Your search keyword '"Pecka T"' showing total 12 results

1. Assessing critical load exceedances and ecosystem impacts of anthropogenic nitrogen and sulphur deposition at unmanaged forested catchments in Europe

Author

Forsius, M., Posch, M., Holmberg, M., Vuorenmaa, J., Kleemola, S., Augustaitis, A., Beudert, B., Bochenek, W., Clarke, N., de Wit, H.A., Dirnböck, T., Frey, J., Grandin, U., Hakola, H., Kobler, J., Krám, P., Lindroos, A.-J., Löfgren, S., Pecka, T., Rönnback, P., Skotak, K., Szpikowski, J., Ukonmaanaho, L., Valinia, S., Váňa, M., Forsius, M., Posch, M., Holmberg, M., Vuorenmaa, J., Kleemola, S., Augustaitis, A., Beudert, B., Bochenek, W., Clarke, N., de Wit, H.A., Dirnböck, T., Frey, J., Grandin, U., Hakola, H., Kobler, J., Krám, P., Lindroos, A.-J., Löfgren, S., Pecka, T., Rönnback, P., Skotak, K., Szpikowski, J., Ukonmaanaho, L., Valinia, S., and Váňa, M.

Abstract

Anthropogenic emissions of nitrogen (N) and sulphur (S) compounds and their long-range transport have caused widespread negative impacts on different ecosystems. Critical loads (CLs) are deposition thresholds used to describe the sensitivity of ecosystems to atmospheric deposition. The CL methodology has been a key science-based tool for assessing the environmental consequences of air pollution. We computed CLs for eutrophication and acidification using a European long-term dataset of intensively studied forested ecosystem sites (n = 17) in northern and central Europe. The sites belong to the ICP IM and eLTER networks. The link between the site-specific calculations and time-series of CL exceedances and measured site data was evaluated using long-term measurements (1990–2017) for bulk deposition, throughfall and runoff water chemistry. Novel techniques for presenting exceedances of CLs and their temporal development were also developed. Concentrations and fluxes of sulphate, total inorganic nitrogen (TIN) and acidity in deposition substantially decreased at the sites. Decreases in S deposition resulted in statistically significant decreased concentrations and fluxes of sulphate in runoff and decreasing trends of TIN in runoff were more common than increasing trends. The temporal developments of the exceedance of the CLs indicated the more effective reductions of S deposition compared to N at the sites. There was a relation between calculated exceedance of the CLs and measured runoff water concentrations and fluxes, and most sites with higher CL exceedances showed larger decreases in both TIN and H+ concentrations and fluxes. Sites with higher cumulative exceedance of eutrophication CLs (averaged over 3 and 30 years) generally showed higher TIN concentrations in runoff. The results provided evidence on the link between CL exceedances and empirical impacts, increasing confidence in the methodology used for the European-scale CL calculations. The results also confirm t

Published

2021

2. Long-term changes in the inorganic nitrogen output in European ICP Integrated Monitoring catchments - an assessment of the impact of internal nitrogen-related parameters and exceedances of critical loads of eutrophication

Author

Kleemola, S., Forsius, M., Vuorenmaa, J., Holmberg, M., Posch, M., Augustaitis, A., Beudert, B., Bochenek, W., Clarke, N., de Wit, H., Dirnböck, T., Frey, J., Grandin, U., Hakole, H., Kobler, J., Krám, P., Lindroos, A.-J., Löfgren, S., Pecka, T., Skotak, K., Szpikowski, J., Ukonmaanaho, U., Valencia, D.E., Váňa, M., Kleemola, S., Forsius, M., Vuorenmaa, J., Holmberg, M., Posch, M., Augustaitis, A., Beudert, B., Bochenek, W., Clarke, N., de Wit, H., Dirnböck, T., Frey, J., Grandin, U., Hakole, H., Kobler, J., Krám, P., Lindroos, A.-J., Löfgren, S., Pecka, T., Skotak, K., Szpikowski, J., Ukonmaanaho, U., Valencia, D.E., and Váňa, M.

