Your search keyword '"Aherne J"' showing total 43 results

1. Examining the real-world up-titration of heart failure therapy and treatment related factors limiting optimisation in Irish nurse-led heart failure clinics

Author

Lehane, M, primary, Farrell, C, additional, Burke, E, additional, Nugent, C, additional, Molloy, A, additional, Aherne, J, additional, Corrigan, R, additional, Howley, C, additional, Mcnally, C, additional, Murphy, C, additional, Fall, S, additional, Maher, S, additional, Thorpe, R, additional, Mcgovern, N, additional, and Caples, N, additional

Published

2023

2. 4 Titration of heart failure guideline directed therapy: a comparison between the performance of Irish heart failure nurses and observational registries

Author

Lehane, M, primary, McGoey, O, additional, Caples, N, additional, Thorpe, R, additional, Molloy, A, additional, McNally, C, additional, McGovern, N, additional, Prithivirai, A, additional, Farrell, C, additional, Burke, E, additional, Gopal, V, additional, Fall, S, additional, Corrigan, R, additional, Murphy, C, additional, Blaine, C, additional, Maher, S, additional, Aherne, J, additional, and Howley, C, additional

Published

2023

3. Critical levels and loads and the regulation of industrial emissions in northwest British Columbia, Canada

Author

Williston, P., Aherne, J., Watmough, S., Marmorek, D., Hall, A., de la Cueva Bueno, P., Murray, C., Henolson, A., and Laurence, J.A.

Published

2016

4. Critical loads of acidity for 90,000 lakes in northern Saskatchewan: A novel approach for mapping regional sensitivity to acidic deposition

Author

Cathcart, H., Aherne, J., Jeffries, D.S., and Scott, K.A.

Published

2016

5. Plastic debris in lakes and reservoirs

Author

Nava, V, Chandra, S, Aherne, J, Alfonso, M, Antão-Geraldes, A, Attermeyer, K, Bao, R, Bartrons, M, Berger, S, Biernaczyk, M, Bissen, R, Brookes, J, Brown, D, Cañedo-Argüelles, M, Canle, M, Capelli, C, Carballeira, R, Cereijo, J, Chawchai, S, Christensen, S, Christoffersen, K, de Eyto, E, Delgado, J, Dornan, T, Doubek, J, Dusaucy, J, Erina, O, Ersoy, Z, Feuchtmayr, H, Frezzotti, M, Galafassi, S, Gateuille, D, Gonçalves, V, Grossart, H, Hamilton, D, Harris, T, Kangur, K, Kankılıç, G, Kessler, R, Kiel, C, Krynak, E, Leiva-Presa, À, Lepori, F, Matias, M, Matsuzaki, S, Mcelarney, Y, Messyasz, B, Mitchell, M, Mlambo, M, Motitsoe, S, Nandini, S, Orlandi, V, Owens, C, Özkundakci, D, Pinnow, S, Pociecha, A, Raposeiro, P, Rõõm, E, Rotta, F, Salmaso, N, Sarma, S, Sartirana, D, Scordo, F, Sibomana, C, Siewert, D, Stepanowska, K, Tavşanoğlu, Ü, Tereshina, M, Thompson, J, Tolotti, M, Valois, A, Verburg, P, Welsh, B, Wesolek, B, Weyhenmeyer, G, Wu, N, Zawisza, E, Zink, L, Leoni, B, Nava, Veronica, Chandra, Sudeep, Aherne, Julian, Alfonso, María B, Antão-Geraldes, Ana M, Attermeyer, Katrin, Bao, Roberto, Bartrons, Mireia, Berger, Stella A, Biernaczyk, Marcin, Bissen, Raphael, Brookes, Justin D, Brown, David, Cañedo-Argüelles, Miguel, Canle, Moisés, Capelli, Camilla, Carballeira, Rafael, Cereijo, José Luis, Chawchai, Sakonvan, Christensen, Søren T, Christoffersen, Kirsten S, de Eyto, Elvira, Delgado, Jorge, Dornan, Tyler N, Doubek, Jonathan P, Dusaucy, Julia, Erina, Oxana, Ersoy, Zeynep, Feuchtmayr, Heidrun, Frezzotti, Maria Luce, Galafassi, Silvia, Gateuille, David, Gonçalves, Vitor, Grossart, Hans-Peter, Hamilton, David P, Harris, Ted D, Kangur, Külli, Kankılıç, Gökben Başaran, Kessler, Rebecca, Kiel, Christine, Krynak, Edward M, Leiva-Presa, Àngels, Lepori, Fabio, Matias, Miguel G, Matsuzaki, Shin-Ichiro S, McElarney, Yvonne, Messyasz, Beata, Mitchell, Mark, Mlambo, Musa C, Motitsoe, Samuel N, Nandini, Sarma, Orlandi, Valentina, Owens, Caroline, Özkundakci, Deniz, Pinnow, Solvig, Pociecha, Agnieszka, Raposeiro, Pedro Miguel, Rõõm, Eva-Ingrid, Rotta, Federica, Salmaso, Nico, Sarma, S S S, Sartirana, Davide, Scordo, Facundo, Sibomana, Claver, Siewert, Daniel, Stepanowska, Katarzyna, Tavşanoğlu, Ülkü Nihan, Tereshina, Maria, Thompson, James, Tolotti, Monica, Valois, Amanda, Verburg, Piet, Welsh, Brittany, Wesolek, Brian, Weyhenmeyer, Gesa A, Wu, Naicheng, Zawisza, Edyta, Zink, Lauren, Leoni, Barbara, Nava, V, Chandra, S, Aherne, J, Alfonso, M, Antão-Geraldes, A, Attermeyer, K, Bao, R, Bartrons, M, Berger, S, Biernaczyk, M, Bissen, R, Brookes, J, Brown, D, Cañedo-Argüelles, M, Canle, M, Capelli, C, Carballeira, R, Cereijo, J, Chawchai, S, Christensen, S, Christoffersen, K, de Eyto, E, Delgado, J, Dornan, T, Doubek, J, Dusaucy, J, Erina, O, Ersoy, Z, Feuchtmayr, H, Frezzotti, M, Galafassi, S, Gateuille, D, Gonçalves, V, Grossart, H, Hamilton, D, Harris, T, Kangur, K, Kankılıç, G, Kessler, R, Kiel, C, Krynak, E, Leiva-Presa, À, Lepori, F, Matias, M, Matsuzaki, S, Mcelarney, Y, Messyasz, B, Mitchell, M, Mlambo, M, Motitsoe, S, Nandini, S, Orlandi, V, Owens, C, Özkundakci, D, Pinnow, S, Pociecha, A, Raposeiro, P, Rõõm, E, Rotta, F, Salmaso, N, Sarma, S, Sartirana, D, Scordo, F, Sibomana, C, Siewert, D, Stepanowska, K, Tavşanoğlu, Ü, Tereshina, M, Thompson, J, Tolotti, M, Valois, A, Verburg, P, Welsh, B, Wesolek, B, Weyhenmeyer, G, Wu, N, Zawisza, E, Zink, L, Leoni, B, Nava, Veronica, Chandra, Sudeep, Aherne, Julian, Alfonso, María B, Antão-Geraldes, Ana M, Attermeyer, Katrin, Bao, Roberto, Bartrons, Mireia, Berger, Stella A, Biernaczyk, Marcin, Bissen, Raphael, Brookes, Justin D, Brown, David, Cañedo-Argüelles, Miguel, Canle, Moisés, Capelli, Camilla, Carballeira, Rafael, Cereijo, José Luis, Chawchai, Sakonvan, Christensen, Søren T, Christoffersen, Kirsten S, de Eyto, Elvira, Delgado, Jorge, Dornan, Tyler N, Doubek, Jonathan P, Dusaucy, Julia, Erina, Oxana, Ersoy, Zeynep, Feuchtmayr, Heidrun, Frezzotti, Maria Luce, Galafassi, Silvia, Gateuille, David, Gonçalves, Vitor, Grossart, Hans-Peter, Hamilton, David P, Harris, Ted D, Kangur, Külli, Kankılıç, Gökben Başaran, Kessler, Rebecca, Kiel, Christine, Krynak, Edward M, Leiva-Presa, Àngels, Lepori, Fabio, Matias, Miguel G, Matsuzaki, Shin-Ichiro S, McElarney, Yvonne, Messyasz, Beata, Mitchell, Mark, Mlambo, Musa C, Motitsoe, Samuel N, Nandini, Sarma, Orlandi, Valentina, Owens, Caroline, Özkundakci, Deniz, Pinnow, Solvig, Pociecha, Agnieszka, Raposeiro, Pedro Miguel, Rõõm, Eva-Ingrid, Rotta, Federica, Salmaso, Nico, Sarma, S S S, Sartirana, Davide, Scordo, Facundo, Sibomana, Claver, Siewert, Daniel, Stepanowska, Katarzyna, Tavşanoğlu, Ülkü Nihan, Tereshina, Maria, Thompson, James, Tolotti, Monica, Valois, Amanda, Verburg, Piet, Welsh, Brittany, Wesolek, Brian, Weyhenmeyer, Gesa A, Wu, Naicheng, Zawisza, Edyta, Zink, Lauren, and Leoni, Barbara

Published

2023

6. Normative Mineralogy of 1170 Soil Profiles across Canada

Author

Aldis, M., Posch, M., Aherne, J., Aldis, M., Posch, M., and Aherne, J.

