfish fed medium and high protein diets, and mixed sex adult crayfish fed low and high protein diets. Survival, weight gain and carapace length gain were measured bi-weekly during the trials. Growth response as the relative gain in cephalothorax length in juvenile mixed sex assemblages was significantly higher for the medium protein diet (Mdn = 19.4) than for the high protein diet (Mdn = 15.2, U = 7.84 , p = 0.009) with an average carapace length increase of 18.3% compared to 16.1% for the medium and high protein diet, respectively. However, there was no significant difference in the relative weight gain of juvenile mixed sex assemblages. All data for weight gain and carapace length gain for the juvenile monosex assemblages and adult mixed sex assemblages were not significant in response to diets. Thus, there was no obvious advantage of a high protein diet in the captive rearing of A. pallipes and in the case of the juvenile mixed sex assemblage the higher protein content can reduce growth in terms of size. Résumé: L'écrevisse à pattes blanches Austropotamobius pallipes est en danger dans toute son aire biogéographique en Europe à cause d'une infection par Aphanomyces astaci (peste de l'écrevisse) et de la détérioration de son habitat. La propagation ex-situ est d'une importance croissante afin de préserver les ressources génétiques et permettre des mesures de ré-apprivoisement après la disparition du pathogène. Cette étude a pour but de quantifier l'impact du contenu en protéine brute sur la croissance et la survie de l'écrevisse à pattes blanches car son taux de croissance optimale en captivité est resté peu exploré. Trois essais séparés sur 80 jours ont été conduits: des juvéniles de même sexe et des juvéniles des deux sexes nourris avec des régimes moyens ou élevés en protéine et des adultes de sexe mélangés nourris avec des régimes bas et élevés en protéine. La survie, le gain de poids et la longueur de la carapace ont été mesurés deux fois par semaine au cours des essais. La réponse en croissance évaluée par le gain relatif de la longueur du céphalothorax chez les juvéniles avec sexes mélangés a été significativement plus élevée pour le régime moyen en protéine (Mdn = 19,4) que pour le régime élevé en protéine (Mdn = 15,2, U = 7 , 84 , p = 0 , 009) avec une augmentation moyenne de la longueur de la carapace de 18,3% comparé au 16,1% pour les régimes moyen et élevé en protéine. Cependant, il n'y a pas eu de différence significative dans l'augmentation de poids chez les juvéniles de sexe mélangés. Tous les résultats pour l'augmentation de poids et la longueur de la carapace en réponse aux différents régimes pour les assemblages de juvéniles de même sexe n'ont pas été significatifs. Ainsi il n'y a pas d'avantage pour une régime élevé en protéine dans l'élevage en captivité d' A. pallipes et dans le cas d'un assemblage de juvéniles de sexe mélangé la haute teneur en protéine peut même réduire la croissance en taille. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Eutrophication in the Blackwater River Catchment, Ireland.

Author

Meire, Patrick, Coenen, Marleen, Lombardo, Claudio, Robba, Michela, Sacile, Roberto, Jordan, Phil, Ward, Colleen, Arnscheidt, Joerg, and McCormick, Suzanne

Abstract

The Ulster Blackwater River has a cross-border catchment and is one of the major inflowing rivers of Lough Neagh. It is a traditional salmon fishery that has been impacted by channelisation and eutrophication. There is evidence linking agricultural soils as sources of acute mass phosphorus transfer to the river system during storm events and chronic phosphorus transfers from other sources compound this during non-storm periods. Management of this particular impact is being demonstrated in a project in three 5km2 sub-catchments of the Blackwater River. The aims are to define and mitigate against both acute and chronic phosphorus transfers and to focus this management within a landscape framework. This work integrates agricultural stakeholders with scientists and a tripartite organization of local jurisdictions. Keywords: eutrophication; phosphorus; catchments [ABSTRACT FROM AUTHOR]

Published
2007
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16. Environmental management and conservation of Ireland's small marl lakes and their crayfish populations