Published

2020

3. 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

4. Currently legislated decreases in nitrogen deposition will yield only limited plant species recovery in European forests

Author

Dirnböck, T., Pröll, G., Austnes, K., Beloica, J., Beudert, B., Canullo, R., De Marco, A., Fornasier, M., Futter, M., Goergen, K., Grandin, U., Holmberg, M., Lindroos, A.-J., Mirtl, M., Neirynck, J., Pecka, T., Nieminen, T., Nordbakken, J., Posch, M., Reinds, G., Rowe, E., Salemaa, M., Scheuschner, T., Starlinger, F., Uziębło, A., Valinia, S., Weldon, J., Wamelink, W., Forsius, M., Dirnböck, T., Pröll, G., Austnes, K., Beloica, J., Beudert, B., Canullo, R., De Marco, A., Fornasier, M., Futter, M., Goergen, K., Grandin, U., Holmberg, M., Lindroos, A.-J., Mirtl, M., Neirynck, J., Pecka, T., Nieminen, T., Nordbakken, J., Posch, M., Reinds, G., Rowe, E., Salemaa, M., Scheuschner, T., Starlinger, F., Uziębło, A., Valinia, S., Weldon, J., Wamelink, W., and Forsius, M.

Abstract

Atmospheric nitrogen (N) pollution is considered responsible for a substantial decline in plant species richness and for altered community structures in terrestrial habitats worldwide. Nitrogen affects habitats through direct toxicity, soil acidification, and in particular by favoring fast-growing species. Pressure from N pollution is decreasing in some areas. In Europe (EU28), overall emissions of NO x declined by more than 50% while NH3 declined by less than 30% between the years 1990 and 2015, and further decreases may be achieved. The timescale over which these improvements will affect ecosystems is uncertain. Here we use 23 European forest research sites with high quality long-term data on deposition, climate, soil recovery, and understory vegetation to assess benefits of currently legislated N deposition reductions in forest understory vegetation. A dynamic soil model coupled to a statistical plant species niche model was applied with site-based climate and deposition. We use indicators of N deposition and climate warming effects such as the change in the occurrence of oligophilic, acidophilic, and cold-tolerant plant species to compare the present with projections for 2030 and 2050. The decrease in N deposition under current legislation emission (CLE) reduction targets until 2030 is not expected to result in a release from eutrophication. Albeit the model predictions show considerable uncertainty when compared with observations, they indicate that oligophilic forest understory plant species will further decrease. This result is partially due to confounding processes related to climate effects and to major decreases in sulphur deposition and consequent recovery from soil acidification, but shows that decreases in N deposition under CLE will most likely be insufficient to allow recovery from eutrophication.

Published

2018

5. Fertilization and Implantation Potential of Sperm Tested by Monoclonal Antibodies

Author

Teplá, O, primary, Pěknicová, J, additional, Mrázek, M, additional, Kočı́, K, additional, Chládek, D, additional, and Pecka, T, additional

Published

2000

6. Fertilization and Implantation Potential of Sperm Tested by Monoclonal Antibodies

Author

D Chládek, Mrázek M, Pecka T, J Pěknicová, Karel Koci, and Olina Tepla

Subjects

Andrology, Human fertilization, Reproductive Medicine, medicine.drug_class, medicine, Obstetrics and Gynecology, Biology, Monoclonal antibody, Sperm

Published

2000

7. Characterisation of Streptococcus suis Isolates in the Czech Republic Collected from Diseased Pigs in the Years 2018-2022.

Author

Zouharová M, Šimek B, Gebauer J, Králová N, Kucharovičová I, Plodková H, Pecka T, Brychta M, Švejdová M, Nedbalcová K, Matiašková K, and Matiašovic J

Abstract

As in other countries, in the Czech Republic, Streptococcus suis infection in pigs is considered an economically significant disease for the pig industry, though little is known about its population structure. We collected S. suis isolates from 144 farms in the years 2018-2022. All samples were taken from animals suffering from symptoms indicating possible S. suis infection. Serotyping revealed the presence of 23 different serotypes, and 18.94% were non-typable strains. The most common was S7 (14.96%), while other serotypes had frequencies of less than 10%. Sequence typing identified 56 different sequence types, including 31 newly assigned sequence types together with 41 new alleles in genes in the MLST schema. A large portion of isolates (25.70%) were of unknown sequence type. The most common sequence types were ST29 (14.77%) and ST28 (10.04%); the other sequence types had frequencies of less than 10%. In total, 100 different combinations of serotypes and sequence types were identified. Among them, S7ST29 was found in 72 isolates, representing 13.63% of all isolates, and was significantly associated with the central nervous system. Many other isolates of particular serotype and sequence type combinations were found in a few cases, and a number of isolates were non-typable.