Abstract

Weathering of soil minerals provides base cations that buffer against acidity, and nutrients that support plant growth. In general, direct observations of soil minerals are rare; however, their abundance can be determined indirectly through soil geochemistry using normative-calculation procedures. This study compiled a data set of major oxide content from published and archived soil geochemical observations for 1170 sites across Canada (averaged over the soil profile [A, B, and C horizons], weighted by depth and bulk density to a maximum depth of 50 cm). Quantitative soil mineralogy (wt%) was systematically determined at each site using the normative method, ‘Analysis to Mineralogy’ (A2M); the efficacy of the approach was evaluated by comparison to X-ray Diffraction (XRD) mineralogy available for a subset of the study sites. At these sites, predicted A2M mineralogy was significantly related to estimated XRD, showing a strong linear relationship for plagioclase, quartz, and K-feldspar, and a moderate linear relationship for chlorite and muscovite. Further, the predicted A2M plagioclase content was almost identical to the estimated XRD soil mineralogy, showing no statistical difference. The Canada-wide predicted quantitative soil mineralogy was consistent with the underlying bedrock geology, such as in north-western Saskatchewan and north-eastern Alberta, which had high amounts of quartz due to the Western Canadian Sedimentary Basin. Other soil minerals (plagioclase, potassium feldspar, chlorite, and muscovite) varied greatly in response to changing bedrock geology across Canada. Normative approaches, such as A2M, provide a reliable approach for national-scale determination of quantitative soil mineralogy, which is essential for the assessment of soil weathering rates.

Published

2023

7. Plastic debris in freshwater systems worldwide

Author

Nava, V, Aherne, J, Alfonso, MB, Antão-Geraldes, AM, Attermeyer, K, Bao, R, Bartrons, M, Berger, SA, Biernaczyk, M, Bissen, R, Brookes, J, Brown, D, Candian, G, Cañedo-Argüelles, M, Canle, M, Capelli, C, Carballeira, R, Cereijo, JL, Chawchai, S, Chen, G, Christensen, ST, Christoffersen, KS, de Eyto, E, Delgado, J, Dornan, T, Doubek, JP, Dusaucy, J, Erina, O, Ersoy, Z, Feuchtmayr, H, Lepori, F, Frezzotti, ML, Galafassi, S, Gateuille, D, Gonçalves, V, Grossart, HP, Hamilton, DP, Harris, T, Kangur, K, Kankılıç, GB, Kessler, R, Kiel, C, Krynak, EM, Leiva-Presa, A, Matias, M, Matsuzaki, SS, McElarney, Y, Mitchell, M, Messyasz, B, Mlambo, M, Motitsoe, SN, Owens, C, Özkundakci, D, Pinnow, S, Pociecha, A, Raposeiro, P, Rõõm, EI, Rotta, F, Salmaso, N, Scordo, F, Sibomana, C, Siewert, D, Stepanowska, K, Sudeep, C, Tavşanoğlu, UN, Tereshina, M, Thompson, J, Tolotti, M, Valois, A, Verburg, P, Wesolek, B, Weyhenmeyer, G, Wu, N, Zawisza, E, Zink, L, Leoni, B, Nava, V, Aherne, J, Alfonso, M, Antão-Geraldes, A, Attermeyer, K, Bao, R, Bartrons, M, Berger, S, Biernaczyk, M, Bissen, R, Brookes, J, Brown, D, Candian, G, Cañedo-Argüelles, M, Canle, M, Capelli, C, Carballeira, R, Cereijo, J, Chawchai, S, Chen, G, Christensen, S, Christoffersen, K, de Eyto, E, Delgado, J, Dornan, T, Doubek, J, Dusaucy, J, Erina, O, Ersoy, Z, Feuchtmayr, H, Lepori, F, Frezzotti, M, Galafassi, S, Gateuille, D, Gonçalves, V, Grossart, H, Hamilton, D, Harris, T, Kangur, K, Kankılıç, G, Kessler, R, Kiel, C, Krynak, E, Leiva-Presa, A, Matias, M, Matsuzaki, S, Mcelarney, Y, Mitchell, M, Messyasz, B, Mlambo, M, Motitsoe, S, Owens, C, Özkundakci, D, Pinnow, S, Pociecha, A, Raposeiro, P, Rõõm, E, Rotta, F, Salmaso, N, Scordo, F, Sibomana, C, Siewert, D, Stepanowska, K, Sudeep, C, Tavşanoğlu, U, Tereshina, M, Thompson, J, Tolotti, M, Valois, A, Verburg, P, Wesolek, B, Weyhenmeyer, G, Wu, N, Zawisza, E, Zink, L, and Leoni, B

Subjects

reservoir, limnology, Settore BIO/07 - ECOLOGIA, pollution, lake, microplastic

Published

2022

8. Monitoring microplastics in the atmosphere and cryosphere in the circumpolar North: A case for multi-compartment monitoring

Author

Hamilton, B.M., Jantunen, L., Bergmann, Melanie, Vorkamp, K., Aherne, J., Magnusson, K., Herzke, Dorte, Granberg, Maria, Hallanger, Ingeborg G., Gomiero, A., Peeken, Ilka, Hamilton, B.M., Jantunen, L., Bergmann, Melanie, Vorkamp, K., Aherne, J., Magnusson, K., Herzke, Dorte, Granberg, Maria, Hallanger, Ingeborg G., Gomiero, A., and Peeken, Ilka

Abstract

The atmosphere and cryosphere have recently garnered considerable attention due to their role in transporting microplastics to and within the Arctic, and between freshwater, marine, and terrestrial environments. While investigating either in isolation provides valuable insight on the fate of microplastics in the Arctic, monitoring both provides a more holistic view. Nonetheless, despite the recent scientific interest, fundamental knowledge on microplastic abundance, and consistent monitoring efforts, are lacking for these compartments. Here, we build upon the work of the Arctic Monitoring and Assessment Programme’s Monitoring Guidelines for Litter and Microplastic to provide a roadmap for multi-compartment monitoring of the atmosphere and cryosphere to support our understanding of the sources, pathways, and sinks of plastic pollution across the Arctic. Overall, we recommend the use of existing standard techniques for ice and atmospheric sampling and to build upon existing monitoring efforts in the Arctic to obtain a more comprehensive pan-Arctic view of microplastic pollution in these two compartments.

Published

2022

9. Current State of Microplastic Pollution Research Data: Trends in Availability and Sources of Open Data

Author

Jenkins, Tia, Persaud, B., Cowger, Win, Szigeti, K., Roche, D.G., Clary, E., Slowinski, S., Lei, B., Abeynayaka, A., Nyadjro, E.S., Maes, T., Thornton Hampton, L., Bergmann, Melanie, Aherne, J., Mason, S.A., Honek, J., Rezanezhad, F., Lusher, A, Booth, A.M., Smith, R.D.L., Van Cappellen, P., Jenkins, Tia, Persaud, B., Cowger, Win, Szigeti, K., Roche, D.G., Clary, E., Slowinski, S., Lei, B., Abeynayaka, A., Nyadjro, E.S., Maes, T., Thornton Hampton, L., Bergmann, Melanie, Aherne, J., Mason, S.A., Honek, J., Rezanezhad, F., Lusher, A, Booth, A.M., Smith, R.D.L., and Van Cappellen, P.

Abstract

The rapid growth in microplastic pollution research is influencing funding priorities, environmental policy, and public perceptions of risks to water quality and environmental and human health. Ensuring that environmental microplastics research data are findable, accessible, interoperable, and reusable (FAIR) is essential to inform policy and mitigation strategies. We present a bibliographic analysis of data sharing practices in the environmental microplastics research community, highlighting the state of openness of microplastics data. A stratified (by year) random subset of 785 of 6,608 microplastics articles indexed in Web of Science indicates that, since 2006, less than a third (28.5%) contained a data sharing statement. These statements further show that most often, the data were provided in the articles’ supplementary material (38.8%) and only 13.8% via a data repository. Of the 279 microplastics datasets found in online data repositories, 20.4% presented only metadata with access to the data requiring additional approval. Although increasing, the rate of microplastic data sharing still lags behind that of publication of peer-reviewed articles on environmental microplastics. About a quarter of the repository data originated from North America (12.8%) and Europe (13.4%). Marine and estuarine environments are the most frequently sampled systems (26.2%); sediments (18.8%) and water (15.3%) are the predominant media. Of the available datasets accessible, 15.4% and 18.2% do not have adequate metadata to determine the sampling location and media type, respectively. We discuss five recommendations to strengthen data sharing practices in the environmental microplastic research community.

Published

2022

10. Microplastics in the atmosphere and cryosphere in the circumpolar North: A case for multi-compartment monitoring

Author

Hamilton, B.M., Jantunen, L., Bergmann, Melanie, Vorkamp, K., Aherne, J., Magnusson, K., Herzke, Dorte, Granberg, Maria, Hallanger, Ingeborg G., Gomiero, Alessio, Peeken, Ilka, Hamilton, B.M., Jantunen, L., Bergmann, Melanie, Vorkamp, K., Aherne, J., Magnusson, K., Herzke, Dorte, Granberg, Maria, Hallanger, Ingeborg G., Gomiero, Alessio, and Peeken, Ilka

Published

2022

11. PCN102 A Cost Comparison Study to Review Community Versus ACUTE Hospital Models of Nursing Care Delivered to Oncology Patients.

Author

O'Mahony, C., primary, Murphy, K.D., additional, O'Brien, G.L., additional, Hanan, T., additional, Mullen, L., additional, Aherne, J., additional, Keane, M., additional, Donnelan, P., additional, Davey, C., additional, Browne, H., additional, Malee, K., additional, and Byrne, S., additional

Published

2021

12. Predictive environmental modeling in the Lac Dasserat study

Author

Aherne, J, primary

Published

2016

13. Dynamic Modeling and Target Loads of Sulfur and Nitrogen for Surface Waters in Finland, Norway, Sweden, and the United Kingdom

Author

Posch, M., Aherne, J., Moldan, F., Evans, C.D., Forsius, M., Larssen, T., Helliwell, R., Cosby, B., Posch, M., Aherne, J., Moldan, F., Evans, C.D., Forsius, M., Larssen, T., Helliwell, R., and Cosby, B.