Author

Wilson, Raymond, Arnscheidt, Joerg, McElarney, Yvonne, Lucy, Frances, McGonigle, Chris, and Dooley, James

Subjects
Lake sediments, Phosphorus release, Eutrophication, In-lake remediation, Calcium nitrate dosing, Radon, Radon-222, Groundwater quantification, White-clawed crayfish, Austropotamobius pallipes, Trapping surveys, Magheraveely, Kilroosky Lough
Abstract

Oligotrophic marl lakes have exceptional water clarity and are rare habitats for associated species but are also susceptible to deterioration because of nutrient enrichment. This thesis aimed to determine the current status and cause of eutrophication at the Magheraveely/Kilroosky Marl Loughs SAC (Northern Ireland, UK), investigate mitigation measures, estimate groundwater influx, and assess the population status of co-designated and endangered white-clawed crayfish Austropotamobius pallipes. The surveyed nine lakes failed EU Water Framework Directive nutrient standards. During thermal stratification anoxic hypolimnia resulted in sediment Phosphorus (P) release that maintained the current trophic status. In extrapolations from measurements on sediment cores from Kilroosky Lough, sediment in hypoxia contributed 0.022 mg P L⁻¹ to the whole-lake concentration. Sediment P release decreased by 59% with aeration and by 60% after removing the upper 10 cm sediment. CaNO3 dosing supressed P release at water NO3 concentrations above 5.6 mg L⁻¹ . Groundwater discharge was measured with a RAD7 radon detector customised to process 16 L water samples. A ²²²Rn mass balance estimated annual groundwater contributions between 40% and 160% of lake volume and between 15% and 62% of total water input depending on site. Trapping surveys and mark-recapture surveys mapped crayfish presence and assessed population size. There was substantial abundance in two lakes and low-level presence in two lakes with one first record. Resampling with a Monte Carlo method investigated the relationship between survey effort and variability of catch per unit effort (CPUE). Even high trapping efforts yielded CPUE results with an excess of 20% relative standard deviation. Therefore, an assessment of conservation targets requires surveys with a measure of uncertainty. Lake restoration and survival of crayfish populations need mitigation of surface water P transfers and inhibition of sediment P release e.g., by CaNO3 dosing to stabilise marl lake self-cleaning mechanisms.

Published
2023

17. Soil phosphorus, hydrological risk and water quality carrying capacities in agricultural catchments.

Author

Scott, Alison, Cassidy, Rachel, Arnscheidt, Joerg, and Jordan, Phil

Subjects
*PHOSPHORUS in soils, *WATER quality, *AGRICULTURE, *SOIL testing, *WATERSHEDS, *AGRICULTURAL productivity
Abstract

[Display omitted] • Soil P, HSA and instream P relationships were compared across three catchments. • Instream particulate P linked to soil P but not as strongly as soluble reactive P. • High soil P catchment carrying capacities vary with soluble reactive P thresholds. • Carrying capacity for catchment/farm area proposed as 13% for high soil P. • All CSAs are water quality risks and require targeted mitigation. To support profitable agricultural production, nutrients, including phosphorus (P) are applied to soils. However, to avoid over-application and mobilisation of excess P, in-soil concentrations must be maintained at the agronomic optimum (crop requirement) through soil test P (STP) data. Areas above optimum STP (e.g., Olsen P) status have been linked to elevated instream soluble reactive P (SRP) concentrations. For example, when this status is combined with hydrologically sensitive areas (HSAs), excess P can be mobilised and transported directly to surface waters. Catchment carrying capacities for high STP are a possible management strategy to reduce these pressures. The aim of this study was to investigate the transferability of catchment carrying capacity approaches using primary and secondary datasets. Field by field STP status and LiDAR derived HSAs (2 m grid resolution) were compared with instream SRP concentrations using combinations of least squares regressions. The high range of STP catchment carrying capacities (15 % − 44 %, depending on the regression used) was influenced by the variation of instream SRP concentration thresholds (48 – 71 µg L-1) that are determined using altitude and alkalinity factors. However, a single SRP threshold of 35 µg L-1 reduced the catchment STP carrying capacity to a smaller range (10 % − 16 %), with a mean of 13 %. The analysis showed that instream particulate P concentrations were also related to above optimum STP but to a lesser degree and that all HSAs were vulnerable to P loss when soils were above optimum STP. Targeted management strategies should follow a "treatment-train" approach starting with reducing the catchment or farm area above agronomic optimum STP to a carrying capacity (proposed here as 13 %), followed by interception measures located at HSA breakthrough and delivery points to reduce both instream SRP concentration and load. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Ecological impacts of biological and chemical surfactants on aquatic biofilm growth, metabolism, and carbon cycling