Published

2022

8. Vaccine against Streptococcus suis Infection in Pig Based on Alternative Carrier Protein Conjugate.

Author

Kralova N, Stepanova H, Gebauer J, Norek A, Matiaskova K, Zouharova M, Nedbalcova K, Babak V, Jarosova R, Makovicky P, Kucharovicova I, Simek B, Plodkova H, Pecka T, and Matiasovic J

Abstract

Streptococcus suis is a serious pathogen in the pig industry with zoonotic potential. With respect to the current effort to reduce antibiotic use in animals, a prophylactic measure is needed to control the disease burden. Unfortunately, immunization against streptococcal pathogens is challenging due to nature of the interaction between the pathogen and the host immune system, but vaccines based on conjugates of capsular polysaccharide (CPS) and carrier protein were proved to be efficient. The main obstacle of these vaccines is manufacturing cost, limiting their use in animals. In this work, we tested an experimental vaccine against Streptococcus suis serotype 2 based on capsular polysaccharide conjugated to chicken ovalbumin (OVA) and compared its immunogenicity and protectivity with a vaccine based on CRM197 conjugate. Ovalbumin was selected as a cheap alternative to recombinant carrier proteins widely used in vaccines for human use. We found that the ovalbumin-based experimental vaccine successfully induced immune response in pigs, and the IgG antibody response was even higher than after immunization with capsular polysaccharide-CRM197 conjugate. Protectivity of vaccination against infection was evaluated in the challenge experiment and was found promising for both conjugates., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript; or in the decision to publish the results.

Published

2022

9. Assessing critical load exceedances and ecosystem impacts of anthropogenic nitrogen and sulphur deposition at unmanaged forested catchments in Europe.

Author

Forsius M, Posch M, Holmberg M, Vuorenmaa J, Kleemola S, Augustaitis A, Beudert B, Bochenek W, Clarke N, de Wit HA, Dirnböck T, Frey J, Grandin U, Hakola H, Kobler J, Krám P, Lindroos AJ, Löfgren S, Pecka T, Rönnback P, Skotak K, Szpikowski J, Ukonmaanaho L, Valinia S, and Váňa M

Abstract

Anthropogenic emissions of nitrogen (N) and sulphur (S) compounds and their long-range transport have caused widespread negative impacts on different ecosystems. Critical loads (CLs) are deposition thresholds used to describe the sensitivity of ecosystems to atmospheric deposition. The CL methodology has been a key science-based tool for assessing the environmental consequences of air pollution. We computed CLs for eutrophication and acidification using a European long-term dataset of intensively studied forested ecosystem sites (n = 17) in northern and central Europe. The sites belong to the ICP IM and eLTER networks. The link between the site-specific calculations and time-series of CL exceedances and measured site data was evaluated using long-term measurements (1990-2017) for bulk deposition, throughfall and runoff water chemistry. Novel techniques for presenting exceedances of CLs and their temporal development were also developed. Concentrations and fluxes of sulphate, total inorganic nitrogen (TIN) and acidity in deposition substantially decreased at the sites. Decreases in S deposition resulted in statistically significant decreased concentrations and fluxes of sulphate in runoff and decreasing trends of TIN in runoff were more common than increasing trends. The temporal developments of the exceedance of the CLs indicated the more effective reductions of S deposition compared to N at the sites. There was a relation between calculated exceedance of the CLs and measured runoff water concentrations and fluxes, and most sites with higher CL exceedances showed larger decreases in both TIN and H + concentrations and fluxes. Sites with higher cumulative exceedance of eutrophication CLs (averaged over 3 and 30 years) generally showed higher TIN concentrations in runoff. The results provided evidence on the link between CL exceedances and empirical impacts, increasing confidence in the methodology used for the European-scale CL calculations. The results also confirm that emission abatement actions are having their intended effects on CL exceedances and ecosystem impacts., 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 © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

10. 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

11. Long-term changes (1990-2015) in the atmospheric deposition and runoff water chemistry of sulphate, inorganic nitrogen and acidity for forested catchments in Europe in relation to changes in emissions and hydrometeorological conditions.