Abstract

The target load concept is an extension of the critical load concept of air pollution inputs to ecosystems. The advantage of target loads over critical loads is that one can define the deposition and the point in time (target year) when the critical (chemical) limit is no longer violated. This information on the timing of recovery requires dynamic modeling. Using a well-documented dynamic model, target loads for acidic deposition were determined for 848 surface waters across Finland, Norway, Sweden, and the United Kingdom for the target year 2050. In the majority of sites (n = 675), the critical ANC-limit was predicted to be achieved by 2050; however, for 127 sites, target loads were determined. In addition, 46 sites were infeasible, i.e., even a reduction of anthropogenic deposition to zero would not achieve the limit by 2050. The average maximum target load for sulfur was 38% lower than the respective critical load across the study lakes (n = 127). Target loads on a large regional scale can inform effects-based emission reduction policies; the current assessment suggests that reductions beyond the Gothenburg Protocol are required to ensure surface water recovery from acidification by 2050.

Published

2019

14. Modelling study of soil C, N and pH response to air pollution and climate change using European LTER site observations

Author

Holmberg, M., Aherne, J., Austnes, Kari, Beloica, J., De Marco, A., Dirnböck, T., Fornasier, M.F., Goergen, K., Futter, M., Lindroos, A.-J., Krám, P., Neirynck, J., Nieminen, T.M., Pecka, T., Posch, M., Pröll, G., Rowe, E.C., Scheuschner, T., Schlutow, A., Valinia, S., Forsius, M., Holmberg, M., Aherne, J., Austnes, Kari, Beloica, J., De Marco, A., Dirnböck, T., Fornasier, M.F., Goergen, K., Futter, M., Lindroos, A.-J., Krám, P., Neirynck, J., Nieminen, T.M., Pecka, T., Posch, M., Pröll, G., Rowe, E.C., Scheuschner, T., Schlutow, A., Valinia, S., and Forsius, M.

Abstract

Current climate warming is expected to continue in coming decades, whereas high N deposition may stabilize, in contrast to the clear decrease in S deposition. These pressures have distinctive regional patterns and their resulting impact on soil conditions is modified by local site characteristics. We have applied the VSD+ soil dynamic model to study impacts of deposition and climate change on soil properties, using MetHyd and GrowUp as pre-processors to provide input to VSD+. The single-layer soil model VSD+ accounts for processes of organic C and N turnover, as well as charge and mass balances of elements, cation exchange and base cation weathering. We calibrated VSD+ at 26 ecosystem study sites throughout Europe using observed conditions, and simulated key soil properties: soil solution pH (pH), soil base saturation (BS) and soil organic carbon and nitrogen ratio (C:N) under projected deposition of N and S, and climate warming until 2100. The sites are forested, located in the Mediterranean, forested alpine, Atlantic, continental and boreal regions. They represent the long-term ecological research (LTER) Europe network, including sites of the ICP Forests and ICP Integrated Monitoring (IM) programmes under the UNECE Convention on Long-range Transboundary Air Pollution (LRTAP), providing high quality long-term data on ecosystem response. Simulated future soil conditions improved under projected decrease in deposition and current climate conditions: higher pH, BS and C:N at 21, 16 and 12 of the sites, respectively. When climate change was included in the scenario analysis, the variability of the results increased. Climate warming resulted in higher simulated pH in most cases, and higher BS and C:N in roughly half of the cases. Especially the increase in C:N was more marked with climate warming. The study illustrates the value of LTER sites for applying models to predict soil responses to multiple environmental changes.

Published

2018

15. Regional assessment of the current extent of acidification of surface waters in Europe and North America

Author

Austnes, K., Aherne, J., Arle, J., Čičendajeva, M., Couture, S., Fölster, J., Garmo, O., Hruška, J., Monteith, D., Posch, M., Rogora, M., Sample, J., Skjelkvåle, B., Steingruber, S., Stoddard, J., Ulańczyk, R., van Dam, H., Velasco, M., Vuorenmaa, J., Wright, R., de Wit, H., Austnes, K., Aherne, J., Arle, J., Čičendajeva, M., Couture, S., Fölster, J., Garmo, O., Hruška, J., Monteith, D., Posch, M., Rogora, M., Sample, J., Skjelkvåle, B., Steingruber, S., Stoddard, J., Ulańczyk, R., van Dam, H., Velasco, M., Vuorenmaa, J., Wright, R., and de Wit, H.

Abstract

The current status of surface water acidification related to air pollution in Europe and North America has been assessed using country reports, monitoring data, critical loads and exceedance data, acid sensitivity and deposition maps, and data reported under the European Commission’s Water Framework Directive (WFD). Acidification is still observed in many countries, but the extent and severity vary. Maps of acid sensitivity and deposition suggest that surface water acidification is present in regions and countries for which no data or reports were delivered for the current assessment. Existing national monitoring varies in the ability to assess the spatial extent of acidification and the recovery responses of acidified sites. The monitoring requirements under the European Union’s National Emission Ceilings Directive are expected to reverse the recent decline in the number of monitoring sites observed in some countries. The information reported under the WFD is currently of limited value in assessing the extent of acidification of surface waters in Europe. Chemical recovery in response to reductions in acid deposition can be slow, and biological recovery can lag severely behind. Despite large and effective efforts across Europe and North America to reduce surface water acidification, air pollution still constitutes a threat to freshwater ecosystems.

Published

2018

16. Plastic debris in lakes and reservoirs

Author

Nava, Veronica, Chandra, Sudeep, Aherne, Julian, Alfonso, María B, Antão-Geraldes, Ana M, Attermeyer, Katrin, Bao, Roberto, Bartrons, Mireia, Berger, Stella A, Biernaczyk, Marcin, Bissen, Raphael, Brookes, Justin D, Brown, David, Cañedo-Argüelles, Miguel, Canle, Moisés, Capelli, Camilla, Carballeira, Rafael, Cereijo, José Luis, Chawchai, Sakonvan, Christensen, Søren T, Christoffersen, Kirsten S, de Eyto, Elvira, Delgado, Jorge, Dornan, Tyler N, Doubek, Jonathan P, Dusaucy, Julia, Erina, Oxana, Ersoy, Zeynep, Feuchtmayr, Heidrun, Frezzotti, Maria Luce, Galafassi, Silvia, Gateuille, David, Gonçalves, Vitor, Grossart, Hans-Peter, Hamilton, David P, Harris, Ted D, Kangur, Külli, Kankılıç, Gökben Başaran, Kessler, Rebecca, Kiel, Christine, Krynak, Edward M, Leiva-Presa, Àngels, Lepori, Fabio, Matias, Miguel G, Matsuzaki, Shin-Ichiro S, McElarney, Yvonne, Messyasz, Beata, Mitchell, Mark, Mlambo, Musa C, Motitsoe, Samuel N, Nandini, Sarma, Orlandi, Valentina, Owens, Caroline, Özkundakci, Deniz, Pinnow, Solvig, Pociecha, Agnieszka, Raposeiro, Pedro Miguel, Rõõm, Eva-Ingrid, Rotta, Federica, Salmaso, Nico, Sarma, S S S, Sartirana, Davide, Scordo, Facundo, Sibomana, Claver, Siewert, Daniel, Stepanowska, Katarzyna, Tavşanoğlu, Ülkü Nihan, Tereshina, Maria, Thompson, James, Tolotti, Monica, Valois, Amanda, Verburg, Piet, Welsh, Brittany, Wesolek, Brian, Weyhenmeyer, Gesa A, Wu, Naicheng, Zawisza, Edyta, Zink, Lauren, Leoni, Barbara, Nava, V, Chandra, S, Aherne, J, Alfonso, M, Antão-Geraldes, A, Attermeyer, K, Bao, R, Bartrons, M, Berger, S, Biernaczyk, M, Bissen, R, Brookes, J, Brown, D, Cañedo-Argüelles, M, Canle, M, Capelli, C, Carballeira, R, Cereijo, J, Chawchai, S, Christensen, S, Christoffersen, K, de Eyto, E, Delgado, J, Dornan, T, Doubek, J, Dusaucy, J, Erina, O, Ersoy, Z, Feuchtmayr, H, Frezzotti, M, Galafassi, S, Gateuille, D, Gonçalves, V, Grossart, H, Hamilton, D, Harris, T, Kangur, K, Kankılıç, G, Kessler, R, Kiel, C, Krynak, E, Leiva-Presa, À, Lepori, F, Matias, M, Matsuzaki, S, Mcelarney, Y, Messyasz, B, Mitchell, M, Mlambo, M, Motitsoe, S, Nandini, S, Orlandi, V, Owens, C, Özkundakci, D, Pinnow, S, Pociecha, A, Raposeiro, P, Rõõm, E, Rotta, F, Salmaso, N, Sarma, S, Sartirana, D, Scordo, F, Sibomana, C, Siewert, D, Stepanowska, K, Tavşanoğlu, Ü, Tereshina, M, Thompson, J, Tolotti, M, Valois, A, Verburg, P, Welsh, B, Wesolek, B, Weyhenmeyer, G, Wu, N, Zawisza, E, Zink, L, and Leoni, B

Subjects

plastic pollution, Lakes, Settore BIO/07 - ECOLOGIA, Plastic, microplastic, lentic systems

Abstract

Plastic debris is thought to be widespread in freshwater ecosystems globally1. However, a lack of comprehensive and comparable data makes rigorous assessment of its distribution challenging2,3. Here we present a standardized cross-national survey that assesses the abundance and type of plastic debris (>250 μm) in freshwater ecosystems. We sample surface waters of 38 lakes and reservoirs, distributed across gradients of geographical position and limnological attributes, with the aim to identify factors associated with an increased observation of plastics. We find plastic debris in all studied lakes and reservoirs, suggesting that these ecosystems play a key role in the plastic-pollution cycle. Our results indicate that two types of lakes are particularly vulnerable to plastic contamination: lakes and reservoirs in densely populated and urbanized areas and large lakes and reservoirs with elevated deposition areas, long water-retention times and high levels of anthropogenic influence. Plastic concentrations vary widely among lakes; in the most polluted, concentrations reach or even exceed those reported in the subtropical oceanic gyres, marine areas collecting large amounts of debris4. Our findings highlight the importance of including lakes and reservoirs when addressing plastic pollution, in the context of pollution management and for the continued provision of lake ecosystem services.