Author

Gill, Stephanie, Banat, Ibrahim, Arnscheidt, Joerg, and Schelker, Jakob

Subjects
Aquatic toxicology, Rhamnolipid, Sodium dodecyl sulphate, Marine, Freshwater, Metagenomics
Abstract

Surfactants are researched for their ability to reduce biofouling and biofilm build up in medical and industrial environments. Constant usage of these chemicals both as anti-biofilm agents and within personal care products has led to an increase in their presence environmentally. This thesis studied the effects of surfactants on marine and freshwater biofilms which are important to local aquatic biogeochemical cycling. Exposure of biofilms to the synthetic surfactant, sodium dodecyl sulphate, and biological surfactant, rhamnolipid, led to alterations in community composition, significant decreases in biodiversity, and increases in antimicrobial resistance gene retention. Overall, more sensitive taxa such as Arenimonas, decreased in favor of more resistant, and potentially pathogenic taxa, including Brevundimonas. Rhamnolipid exposed biofilms retained eight of the nine identified antimicrobial resistance genes while SDS retained five and the control retained four. Surfactant exposure also altered biofilm metabolic activity. Increases in activity of the extracellular enzymes beta glucosidase and leucine aminopeptidase occurred after rhamnolipid exposure while decreases occurred after exposure to SDS. Carbon: Nitrogen also decreased significantly when rhamnolipid and grazer exposure occurred together, disrupting a previously beneficial holobiont relationship between grazers and biofilm. Overall, both biological and synthetic surfactant exposure have direct effects on freshwater and marine biofilm structure and metabolic activity. This could lead to future biofilm loss and compositional changes, with implications for decreases in local biogeochemical cycling, and human and environmental health hazards.

Published
2022

19. Colloidal phosphorus transfer processes in the soil-groundwater-surface water continuum

Author

Fresne, Maelle, Jordan, Phil, and Arnscheidt, Joerg

Subjects
Agricultural catchments, Nutrient, Pollutant, Mobilisation, Delivery, River, Storm event, Rainfall
Abstract

To better understand the critical processes controlling where and when phosphorus (P) can be transferred to groundwater (GW) and later delivered to catchment streams, this study investigated highly mobile soil colloidal P (Pcoll) and other P fractions in the soil-groundwater-surface water continuum. Three experiments were undertaken. Firstly an investigation into soil chemical and fertilizer influences on soluble (< 450 nm) and total medium-sized colloidal P (TPcoll; 200-450 nm) at the batch scale; secondly an investigation into static and dynamic physical controls on water flow at the soil profile scale, and implications for P transfer to shallow GW; and finally, at the hillslope scale, an investigation into meteorological influences on the below-ground delivery of TPcoll and total fine, nano-particulate and truly dissolved P (TFPcoll; < 200 nm) fractions to streams. Soil Fe content and degree of P saturation increased soil TPcoll and soluble P, respectively. Synthetic fertilizer influenced TPcoll while cattle slurry did not; the latter increased soluble P. The downslope and midslope zones had similar soil hydraulic properties and subsurface water flow dynamics. Inter-annually, higher total rainfall increased water flow peaks and shallower GW level mobilised soil P which further increased GW P concentrations. The Al-rich catchment with lower soil (macro)porosity and higher bedrock hydraulic conductivity was dominated by fine reactive P (FRPcoll) in GW and in the stream. The Fe-rich catchment with higher soil (macro)porosity and lower bedrock hydraulic conductivity was dominated by coarser particulate P in GW and by FRPcoll in the stream. Rainfall event characteristics controlled the dominating hydrological flowpaths and mobilised P sources which led to contrasting contribution of TFPcoll in a receiving stream between rainfall events, even though the GW P contribution was similar. These Pcoll investigations could contribute to a better identification of the critical areas and critical times where and when TPcoll and TFPcoll can be transferred to GW and later delivered to the stream. These findings can be used to better target costeffective mitigation measures to further reduce diffuse P pollution and support sustainable food production.