Author

Vuorenmaa J, Augustaitis A, Beudert B, Bochenek W, Clarke N, de Wit HA, Dirnböck T, Frey J, Hakola H, Kleemola S, Kobler J, Krám P, Lindroos AJ, Lundin L, Löfgren S, Marchetto A, Pecka T, Schulte-Bisping H, Skotak K, Srybny A, Szpikowski J, Ukonmaanaho L, Váňa M, Åkerblom S, and Forsius M

Abstract

The international Long-Term Ecological Research Network (ILTER) encompasses hundreds of long-term research/monitoring sites located in a wide array of ecosystems that can help us understand environmental change across the globe. We evaluated long-term trends (1990-2015) for bulk deposition, throughfall and runoff water chemistry and fluxes, and climatic variables in 25 forested catchments in Europe belonging to the UNECE International Cooperative Programme on Integrated Monitoring of Air Pollution Effects on Ecosystems (ICP IM). Many of the IM sites form part of the monitoring infrastructures of this larger ILTER network. Trends were evaluated for monthly concentrations of non-marine (anthropogenic fraction, denoted as x) sulphate (xSO 4 ) and base cations x(Ca+Mg), hydrogen ion (H + ), inorganic N (NO 3 and NH 4 ) and ANC (Acid Neutralising Capacity) and their respective fluxes into and out of the catchments and for monthly precipitation, runoff and air temperature. A significant decrease of xSO 4 deposition resulted in decreases in concentrations and fluxes of xSO 4 in runoff, being significant at 90% and 60% of the sites, respectively. Bulk deposition of NO 3 and NH 4 decreased significantly at 60-80% (concentrations) and 40-60% (fluxes) of the sites. Concentrations and fluxes of NO 3 in runoff decreased at 73% and 63% of the sites, respectively, and NO 3 concentrations decreased significantly at 50% of the sites. Thus, the LTER/ICP IM network confirms the positive effects of the emission reductions in Europe. Air temperature increased significantly at 61% of the sites, while trends for precipitation and runoff were rarely significant. The site-specific variation of xSO 4 concentrations in runoff was most strongly explained by deposition. Climatic variables and deposition explained the variation of inorganic N concentrations in runoff at single sites poorly, and as yet there are no clear signs of a consistent deposition-driven or climate-driven increase in inorganic N exports in the catchments., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

12. [Surgical treatment of male infertility].

Author

Kocí K, Trnková M, Mrázek M, Teplá O, Míka J, Jarolímková K, Cardová A, Julis I, Hybnerová L, Jirmanová J, and Pecka T

Subjects

Epididymis pathology, Humans, Male, Oligospermia diagnosis, Specimen Handling, Spermatogenesis, Spermatozoa, Oligospermia therapy, Sperm Injections, Intracytoplasmic

Abstract

Objective: In the Czech Republic in the treatment of male infertility the most up-to-date technologies of assisted reproduction have also become the methods of choice: MESA--microsurgical epididymal sperm aspiration, TESE--testicular sperm extraction and ICSI--intracytoplasmic sperm injection. The objective of the present study was an attempt to find a reliable predictor of results of planned TESE as prediction of possible successful sperm extraction can prevent unnecessary ovarian stimulation., Design: Retrospective analysis of a group of 202 men operated in the authors centre on account of azoospermia--65 patients with obstructive azoospermia and 137 patients with testicular azoospermia., Setting: Andromeda, Biolab, Iscare IVF, Prague., Method: The following parameters were evaluated: testicular volume, FSH serum level and histological finding and their values were compared with results of TESE., Results: Elevated FSH levels and low testicular volume do not rule out a positive result of TESE. The most accurate predictor is histological examination. Elongated spermatids were found in the histological material in 59.3% of the examined cases which correlates significantly with the 60.2% TESE yield in the evaluated group., Conclusion: The material assembled on operation was divided into three parts. One serves preparation of the perIerative native preparation, the second one is dispatched for histological examination and the largest part is frozen. Simultaneous collection of oocytes and sperm cells is done only in selected cases. The histological finding of elongated spermatids indicates a positive finding of sperm during TESE with an accuracy of 91%. Assessment of the causes of azoospermia, evaluation of the state of spermatogenesis and treatment are thus implemented by a single operation.

Published

2001