Published

2023

17. Global patterns and predictors of microplastic occurrence and abundance in lentic systems

Author

Nava, Veronica, Frezzotti, Maria Luce, Aherne, Julian, Alfonso, María B., Geraldes, Ana Maria, Attermeyer, Katrin, Bah, Abdou R., Bao, Roberto, Bartrons, Mireia, Berger, Stella, Biernaczyk, Marcin, Breider, Florian, Brookes, Justin, Cañedo-Argüelles, Miguel, Canle, Moisés, Capelli, Camilla, Carballeira, Rafael, Cereijo, Jose Luís, Christensen, Søren T., Christoffersen, Kirsten Seestern, Clayer, Francois, Eyto, Elvira de, Domis, Lisette N. de Senerpont, Delgado, Martín Jordi, Doubek, Jonathan, Eaton, Ashley, Seyda, Erdogan, Erina, Oxana, Ersoy, Zeynep, Feuchtmayr, Heidrun, Fugère, Vincent F., Galafassi, Silvia, Gonçalves, Vítor, Grossart, Hans-Peter, Hamilton, David, Hanson, Paul C., Harris, Ted, Kankılıç, Gökben Başaran, Kessler, Rebecca, Jacquet, Stéphan, Kangur, Külli, Kiel, Christine, Knoll, Lesley, Kokorīte, Ilga, Lavoie, Isabelle, Leiva-Presa, Àngels, Lepori, Fabio, Lusher, Amy, Macintyre, Sally, Matias, Miguel, Matsuzaki, Shin-Ichiro, McCarthy, Valerie, McElarney, Yvonne, McNally, David, Belay, Berte Mekonen, Messyasz, Beata, Mlambo, Musa, Nandini, Sarma, Nodine, Emily, Özen, Arda, Ozkundakci, Deniz, Vazquez Perez, Ricardo, Pociecha, Agnieszka, Raposeiro, Pedro M., Rõõm, Eva-Ingrid, Salmaso, Nico, Singaraju, S.S. Sarma, Saulnier-Talbot, Émilie, Scordo, Facundo, Sibomana, Claver, Stepanowska, Katarzyna, Tavşanoğlu, Ülkü Nihan, Tolotti, Monica, Udoh, Abel, Urrutia-Cordero, Pablo, Valois, Amanda, Vandergoes, Marcus, Verburg, Piet, Volta, Pietro, Wain, Danielle, Wesolek, Brian, Weyhenmeyer, Gesa, Wightman, Ryan, Wood, Susie, Naicheng, Wu, Zawiska, Izabela, Zawisza, Edyta, Zink, Lauren, Leoni, Barbara, Nava, V, Frezzotti, M, Aherne, J, Alfonso, M, Antão-Geraldes, A, Attermeyer, K, Bah, A, Bao, R, Bartrons, M, Berger, S, Biernaczyk, M, Breider, F, Brookes, J, Cañedo-Argüelles, M, Canle, M, Capelli, C, Carballeira, R, Cereijo, J, Christensen, S, Christoffersen, K, Clayer, F, De Eyto, E, De Senerpont Domis, L, Delgado, M, Doubek, J, Eaton, A, Erdogan, S, Erina, O, Ersoy, Z, Feuchtmayr, H, Fugère, V, Galafassi, S, Gonçalves, V, Grossart, H, Hamilton, D, Hanson, P, Harris, T, Kankılıç, G, Kessler, R, Jacquet, S, Kangur, K, Kiel, C, Knoll, L, Kokorīte, I, Lavoie, I, Leiva-Presa, A, Lepori, F, Lusher, A, Macintyre, S, Matias, M, Matsuzaki, S, Mccarthy, V, Mcelarney, Y, Mcnally, D, Belay, B, Messyasz, B, Mlambo, M, Nandini, S, Nodine, E, Özen, A, Ozkundakci, D, Perez, R, Pociecha, A, Raposeiro, P, Rõõm, E, Salmaso, N, Sarma, S, Saulnier-Talbot, E, Scordo, F, Sibomana, C, Stepanowska, K, Tavşanoğlu, U, Tolotti, M, Udoh, A, Urrutia Cordera, P, Valois, A, Vandergoes, M, Verburg, P, Volta, P, Wain, D, Wesolek, B, Weyhenmeyer, G, Wightman, R, Wood, S, Wu, N, Zawiska, I, Zawisza, E, Zink, L, and Leoni, B

Subjects

reservoir, watershed feature, lake, micro-Raman spectroscopy, Plastics, microplastic

Abstract

The majority of microplastic research has focused on seawater, with fewer than 4% of microplasticsrelated studies occurring on freshwaters. The limited available information suggests that the abundance of microplastics in freshwaters is often as high or even higher than marine environments. However, comprehensive investigations on occurrence and fate of microplastics in freshwaters are scarce and highly fragmented, partly because detection and identification of microplastic particles is rather complex. In addition, up to now, harmonized and standardized protocols for the sampling and analysis of microplastics in freshwaters do not exist, and studies with different research aims and hypotheses often report unstandardized results, making comparison among studies difficult. In the present study, we performed the first global standardized sampling and analysis effort to investigate the occurrence and distribution of microplastics in surface water of lakes and reservoirs with different anthropogenic impacts. Participants aim to collect water samples of freshwater systems with different features (e.g., area, depth, thermal behavior, watershed), following a common protocol. This 18 establishes the collection of samples by horizontal trawling of a plankton net and, after treatment with hydrogen peroxide, the polymer identification through micro-Raman spectroscopy. This GLEON project will allow obtaining comparable data about microplastic contamination in different freshwater systems around the globe. With this global dataset, our goals are to determine whether a relationship exists between the abundance of microplastics and the waterbody/watershed attributes and understand which factors are likely to influence the occurrence of microplastics in surface water of lentic systems. info:eu-repo/semantics/publishedVersion

Published

2020

18. Organic carbon dry deposition outpaces atmospheric processing with unaccounted implications for air quality and freshwater ecosystems.

Author

Liggio J, Makar P, Li SM, Hayden K, Darlington A, Moussa S, Wren S, Staebler R, Wentzell J, Wheeler M, Leithead A, Mittermeier R, Narayan J, Wolde M, Blanchard D, Aherne J, Kirk J, Lee C, Stroud C, Zhang J, Akingunola A, Katal A, Cheung P, Ghahreman R, Majdzadeh M, He M, Ditto J, and Gentner DR

Abstract

Dry deposition is an important yet poorly constrained process that removes reactive organic carbon from the atmosphere, making it unavailable for airborne chemical reactions and transferring it to other environmental systems. Using an aircraft-based measurement method, we provide large-scale estimates of total gas-phase organic carbon deposition rates and fluxes. Observed deposition rates downwind of large-scale unconventional oil operations reached up to 100 tC hour -1 , with fluxes exceeding 0.1 gC m -2 hour -1 . The observed deposition lifetimes (τ dep ) were short enough (i.e., 4 ± 2 hours) to compete with chemical oxidation processes and affect the fate of atmospheric reactive carbon. Yet, much of this deposited organic carbon cannot be accounted for using traditional gas-phase deposition algorithms used in regional air quality models, signifying underrepresented, but influential, chemical-physical surface properties and processes. Furthermore, these fluxes represent a major unaccounted contribution of reactive carbon to downwind freshwater ecosystems that outweigh terrestrial sources, necessitating the inclusion of dry deposition in aquatic carbon balances and models.