Published
2021

20. The emergence and transfer of antibiotic-resistant bacteria and antibiotic resistance genes in aquatic environments : effects of plankton interactions

Author

Olanrewaju, Temilola, Arnscheidt, Joerg, and Dooley, James

Subjects
Horizontal gene transfer, Conjugation, Enterococcus faecalis, Biofiltration, Zooplankton, Daphnia, Tetrahymena, Microalgae
Abstract

The environmental dimensions of the global health problem of antibiotic resistance have remained largely uncharted, particularly in regard to biotic interactions of waterborne bacteria. This thesis studied the effect of phytoplankton and zooplankton on horizontal gene transfer (HGT) in Enterococcus faecalis strains in experimental microcosms. HGT was investigated between an E. faecalis donor strain with the plasmid borne vancomycin resistance gene vanA and rifampicin-resistant recipient strains. Gene transfer frequency (GTF) of vanA in centrifugation-induced liquid mating assays at 37 oC (10-7 ) significantly exceeded GTF at 20 oC or 30 oC (10-8). Enhanced nutrient availability increased GTF from 10-7 to 10-5 in liquid mating assays, thus documenting the importance of energy resources to conjugation in E. faecalis. Active filter feeding increased vanA GTF in Daphnia-bacteria microcosms to a range of 1.5 × 10-8 – 3.3 ×10-7, and ingested enterococci remained viable inside Daphnia for at least four days. Filter feeding zooplankton may thus facilitate the emergence of multi-resistance and disseminate transconjugants in aquatic environments. Microalgae zooplankton feeds on may further enhance HGT. Microcosm experiments documented that Palmellopsis sp. enhanced vanA GTF by an order of magnitude, indicating that the algal cell mucilage was a suitable attachment substrate and energy source for conjugation. The ciliate Tetrahymena pyriformis also facilitated HGT in E. faecalis. In the presence of live ciliates vanA GTF was 10-6 – 10-5 , an order of magnitude higher than in ciliate-free controls. GTF was higher within vesicles than in the ambient medium; it increased with time and peaked after 24 h. Overall, this thesis highlights the potential effects of interactions between eukaryotic freshwater organisms and Enterococcus faecalis as a representative of Gram positive bacteria on the emergence and spread of antibiotic resistance. It also offers a projection of gene transfer frequencies under environmentally relevant conditions in lakes and wastewater treatment plants.

Published
2020

21. Bivalve populations in freshwater environments : viability, invasion, persistence and a potential role in the spread of antimicrobial resistance

Author

Strachan, Ben, Arnscheidt, Joerg, Dooley, James, McGonigle, Chris, Macintosh, Katrina Ann, and Rosell, R.

Subjects
639, Dreissena polymorpha, Zebra mussels, Lough Neagh, M. margaritifera, Pearl mussels, Host preference, Ballinderry River, Antimicrobial resistance, Filter feeders
Abstract

Dreissena polymorpha (zebra mussel) and Margaritifera margaritifera (pearl mussel) are freshwater bivalves. Both are found within the Neagh Bann Catchment in Northern Ireland UK. This project investigated the presence and abundance of D. polymorpha in Lough Neagh, the Lower Bann and Ballinrees reservoir. Whilst D. polymorpha has extended its previously known geographic range in the Neagh Bann catchment beyond the lough, the abundance of this notoriously invasive species has remained very low in Lough Neagh. Inhibiting factors were identified and investigated. Of particular importance was substrate suitability, as 85% of the lough bed is unsuitable for D. polymorpha settlement. Due to Lough Neagh's shallow depth and large surface area wind driven currents frequently resuspend particulate matter which inhibit mussel filter feeding and potentially smother sessile mussels. Water temperature, dissolved oxygen content and electrical conductivity of Lough Neagh did not exceed the tolerance range for D. polymorpha survival and replication. The abundance of the parasitic ciliate Conchophthirus acuminatus in D. polymorpha mussels was compared across Lough Erne, Lough Neagh, the Lower River Bann and Ballinrees Reservoir. The parasite presence/absence pattern suggested that the mussels arrived in Lough Neagh as adults and spread from there as larvae throughout the Neagh Bann catchment. DNA analysis of D. polymorpha from the same four sites provided no evidence for introductions from source areas with genetically different mussel strains. Salmonid fish from the Ballinderry River (Northern Ireland) were exposed to glochidiosis by freshwater pearl mussels (Margaritifera margaritifera) under semi-natural hatchery conditions. Genetically distinct pearl mussel populations from the upper and lower regions of the Ballinderry river both displayed glochidial host preference for river trout (Salmo trutta), notably Dollaghan, thus emphasising the importance of these endemic fish for the future survival of M. margaritifera within the Ballinderry River. No Ballinderry River pearl mussel glochidia survived the parasitic life stage on Atlantic Salmon (Salmo trutta) gills showed that older fish (1+ and 2+) carried greater encysted loads, although they were less susceptible to glochidial encystment than juvenile (0+) fish. Based on other studies glochidia excyst around day 350, in this study by day 337 all glochidia had excysted from host fish during captive bred trials. Margaritifera margaritifera glochidial fish host preference in the Ballinderry River for trout differs from host preference or other pearl mussel populations in Northern Ireland. It is therefore essential that fisheries management policy change conducts risk assessments at a catchment scale, in order to make good conversation and policy choices. An increasing frequency in the occurrence of bacterial multidrug resistance against antibiotics has raised the question about the potential contribution of environmental processed to this rise. In this study's laboratory experiments filter feeding by D. polymorpha had an effect on vancomycin resistance transfer in Enterococcus faecalis. Furthermore, the presence of phytoplankton (Palmellopsis sp.) facilitated higher transfer efficiencies. Presumed conjugal transfer of antimicrobial resistance in D. polymorpha occurred at a maximal transfer efficiency of 10-6. This is evidence for the ability of benthic filter feeders such as D. polymorpha to facilitate the emergence and spread of multidrug resistance against antibiotics among faecal bacteria in aquatic environments which receive pollutant transfers from faecal sources. Careful management of the Neagh Bann Catchment is required to limit the spread of invasive zebra mussels, to encourage the survival and recovery of pear mussel populations through good habitat management and host survival and to minimise the spread of antimicrobial resistance in the natural environment by improved waste and wastewater management.

Published
2019

22. Environmental change and high status water-bodies

Author

Gaffney, Gabriel, Arnscheidt, Joerg, Jordan, Phil, and Doody, Donnacha

Subjects
628.1, Water Quality, High Status, Water Framework Directive, Sediment, Flow, Streamflow, Invertebrates, Land Cover Change, Land Use Change
Abstract