Published

2025

19. The threat from ozone to vegetation in Ireland.

Author

McHugh K, Cummins T, and Aherne J

Subjects

Ireland, Environmental Monitoring, Risk Assessment, Ozone analysis, Air Pollutants analysis, Air Pollutants toxicity, Plants drug effects

Abstract

Ozone is the most damaging air pollutant to vegetation globally. Metrics of accumulated ozone above a concentration threshold (e.g. AOT40, ppb·h) have been widely used to assess ozone risk. However, there is growing consensus that accumulated Phytotoxic Ozone Dose (POD) above a receptor-specific critical stomatal flux threshold (y; nmol O 3 m -2 s -1 ), expressed per unit of projected leaf area, provides a more reliable risk assessment, as it considers ozone entering the leaf (PODy, mmol m -2 leaf area). Few studies have assessed both concentration- and flux-based metrics using site-specific observations of ozone and meteorology. In this study we assessed the risk that ozone poses to five vegetation types across eight sites in Ireland during 2005-2021, using AOT40 and PODy risk metrics, and we predicted impacts using dose-response relationships. Long-term trends in both metrics were also assessed. The PODy critical level for vegetation protection was exceeded for all vegetation types, with exceedances most common at Atlantic coastal sites, and for tree species (beech POD 1 15.7-25.7 mmol/m 2 PLA). When PODy and AOT40 results were normalised based on their respective critical levels, predicted impacts were higher for PODy. There were significant increases in PODy for three vegetation types at rural sites during the study period, which also experienced increases in temperature and global solar radiation. The long-term trends were consistent with other European studies that show decreases in AOT40 and increases in PODy. While ozone concentrations in Ireland are relatively low (39-75 μg/m 3 five-year average range), the humid climate and longer growing season may lead to elevated stomatal ozone uptake and thereby a risk to vegetation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

20. The Fate of Microplastics in Rural Headwater Lake Catchments.

Author

Welsh B, Paterson AM, Yao H, McConnell C, and Aherne J

Subjects

Ontario, Environmental Monitoring, Microplastics analysis, Lakes, Water Pollutants, Chemical analysis

Abstract

In this study, the fluxes of microplastics (mp) were quantified during a 12-month period for three rural headwater lake catchments in Muskoka-Haliburton, south-central Ontario, Canada. A novel catchment particle balance approach was used, incorporating inputs from atmospheric deposition and stream inflows against lake outflow and sedimentation. This approach provides the first reported observation-based estimates of microplastic residence time in freshwater lakes. Atmospheric deposition had the highest daily microplastic flux (3.95-8.09 mp/m 2 /day), compared to the inflow streams (2.21-2.34 mp/m 2 /day), suggesting that it is the dominant source of microplastics to rural regions. Approximately 44-71% of the deposited microplastics were retained in the terrestrial catchments and 30-49% of the microplastics in the stream inflows were retained in the study lakes. Given that output fluxes ranged from 0.72-3.76 mp/m 2 /day in the sediment and 1.18-1.66 mp/m 2 /day in the lake outflows, the microplastic residence time was estimated to be between 3 and 12 years, suggesting that lakes are an important reservoir for microplastics. Fibers were the dominant shape in atmospheric deposition, streamwater, and lake water; however, in lake sediment, there was a higher proportion of fragments. Across all media, poly(ethylene terephthalate) was the dominant polymer identified (23%).

Published

2024

21. Soil carbon pools and fluxes following the regreening of a mining and smelting degraded landscape.

Author

Levasseur PA, Aherne J, Basiliko N, Emilson EJS, Preston MD, Sager EPS, and Watmough SA

Subjects

Soil, Carbon metabolism, Forests, Trees metabolism, Ecosystem, Pinus metabolism

Abstract

Increasing forest cover by regreening mining and smelting degraded landscapes provides an opportunity for global carbon (C) sequestration, however, the reported effects of regreening on soil C processes are mixed. One of the world's largest regreening programs is in the City of Greater Sudbury, Canada and has been ongoing since 1978. Prior to regreening, soils in the City of Greater Sudbury area were highly eroded, acidic, rich in metals, and poor in nutrients. This study used a chronosequence approach to investigate how forest soil C pools and fluxes have changed with stand age in highly "eroded" sites with minimal soil cover (n = 6) and "stable" sites covered by soil (n = 6). Encouragingly, the relationship between stand age and soil C processes (litterfall, litter decomposition, soil respiration, fine root growth) at both stable and eroded sites were comparable to observations reported for jack pine (Pinus banksiana Lamb.) and red pine (Pinus resinosa Ait.) plantations that have not been subject to over a century of industrial impacts. There was a strong "home-field advantage" for local decomposers, where litter decomposition rates were higher using a site-specific pine litter compared with a common pine litter. Higher soil respiration at eroded sites was linked to higher soil temperature, likely because of a more open tree canopy. Forest floor C pools increased with stand age while mineral soil C and aggregate C concentrations decreased with stand age. This loss of soil C is small relative to the substantial increases in aboveground tree and forest floor C pools, leading to a sizeable increase in total ecosystem C pools following regreening., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2023. Published by Elsevier B.V. All rights reserved.)

Published

2023

22. Robinia pseudoacacia L. (Black Locust) Leaflets as Biomonitors of Airborne Microplastics.

Author

Jafarova M, Grifoni L, Renzi M, Bentivoglio T, Anselmi S, Winkler A, Di Lella LA, Spagnuolo L, Aherne J, and Loppi S

Abstract

Here we investigate the suitability of Robinia pseudoacacia L. (black locust) leaflets as a novel biomonitor of airborne microplastics (MPs) including tyre wear particles (TWPs). Leaflets were collected from rural roadside locations (ROs, n = 5) and urban parks (UPs, n = 5) in Siena, Italy. MPs were removed by washing, identified by stereomicroscope, and analysed for polymer type by Fourier transform infrared spectroscopy. Daily MP deposition was estimated from leaf area. The mass magnetic susceptibility and the bioaccumulation of traffic-related potentially toxic elements (PTEs) were also analysed. The total number of MPs at ROs was significantly higher at 2962, dominated by TWPs, compared with 193 in UPs, where TWPs were not found. In contrast, total microfibres were significantly higher in UPs compared with ROs (185 vs. 86). Daily MP deposition was estimated to range from 4.2 to 5.1 MPs/m 2 /d across UPs and 29.9-457.6 MPs/m 2 /d across ROs. The polymer types at ROs were dominated by rubber (80%) from TWPs, followed by 15% polyamide (PA) and 5% polysulfone (PES), while in UPs the proportion of PES (44%) was higher than PA (22%) and polyacrylonitrile (11%). The mean mass magnetic susceptibility, a proxy of the bioaccumulation of traffic-related metallic particles, was higher at ROs (0.62 ± 0.01 10 -8 m 3 /kg) than at UPs (-0.50 ± 0.03 10 -8 m 3 /kg). The content of PTEs was similar across sites, except for significantly higher concentrations of Sb, a tracer of vehicle brake wear, at ROs (0.308 ± 0.008 µg/g) compared with UPs (0.054 ± 0.006 µg/g). Our results suggest that the waxy leaflets and easy determination of surface area make Robinia an effective biomonitor for airborne MPs including TWPs.

Published

2023

23. Effects of Shape and Size on Microplastic Atmospheric Settling Velocity.

Author

Preston CA, McKenna Neuman CL, and Aherne J

Subjects

Plastics, Environmental Monitoring, Microplastics, Water Pollutants, Chemical analysis

Abstract

Microplastics (MPs) have been found in all terrestrial, marine, and riparian environments, including remote regions. This implies that atmospheric transport is an important pathway when considering MP sources and global budgets. However, limited empirical data exist to aid in effective development and parameterization of MP atmospheric transport models. This study measured the atmospheric settling and horizontal drift velocities of various sizes and shapes of MPs in two specially designed settling columns using a laser Doppler anemometer. The settling velocities were generally lower than modeled values, while shape exerted the most significant influence on the rate of settling. Rather than conforming to well-established, power-law models, each class of MP exhibited a linear but different relationship between MP size and settling velocity, with markedly higher slopes for the spheres and cylinders as compared to the films and fibers. Shape also had a substantial influence on particle drift, with the fibers and films exhibiting the greatest horizontal motion, as suggestive of their changing orientation in response to particle interactions and fluid drag. As a consequence, microplastic particles identified within atmospheric deposition samples collected at a single point may derive from entirely different sources representing a wide range in transport distance.

Published

2023

24. Plastic debris in lakes and reservoirs.

Author

Nava V, Chandra S, Aherne J, Alfonso MB, Antão-Geraldes AM, Attermeyer K, Bao R, Bartrons M, Berger SA, Biernaczyk M, Bissen R, Brookes JD, Brown D, Cañedo-Argüelles M, Canle M, Capelli C, Carballeira R, Cereijo JL, Chawchai S, Christensen ST, Christoffersen KS, de Eyto E, Delgado J, Dornan TN, Doubek JP, Dusaucy J, Erina O, Ersoy Z, Feuchtmayr H, Frezzotti ML, Galafassi S, Gateuille D, Gonçalves V, Grossart HP, Hamilton DP, Harris TD, Kangur K, Kankılıç GB, Kessler R, Kiel C, Krynak EM, Leiva-Presa À, Lepori F, Matias MG, Matsuzaki SS, McElarney Y, Messyasz B, Mitchell M, Mlambo MC, Motitsoe SN, Nandini S, Orlandi V, Owens C, Özkundakci D, Pinnow S, Pociecha A, Raposeiro PM, Rõõm EI, Rotta F, Salmaso N, Sarma SSS, Sartirana D, Scordo F, Sibomana C, Siewert D, Stepanowska K, Tavşanoğlu ÜN, Tereshina M, Thompson J, Tolotti M, Valois A, Verburg P, Welsh B, Wesolek B, Weyhenmeyer GA, Wu N, Zawisza E, Zink L, and Leoni B

Subjects

Ecosystem, Surveys and Questionnaires, Urbanization, Human Activities, Lakes chemistry, Plastics analysis, Plastics classification, Water Pollution analysis, Water Pollution statistics & numerical data, Water Supply

Abstract

Plastic debris is thought to be widespread in freshwater ecosystems globally 1 . However, a lack of comprehensive and comparable data makes rigorous assessment of its distribution challenging 2,3 . Here we present a standardized cross-national survey that assesses the abundance and type of plastic debris (>250 μm) in freshwater ecosystems. We sample surface waters of 38 lakes and reservoirs, distributed across gradients of geographical position and limnological attributes, with the aim to identify factors associated with an increased observation of plastics. We find plastic debris in all studied lakes and reservoirs, suggesting that these ecosystems play a key role in the plastic-pollution cycle. Our results indicate that two types of lakes are particularly vulnerable to plastic contamination: lakes and reservoirs in densely populated and urbanized areas and large lakes and reservoirs with elevated deposition areas, long water-retention times and high levels of anthropogenic influence. Plastic concentrations vary widely among lakes; in the most polluted, concentrations reach or even exceed those reported in the subtropical oceanic gyres, marine areas collecting large amounts of debris 4 . Our findings highlight the importance of including lakes and reservoirs when addressing plastic pollution, in the context of pollution management and for the continued provision of lake ecosystem services., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

25. Moss Bags as Biomonitors of Atmospheric Microplastic Deposition in Urban Environments.

Author

Bertrim C and Aherne J

Abstract

Microplastics (plastic particles <5 mm) were first identified in the environment during the 1970s and have since become ubiquitous across every environmental compartment. However, few studies have focused on atmospheric microplastics, and even fewer have used biological monitoring to assess their atmospheric deposition. Here, we assess the efficacy of moss bags as an active biomonitoring technique for atmospheric microplastic deposition. Moss ( Pleurozium schreberi ) bags were exposed in duplicate at nine deployment sites across a gradient of urban intensity in southern Ontario, Canada. A total of 186 microplastics (mp) were detected in the moss bags, resulting in a mean accumulation of 7.9 mp g -1 dry weight moss across all sites during the exposure period (45 days). The median microplastic length was 0.56 mm (range 0.03-4.51 mm), and the dominant microplastic type was fibres (47%), followed by fragments (39%). Microplastic accumulation significantly increased with urban intensity, ranging from 3.7 mp g -1 in low-density suburban areas to 10.7 mp g -1 in densely populated and trafficked urban areas. In contrast, microfibres by proportion dominated in suburban (62%) compared with urban areas (33%). Microplastic deposition was estimated to range from 21 to 60 mp m -2 day -1 across the nine deployment sites. The results suggest that moss bags may be a suitable technique for the active biomonitoring of atmospheric microplastic deposition in urban environments.

Published

2023

26. Compounds of wastewater origin in remote upland lakes in Ireland.

Author

Aherne J, Yargeau V, and Metcalfe CD

Subjects

Wastewater analysis, Ecosystem, Ireland, Organic Chemicals, Environmental Monitoring, Lakes chemistry, Water Pollutants, Chemical analysis

Abstract

It is well established that persistent organic pollutants are transported long distances in the atmosphere and deposited into aquatic and terrestrial ecosystems in remote areas, including high altitude lakes. The objective of this research was to evaluate whether compounds of wastewater origin were present in four remote upland headwater lakes in Ireland that primarily receive loadings from atmospheric deposition. Using Polar Organic Chemical Integrative Samplers (POCIS) deployed in the lakes for 60 to 68 days, seven compounds were detected at levels that could be quantified but 25 of the target compounds were not detected. The detected compounds included the cannabinoid metabolite, tetrahydrocannabinol carboxylate (THC-COOH), codeine, acetaminophen (paracetamol), ibuprofen, and the artificial sweeteners, sucralose, and saccharin, which were all present at concentrations estimated to be < 125 ng/L. Caffeine was also present in the lakes at estimated concentrations between 213 and 1320 ng/L. Cocaine and tramadol were detected in POCIS deployed in some of the lakes, but at levels below the limits of quantitation. The highest concentrations of the target analytes were detected in two lakes located in the eastern part of Ireland. These data are consistent with regional atmospheric transport of these compounds originating from wastewater treatment plants in Ireland. However, contaminants from wastewater treatment plants in the United Kingdom may also be a source in these upland lakes that are located far from emissions of urban pollution., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

27. Lichen Biomonitoring of Airborne Microplastics in Milan (N Italy).

Author

Jafarova M, Contardo T, Aherne J, and Loppi S

Abstract

This study investigated the deposition of airborne microplastics (MPs) in the urban area of Milan across 12 sites and at a background control site (northern Italy) using 3-month transplants of the fruticose lichen species Evernia prunastri (exposed in triplicate). The primary objective was to evaluate the use of lichen transplants for the assessment of MP deposition; as such, the study sites spanned a gradient in vehicular traffic and population density across four concentric land-use zones (i.e., urban parks, centre, semi-periphery, and periphery). A total of 149 MP particles were detected in the exposed lichen samples; 94.6% were classified as fibres and 5.4% as fragments. The control site and urban parks experienced a similar number of MPs per gram of dry lichen (20-26 MP/g), while a higher number of MPs were detected in central and peripheral areas (44-56 MP/g), with a clear increasing gradient from the city centre towards the periphery. We estimated the MP deposition in Milan to be in the range of 43-119 MPs m 2 /d, indicating that people living in Milan are exposed to airborne MPs, with potential health effects. This study suggests that lichens are suitable biomonitors of airborne MPs under a relatively short exposure of three months in urban environments.

Published

2022

28. Atmospheric deposition of anthropogenic particles and microplastics in south-central Ontario, Canada.

Author

Welsh B, Aherne J, Paterson AM, Yao H, and McConnell C

Subjects

Environmental Monitoring, Ontario, Plastics, Spectrum Analysis, Raman, Microplastics, Water Pollutants, Chemical analysis

Abstract

Microplastics are ubiquitous in the environment; however, few studies have examined their abundance in atmospheric deposition in pristine environments, remote from anthropogenic emission sources. In the current study, atmospheric deposition samples were collected for 13 months (February 2019-March 2020) from four precipitation chemistry monitoring stations located in Muskoka-Haliburton, south-central Ontario, Canada. Anthropogenic particles (i.e., synthetic particles but not necessarily plastic) were observed at each station with an average deposition rate of 57 particles/m 2 /day (range from 32 to 73 particles/m 2 /day). Of the anthropogenic particles identified, 12% were plastic resulting in an average microplastic (mp) deposition rate of 7 mp/m 2 /day (range 4-9 mp/m 2 /day). Approximately 85% of the particles were fibres with fragments comprising only 15%. The most common particle colours were blue and red with 50% of the fragments and 84% of fibres being one of these two colours. Raman spectroscopy determined that polyamide and polyethylene terephthalate were the two most abundant polymers at 24% and 19%, respectively. Across the four stations anthropogenic particle concentrations were significantly related to wind speed (r s = 0.32 to 0.62) and temperature (r s = -0.53 to -0.84), with a noticeable increase in particle concentration when wind shifted from the west (average of 7.2 mp/L) to the south-east (average of 11.5 mp/L). Faster wind speed resulted in a larger airshed source area, and the seasonal effect associated with changes in temperature and wind direction led to changes in potential source regions that were contributing microplastics, such as the Greater Toronto Area (>200 km away)., Competing Interests: Declaration of competing interest The authors declare no competing financial or personal interests., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

29. Ecological thresholds under atmospheric nitrogen deposition for 1200 herbaceous species and 24 communities across the United States.

Author

Wilkins K, Clark C, and Aherne J

Subjects

United States, Nitrogen analysis, Plants

Abstract

Nitrogen (N) emissions and atmospheric deposition have increased significantly during the last century and become a stressor for many N-sensitive plant species. Understanding individual and community herbaceous plant species thresholds to atmospheric N deposition can inform emissions reduction policy. Here, we present results using Threshold Indicator Taxa Analysis (TITAN) applied to more than 1200 unique plant species and 24 vegetation communities (i.e., alliances) across the United States (US) to assess vulnerability to N deposition. Alliance-level thresholds (change points) for species decreasing in abundance along the gradient ranged from 1.8 to 14.3 kg N ha ─1  year ─1 and tended to be lower in the west than the east, which suggests that eastern communities, where N deposition has been historically higher, may have already lost many sensitive species. For the species that were present in more than one alliance, over half had a variable response to the N deposition gradient, suggesting that local factors affect vulnerability. Significant progress has been made during the past 30 years to reduce N emissions, which has reduced the percentage of plots at risk to N deposition from 72% to 35%. Nevertheless, over a third of plots remain at risk, and an average reduction of N deposition of 20% would protect half of the plots where N deposition exceeds community thresholds. Furthermore, the alliance- and species-level change points determined in this study may be used to inform N critical loads., (© 2022 John Wiley & Sons Ltd.)

Published

2022

30. Dissolved Organic Carbon in Lakes of the Athabasca Oil Sands Region: Is Color an Indicator of Acid Sensitivity?

Author

Blanchard D, Aherne J, and Makar P

Subjects

Alberta, Carbon, Environmental Monitoring, Oil and Gas Fields, Lakes, Water Pollutants, Chemical analysis

Abstract

The Athabasca oil sands region (AOSR) in north-eastern Alberta, Canada, contains the world's third largest known bitumen deposit. Oil sands (OS) operations produce emissions known to contribute to acidic and alkaline deposition, which can alter the chemistry of the receiving surface waters, including dissolved organic carbon (DOC). Little is known regarding the natural variability of aquatic DOC among lakes within the AOSR. Surface-water data from 50 lakes were analyzed; variables known to be associated with the light-absorptive properties of DOC (true color [TC]) were evaluated to investigate the potential variability of chromophoric DOC (CDOC). Comparison of TC and DOC revealed two distinct "high" (H) and "low" (L) lake subpopulations, the former being characterized by high relative TC and low DOC, and the latter by the inverse. The H lakes were defined by variables known to be associated with CDOC, while L lakes appeared well-buffered potentially owing to groundwater inputs. The divergent optical properties between subpopulations appeared partially attributable to pH-limited Fe complexation. Trajectory analysis indicated that H lakes most likely to receive atmospheric deposition from OS sources experienced significantly lower pH. These results are contrary to previous studies that found OS emissions to have minimal acidifying effect over lakes throughout the AOSR.