High status water-bodies (HSWs), as designated under the European Union (EU) Water Framework Directive (WFD), are rivers, lakes, transitional waters and coastal waters, that are close to natural status, representing conditions that are largely unimpacted by anthropogenic activities. These HSWs are sensitive areas that require special attention. However, in recent years large declines in the number of HSWs in Ireland have been observed, with these declines being attributed to pressures from point source pollution or unintentional discharges, along with low intensity practices potentially resulting from changes in land use and land cover. With this background, this PhD set out to present a review of HSWs and their management strategies in the European Union, and to investigate in three separate studies, the potential for HSW deteriorations to be caused by: 1) land use and land cover change; 2) hydrological (streamflow) modifications; and 3) sediment pressures. For these three studies, HSWs in Ireland were determined to have either: "Lost" their high status (e.g. gone from high to good, moderate, poor or bad); consistently "Maintained" their high status; or "Gained" in status (e.g. from good to high). The review of HSWs in Europe (Chapter 1) highlighted how it may be counter-productive for countries to focus exclusively on achieving the "good" status objective of the WFD, while ignoring deteriorations to HSWs. Additionally, using case studies from four Member States with relatively large numbers of HSWs (Sweden, Austria, Ireland, and UK (Scotland)), the review assessed variations in strategies employed to manage HSWs. Based on these case studies it was determined that lag times between implementing management strategies and seeing actual benefits make assessing the effectiveness of such measures difficult, but that countries that have developed strategies may benefit from the sharing of knowledge, for example Ireland and Scotland. The land cover change study (Chapter 2) demonstrated methods for assessing land cover change using CORINE data for three time periods: 2006-2012, 2000-2006 and 2000-2012; and found that anthropogenically influenced changes in land use and land cover types were linked to declines in water body status, with a higher level of natural/semi-natural land occurring in Maintained catchments. For example, in the period 2006-2012, land that changed from Forestry to Heterogeneous Agricultural areas was 17.5 times more likely to result in Lost status, whereas land that remained as Forestry or remained as Inland Wetlands reduced the chance of Lost status occurring by 15% and 4% respectively. However, the similarity of land cover trends between sites that have Lost and Gained status provided further research questions. In the hydrological (streamflow) modifications study (Chapter 3), despite differences being found in Lotic Index for Flow Evaluation (LIFE) scores between the Lost and Maintained status categories, all LIFE scores were generally about 7.25 and reflective of rivers hosting invertebrate communities with a preference for medium/high streamflow rates. While some hydrometric stations in the wider study area did display changing streamflow trends, which may potentially be linked to drainage and/or change in status, the overall conclusion was that for most sites, streamflow alterations are not likely to have been a major factor leading to deteriorations. However, for certain sites, and potentially in combination with other stressors, streamflow alterations may be problematic. The sediment study (Chapter 4) found that, macro-invertebrate taxa occurring in HSWs were pre-dominantly sediment sensitive taxa. However, for two sediment specific metrics, the Proportion of Sediment-sensitive Index (PSI) and the Empirically-weighted PSI (E-PSI), significant differences were observed between sites that Lost status and those that Maintained status, implying that at some sites, sedimentation is impacting on macro-invertebrates. Again, no difference between Lost and Gained sites was observed, leaving an important caveat. While weak to moderate relationships were observed between the sediment metrics and the physical sediment variables, no difference between status categories for any of the physical sediment variables was observed, although this may be related to the sampling resolution. Chapter 4 also highlighted the potential for multiple-stressors, such as the interaction between sediment, organic pollution and streamflow alterations, to contribute to deteriorations in status. However, nutrient sampling indicated little or no evidence of nutrient enrichment at the majority of sample sites, and it is suggested that nutrient analysis at HSWs may be better served by higher resolution monitoring. Finally, key recommendations were suggested based on the overall findings of the PhD, that included: investigating if measures being implemented in catchments with Gained status may be replicated and possibly used to improve conditions at Lost status sites; and potentially including "impacting on high status water-bodies" as an additional category requiring Environmental Impact Assessments (especially in relation to drainage works).