Published

2021

31. A qualitative evaluation of community and acute hospital nursing oncology services in Ireland.

Author

O'Mahony C, Byrne S, Aherne J, Hanan T, Mullen L, Keane M, Browne H, Malee K, and Murphy KD

Subjects

Adult, Female, Humans, Ireland, Male, Middle Aged, Nursing Evaluation Research, Qualitative Research, Community Health Nursing, Neoplasms nursing, Nursing Service, Hospital, Oncology Nursing, Oncology Service, Hospital

Abstract

Purpose: Cancer patients are a particularly vulnerable population group, facing an increase in physical, mental, logistical and financial difficulties. This, as well as Ireland's increased focus on primary care with the Sláintecare health plan, led to the development of the Community Oncology Nursing Programme, where community nurses are trained to provide cancer care in the community. This paper sought to explore the lived experiences of the patients and nurses involved in this programme in order to examine its impact as well as determine facilitators and roadblocks for future development., Methods: A qualitative examination of the service was carried out by interviewing cancer patients receiving care as part of the programme as well as the nurses delivering care, both in the community and hospital day-ward. Thematic analysis was used., Results: Themes of improved patient experience, nurse-patient relationship, the importance of location and roadblocks to further implementation of the programme emerged. There was a universal belief that the programme offered benefits to the patient and improved their care in some manner., Conclusions: The Community Oncology Nursing Programme has been well received by both nurses and patients. The service provided by community nurses as part of this programme offers benefits to patients and an improved cancer service., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

32. Letter to the editor: Impacts of industrial atmospheric emissions on watershed export of dissolved ions in coastal streams: a Bayesian modeling approach.

Author

Watmough S, Aherne J, and Marmorek D

Subjects

Bayes Theorem, Ions, Nitrogen analysis, Environmental Monitoring, Rivers

Published

2021

33. Accumulation of airborne microplastics in lichens from a landfill dumping site (Italy).

Author

Loppi S, Roblin B, Paoli L, and Aherne J

Abstract

The aim of this study was to assess if lichens (Flavoparmelia caperata) surrounding a landfill dumping site in Italy accumulated higher amounts of microplastics compared with lichens at more distant sites. Lichen samples were collected at three sites along a transect from the landfill: close (directly facing the landfill), intermediate (200 m), and remote (1500 m). Anthropogenic microparticles (fibres and fragments) were determined visually after wet peroxide digestion of the samples, and microplastics were identified based on a hot needle test; the type of plastic was identified by micro-Raman analysis. The results showed that lichens collected in the vicinity of the landfill accumulated the highest number of anthropogenic microfibres and fragments (147 mp/g dw), and consequently microplastics (79 mp/g dw), suggesting that the impact of landfill emissions is spatially limited. The proportion of fibres and fragments identified as microplastics was 40% across all sites and the most abundant polymer type was polyester or polyethylene terephthalate (68%). These results clearly indicated that lichens can effectively be used to monitor the deposition of microplastics.

Published

2021

34. A cost comparison study to review community versus acute hospital models of nursing care delivered to oncology patients.

Author

O'Mahony C, Murphy KD, O'Brien GL, Aherne J, Hanan T, Mullen L, Keane M, Donnellan P, Davey C, Browne H, Malee K, and Byrne S

Subjects

Adult, Aged, Aged, 80 and over, Costs and Cost Analysis, Critical Care Nursing statistics & numerical data, Female, Humans, Ireland, Male, Middle Aged, Oncology Nursing statistics & numerical data, Primary Health Care statistics & numerical data, Critical Care Nursing economics, Hospitals statistics & numerical data, Hospitals, Community economics, Hospitals, Community statistics & numerical data, Neoplasms nursing, Oncology Nursing economics, Primary Health Care economics

Abstract

Purpose: Ireland's Sláintecare health plan is placing an increased focus on primary care. A community oncology nursing programme was developed to train community nurses to deliver care in the community. While the initial pilot was proven to be clinically safe, no cost evaluation was carried out. This study aims to compare the costs of providing cancer support services in a day-ward versus in the community., Methods: 183 interventions (40 in day-ward and 143 in community) were timed and costed using healthcare professional salaries and the Human Capital method., Results: From the healthcare provider perspective, the day-ward was a significantly cheaper option by an average of €17.13 (95% CI €13.72 - €20.54, p < 0.001). From the societal perspective, the community option was cheaper by an average of €2.77 (95% CI -€3.02 - €8.55), although this was a non-significant finding. Sensitivity analyses indicate that the community service may be significantly cheaper from the societal perspective., Conclusions: Given the demand for cost-viable options for primary care services, this programme may represent a national option for cancer care in Ireland when viewed from the societal perspective., (Copyright © 2020 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2020

35. Decadal Changes in Trace Metal Concentrations in Upland Headwater Lakes.

Author

Nelson SAM and Aherne J

Subjects

Altitude, Ecosystem, Ireland, Environmental Monitoring methods, Lakes chemistry, Metals, Heavy analysis, Trace Elements analysis, Water Pollutants, Chemical analysis

Abstract

The objective of this study was to assess the current chemistry of trace elements in upland headwater lakes in Ireland and determine their trends during the last decade in response to decreasing emissions. Twenty-nine upland lakes were sampled in 2017-2018; 19 were previously sampled in 2007-2008. The 2017-2018 samples were analyzed for conductivity, pH, DOC, and 18 trace elements. The lakes had low element concentrations; only 7 of 18 trace elements were > 1 µg/L (Fe, Al, Zn, Mn, B, Sr and Ba). Nine elements were assessed for significant decadal changes; four elements decreased (B, Co, Mn, and Sr) and one increased (Pb). Their correlation with conductivity, pH, and DOC and the associated changes in those variables partially explained the observed trends. In general, elements that were correlated with DOC did not decrease, while those that were not correlated decreased between the two periods. Despite decreased anthropogenic emissions, ecosystem recovery and climate perturbations can confound or mask the benefits of emissions reductions.

Published

2020

36. Ambient Atmospheric Deposition of Anthropogenic Microfibers and Microplastics on the Western Periphery of Europe (Ireland).

Author

Roblin B, Ryan M, Vreugdenhil A, and Aherne J

Subjects

Environmental Monitoring, Europe, Ireland, Microplastics, Air Pollutants analysis, Plastics

Abstract

Microfibers (mf) are the most common type of microplastic in the environment. Few studies have focused on their abundance in atmospheric deposition in background environments. In the current study, we collected wet-only and bulk rainfall from four precipitation chemistry monitoring stations, primarily located in coastal areas around Ireland. Anthropogenic mf were observed in all samples; the average deposition across the four study sites was 80 mf m -2 day -1 . Wet-only mf deposition was 70 mf m -2 day -1 compared with bulk deposition of 100 mf m -2 day -1 . The wet-only collectors were estimated to capture ∼70% of the bulk collectors, suggesting that dry deposition makes up at least 30% of total deposition. Meteorological variables, i.e., relative humidity, rainfall volume, wind speed, and wind direction, were significantly related to mf abundance, suggesting that rainfall washout and air mass movement are important predictors of mf deposition in background regions. In total, 15% of all anthropogenic mf were identified as plastic. The most abundant polymer type was polyester or polyethylene terephthalate at 71%, followed by polyacrylonitrile at 11%, polyethylene at 11%, and polypropylene at 4%. The average deposition of plastic mf was 12 mf m -2 day -1 .

Published

2020

37. Moss as a biomonitor for the atmospheric deposition of anthropogenic microfibres.

Author

Roblin B and Aherne J

Subjects

Air Pollutants, Environmental Monitoring, Plastics, Bryopsida

Abstract

Microplastics, which are plastic particles < 5 mm, have been found throughout the environment. However, few studies have focused on their transport via atmospheric deposition. Bryophytes have been used as biomonitors for the atmospheric deposition of trace elements, persistent organic pollutants and particulate matter, and may potentially be used to monitor the atmospheric deposition of microplastics or anthropogenic microfibres (mf). Hylocomium splendens was collected from three lake catchments, which are remote from anthropogenic disturbance and emissions sources. Anthropogenic mf were observed in all moss samples; the average number was 24 mf g -1 dry weight (range: 15-30 mf g -1 ) across the three study sites. The average length of mf was 1.02 mm (range: 0.83-1.20 mm). Plastic mf were identified using five rigorous visual criteria; 27% of the observed mf passed four criteria and 13% passed all five, suggesting at most a quarter of the mf may be plastic. Annual average atmospheric deposition of anthropogenic mf across the three lake catchments was estimated at ~47,700 mf m -2 (~12,000 plastic mf m -2 ), based on a moss biomass of 2 kg dry weight m -2 . These preliminary findings suggest that moss may be a useful biomonitor for the atmospheric deposition of mf (and microplastics)., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2018. Published by Elsevier B.V.)

Published

2020

38. Dynamic Modeling and Target Loads of Sulfur and Nitrogen for Surface Waters in Finland, Norway, Sweden, and the United Kingdom.