Published
2019

23. Freshwater sponges and their interaction with bacteria through filtration, retention and antimicrobial properties

Author

Cartwright, Allison, McGonigle, Chris, Arnscheidt, Joerg, and Dooley, James

Subjects
615.7, Freshwater sponges, Conjugation, Antimicrobial properties, Filtering, Biomonitoring
Abstract

As filterfeeders, freshwater sponges encounter bacteria in streams, rivers and lakes including those from faecal sources like enterococci and coliforms, which can exhibit antibiotic resistance with potential clinical impacts through e.g. infection of humans from recreational use of these environments. Filterfeeding trials verified the potential of Irish freshwater sponges Ephydatia fluviatilis and Spongilla lacustris, which occupy wide ranges in the northern hemisphere, to reduce the abundance of Escherichia coli in ambient water. Plate counts of bacterial abundance were more reliable than monitoring methods involving turbidity or fluorescence measurements. Laboratory and field studies tested the application of the sponges for biomonitoring of microbial water quality. In the laboratory both sponge species retained Enterococcus faecalis in lower abundances than E. coli. Although gradual changes of abundance of enterococci and coliforms in sponge samples were also observed along a longitudinal river reach transect, the between river differences in retention of enterococci and coliforms were greater than within a single river. The sponges' potential for facilitating conjugal antibiotic resistance transfer was explored in microcosms with E. faecalis strains resistant to either vancomycin or rifampicin. Lack of a significant difference between transconjugant numbers on double selection plates from microcosms with live or dead sponges suggested that filtration activity had no decisive role in conjugal transfer of monitored resistance traits. Sponge gemmule surfaces were found to be associated with bacteria resistant to ampicillin, erythromycin, rifampicin, tetracycline, trimethoprim and vancomycin. Methanol extracts from freshwater sponges inhibited the growth of some nosocomial bacteria, with adult sponge extracts having a higher inhibitory effect than extracts from gemmule-grown sponges, indicating the contribution of the sponge microbiome. The antimicrobial properties of sponge samples varied with collection site, and the combination of sponge extracts from several sites caused the better inhibitor to become diluted and less effective as an antimicrobial agent.

Published
2018

24. How suitable is freshwater sponge Ephydatia fluviatilis (Linnaeus, 1759) for time-integrated biomonitoring of microbial water quality?

Author

Cartwright A, Dooley JSG, McGonigle CD, and Arnscheidt J

Abstract

Faecal pollution of water by bacteria has a negative effect on water quality and can pose a potential health hazard. Conventional surveillance of microbial water quality relies on the analysis of low-frequency spot samples and is thus likely to miss episodic or periodic pollution. This study aimed to investigate the potential of filter-feeding sponges for time-integrated biomonitoring of microbial water quality. Laboratory trials tested the effects of different ratios of bacterial abundance and the sequence of exposure on bacterial retention by the freshwater sponge Ephydatia fluviatilis (Linnaeus, 1759) to establish its potential to indicate bacterial exposure. Gemmule grown sponges were simultaneously exposed to Escherichia coli and Enterococcus faecalis but at different ratios (Trial 1) or individually exposed to each bacterial species but in different sequential order (Trial 2). The E. coli and E. faecalis retained in each sponge was quantified by culture on selective agars. Data analysis was conducted using the Kruskal-Wallis test and/or the Mann-Whitney U test to compare between the numbers of bacteria retained in each treatment. Additionally, the Wilcoxon matched-paired signed-rank test was used for comparison of the different bacterial abundances retained within each individual sponge. Sponges from all trials retained E. coli and E. faecalis in small numbers relative to the exposure (<0.05 % Trial 1 and <0.07 % Trial 2) but exhibited higher retention of E. coli . Higher abundance of either bacterial species resulted in significantly lower ( P <0.005) retention of the same species within sponges (Trial 1). An initial exposure to E. coli resulted in significantly higher ( P =0.040) retention of both bacterial species than when sponges were exposed to E. faecalis first (Trial 2).Bacterial retention by sponges was neither quantitatively representative of bacterial abundance in the ambient water nor the sequence of exposure. This implies either selective filtration or an attempt by sponges to prevent infection. However, freshwater sponges may still be useful in biomonitoring as qualitative time-integrated samplers of faecal indicator bacteria as they detect different bacteria present in the water even if their quantities cannot be estimated., Competing Interests: The authors declare that there are no conflicts of interests. All work was conducted by the authors. Kindly note that much of this work has been reported previously in my PhD thesis cited below (Cartwright, 2018)., (Copyright © 2024 Crown Copyright.)

Published
2024
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