Author

Posch M, Aherne J, Moldan F, Evans CD, Forsius M, Larssen T, Helliwell R, and Cosby BJ

Subjects

Environmental Monitoring, Finland, Norway, Sulfur, Sweden, United Kingdom, Ecosystem, Nitrogen

Abstract

The target load concept is an extension of the critical load concept of air pollution inputs to ecosystems. The advantage of target loads over critical loads is that one can define the deposition and the point in time (target year) when the critical (chemical) limit is no longer violated. This information on the timing of recovery requires dynamic modeling. Using a well-documented dynamic model, target loads for acidic deposition were determined for 848 surface waters across Finland, Norway, Sweden, and the United Kingdom for the target year 2050. In the majority of sites ( n = 675), the critical ANC-limit was predicted to be achieved by 2050; however, for 127 sites, target loads were determined. In addition, 46 sites were infeasible, i.e., even a reduction of anthropogenic deposition to zero would not achieve the limit by 2050. The average maximum target load for sulfur was 38% lower than the respective critical load across the study lakes ( n = 127). Target loads on a large regional scale can inform effects-based emission reduction policies; the current assessment suggests that reductions beyond the Gothenburg Protocol are required to ensure surface water recovery from acidification by 2050.

Published

2019

39. Interspecies comparison of three moss species (Hylocomium splendens, Pleurozium schreberi, and Isothecium stoloniferum) as biomonitors of trace element deposition.

Author

Cowden P and Aherne J

Subjects

Bryopsida, Europe, Metals, Heavy analysis, Air Pollutants analysis, Bryophyta chemistry, Environmental Monitoring methods, Trace Elements analysis

Abstract

Biomonitoring with mosses is a common method widely used to assess the spatial and temporal trends of atmospheric deposition in Europe since its introduction in the 1970s. Based on previous investigations, certain moss species provide the most accurate reflection of atmospheric deposition. However, sampling of just one species across large areas can pose a challenge, therefore the ability to use multiple moss species interchangeably is integral to an effective moss biomonitoring survey. In this study, biomonitoring abilities of two common species (Hylocomium splendens [Hs] and Pleurozium schreberi [Ps]) were compared to a potential new biomonitoring species endemic to North America (Isothecium stoloniferum [Is]). Thirteen metal concentrations were analyzed (Al, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Se, Cd, and Pb) in moss tissue from 20 sites with co-located species (Ps/Hs, Is/Hs) Five metals (Al, V, Fe, Ni, and Pb) showed significant and strong correlations (Spearman correlation, r ≥ 0.7 α = 0.05) for all three species, reflecting the established deposition gradient in the region. Furthermore, there was no significant difference in observations (and moderate correlation) for Cr, which suggests that all species exhibited similar uptake abilities for these six metals (Al, V, Cr, Fe, Ni, and Pb). Four metals (Co, As, Se, and Cd) exhibited concentrations below detection at a number of sites, which may have influenced the assessment of interspecies relationships. It is recommended that interspecies calibration be carried out under all surveys that employ multiple moss species.

Published

2019

40. Critical loads of acidity and exceedances for 1138 lakes and ponds in the Canadian Arctic.

Author

Liang T and Aherne J

Abstract

Sulphur emissions associated with increased anthropogenic activity, such as resource extraction and marine shipping, may lead to the acidification of aquatic freshwater systems in the Arctic. In the current study, acid sensitivity (based on a critical load (CL(Ac)) approach) of 1138 lakes and ponds in the Canadian Arctic was quantified using the Steady-State Water Chemistry (SSWC) model. Ecosystem protection was based on an Acid Neutralising Capacity limit (ANC limit ) for Arctic Char. Acidification risk was estimated under modelled sulphur deposition for the year 2010 (two scenarios). Overall, surface water CL(Ac) values for the Canadian Arctic were low (median = 35.8 meq·m -2 ·yr -1 , mean = 96.3 meq·m -2 ·yr -1 ), with approximately 40% (n = 455) of sites estimated to be sensitive to acidification (CL(Ac) < 20 meq·m -2 ·yr -1 ). Higher CL(Ac) values were found in Yukon (434.5 meq·m -2 ·yr -1 , n = 40), Ellesmere Is. (262.2 meq·m -2 ·yr -1 , n = 143), and Southampton Is. (251.5 meq·m -2 ·yr -1 , n = 35), while lower CL(Ac) values were found in Melville Is. (5.5 meq·m -2 ·yr -1 , n = 48), Banks Is. (18.4 meq·m -2 ·yr -1 , n = 45), and Bylot Is. (20.4 meq·m -2 ·yr -1 , n = 36). Under modelled deposition for 2010, 12-12.5% (n = 136-142) of all sites were exceeded. The highest proportion of exceeded sites were observed in Ellef Ringnes Is. (48-60%; n = 12-15), Melville Is. (38-44%; n = 18-21), and Northwest Territories (24-26%; n = 23-26)., (Crown Copyright © 2018. Published by Elsevier B.V. All rights reserved.)

Published

2019

41. Modelling study of soil C, N and pH response to air pollution and climate change using European LTER site observations.

Author

Holmberg M, Aherne J, Austnes K, Beloica J, De Marco A, Dirnböck T, Fornasier MF, Goergen K, Futter M, Lindroos AJ, Krám P, Neirynck J, Nieminen TM, Pecka T, Posch M, Pröll G, Rowe EC, Scheuschner T, Schlutow A, Valinia S, and Forsius M

Abstract

Current climate warming is expected to continue in coming decades, whereas high N deposition may stabilize, in contrast to the clear decrease in S deposition. These pressures have distinctive regional patterns and their resulting impact on soil conditions is modified by local site characteristics. We have applied the VSD+ soil dynamic model to study impacts of deposition and climate change on soil properties, using MetHyd and GrowUp as pre-processors to provide input to VSD+. The single-layer soil model VSD+ accounts for processes of organic C and N turnover, as well as charge and mass balances of elements, cation exchange and base cation weathering. We calibrated VSD+ at 26 ecosystem study sites throughout Europe using observed conditions, and simulated key soil properties: soil solution pH (pH), soil base saturation (BS) and soil organic carbon and nitrogen ratio (C:N) under projected deposition of N and S, and climate warming until 2100. The sites are forested, located in the Mediterranean, forested alpine, Atlantic, continental and boreal regions. They represent the long-term ecological research (LTER) Europe network, including sites of the ICP Forests and ICP Integrated Monitoring (IM) programmes under the UNECE Convention on Long-range Transboundary Air Pollution (LRTAP), providing high quality long-term data on ecosystem response. Simulated future soil conditions improved under projected decrease in deposition and current climate conditions: higher pH, BS and C:N at 21, 16 and 12 of the sites, respectively. When climate change was included in the scenario analysis, the variability of the results increased. Climate warming resulted in higher simulated pH in most cases, and higher BS and C:N in roughly half of the cases. Especially the increase in C:N was more marked with climate warming. The study illustrates the value of LTER sites for applying models to predict soil responses to multiple environmental changes., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018

42. Vegetation community change in Atlantic oak woodlands along a nitrogen deposition gradient.

Author

Wilkins K and Aherne J

Subjects

Conservation of Natural Resources, Ireland, Nitrogen metabolism, Quercus metabolism, Soil chemistry, Soil Pollutants metabolism, Biodiversity, Forests, Nitrogen analysis, Quercus physiology, Soil Pollutants analysis

Abstract

Atlantic old sessile oak woodlands are of high conservation importance in Europe, listed in the European Union (EU) Habitats Directive Annex I, and known for their rich bryophyte communities. Their conservation status ranges from unfavourable to bad across their known distribution, which is predominantly within the UK and Ireland, but also extends into Iberia and Brittany. The objectives of this study were to determine if nitrogen (N) deposition, a known driver of terrestrial biodiversity loss, was a significant predictor of community composition in old sessile oak woodlands (i.e., EU Habitats Directive Annex I class: 91A0), and to identify significant changes in individual plant species and community-level abundance (i.e., change points) along an N deposition gradient. Relevé data from 260 Irish oak woodland plots were evaluated using Canonical Correspondence Analysis (CCA) and Threshold Indicator Taxa ANalysis (TITAN). Nitrogen deposition accounted for 14% of the explainable variation in the dataset (inertia = 0.069, p < 0.005). A community scale change point of 13.2 kg N ha(-1) yr(-1) was indicated by TITAN, which falls within the current recommended critical load (CL) range for acidophilous Quercus-dominated (oak) woodlands (10-15 kg N ha(-1) yr(-1)). The results suggest that the current CL is sufficient for maintaining a core group of indicator species in old sessile oak woodlands, but many nutrient sensitive species may disappear even at the CL range minimum., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

43. Critical loads and nitrogen availability under deposition and harvest scenarios for conifer forests in Ireland.

Author

Johnson J, Cummins T, and Aherne J

Abstract

In this study we calculated the critical load of nutrient nitrogen (N) for Irish forest plots (n=380) under two harvesting scenarios: conventional stem-only harvest (SOH) and stem plus branch harvest (SBH) and two deposition scenarios: current and with a 10% increase in reduced-N. In addition, current N status was assessed using the following data from forest monitoring plots: forest floor C:N, foliar N and plant root simulation (PRS™) probe N supply rate. Average critical loads were 15.3 kg N ha(-1)year(-1) under SOH and 19.5 kg N ha(-1)year(-1) under SBH. Average total (wet+dry) N deposition was 18 kg N ha(-1)year(-1), ranging from 8.6 to 26 kg Nha(-1)year(-1). As a result, critical loads were exceeded at 67% of sites under SOH and 40% of sites under SBH. However, there was little evidence of exceedance at monitored plots. Foliar and forest floor C:N data indicated that most of these sites had low to intermediate N status. There were considerable differences in N cycling between soil types. Plant root simulation (PRS™) probe data indicated that this was likely due to differences in net N-mineralization and nitrification. Our results indicate that many sites are currently N limited but critical load exceedance suggests that these systems will accumulate N over time. The findings have implications for forest management, allowing for the assessment of nutrient management under different harvest scenarios., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2016