Your search keyword '"Julius Novotny"' showing total 2 results

1. Occurrence of spruce bark beetles in forest stands at different levels of air pollution stress

Author

Julius Novotny, Michael L. McManus, Valentina Meshkova, Marek Turčáni, Wojciech Grodzki, Miloš Knížek, Yaroslav Slobodyan, and Vasile Mihalciuc

Subjects

Bark beetle, Health, Toxicology and Mutagenesis, Biology, Toxicology, medicine.disease_cause, Pheromones, Ozone, Abundance (ecology), Air Pollution, Infestation, medicine, Animals, Europe, Eastern, Picea, Relative species abundance, Ecosystem, Plant Diseases, Population Density, Abiotic component, Ecology, fungi, Picea abies, General Medicine, biology.organism_classification, Pollution, Coleoptera, visual_art, visual_art.visual_art_medium, Bark, PEST analysis

Abstract

The spruce bark beetle, Ips typographus (L.) is the most serious pest of mature spruce stands, mainly Norway spruce, Picea abies (L.) Karst. throughout Eurasia. A complex of weather-related events and other environmental stresses are reported to predispose spruce stands to bark beetle attack and subsequent tree mortality; however the possible role of industrial pollution as a predisposing factor to attack by this species is poorly understood. The abundance and dynamics of I. typographus populations was evaluated in 60-80 year old Norway spruce stands occurring on 10 x 50 ha sites in five countries within the Carpathian range that were selected in proximity to established ozone measurement sites. Data were recorded on several parameters including the volume of infested trees, captures of adult beetles in pheromone traps, number of attacks, and the presence and relative abundance of associated bark beetle species. In several cases, stands adjacent to sites with higher ozone values were associated with higher bark beetle populations. The volume of sanitary cuttings, a reflection of tree mortality, and the mean daily capture of beetles in pheromone traps were significantly higher at sites where the O(3) level was higher. However, the mean infestation density on trees was higher in plots associated with lower O(3) levels. Captures of beetles in pheromone traps and infestation densities were higher in the zone above 800 m. However, none of the relationships was conclusive, suggesting that spruce bark beetle dynamics are driven by a complex interaction of biotic and abiotic factors and not by a single parameter such as air pollution.

Published

2004

2. New international long-term ecological research on air pollution effects on the Carpathian Mountain forests, Central Europe

Author

Marek Krywult, Flaviu Popescu, Michael L. McManus, Zbigniew Krzan, Peter Fleischer, Ovidiu Badea, Milan Koren, Stefan Tamas, Wojciech Grodzki, Vladimir Gancz, Barbara Godzik, William J. Manning, Daniela Postelnicu, Andrzej Bytnerowicz, Julius Novotny, Wiesław Prus-Głowacki, Robert C. Musselman, Krystyna Grodzińska, Ion Barbu, S. Skiba, Roman Longauer, Witold Frączek, B. Mankovska, Cristian Vasile, David F. Karnosky, Paweł Skawiński, and Robert C. Szaro

Subjects

Pollution, Bark beetle, Nitrogen, International Cooperation, media_common.quotation_subject, Population Dynamics, Biodiversity, Air pollution, medicine.disease_cause, Trees, medicine, Ecosystem, Air quality index, lcsh:Environmental sciences, General Environmental Science, media_common, lcsh:GE1-350, Pollutant, Air Pollutants, Ecology, biology, Research, Biosphere, biology.organism_classification, Europe, Sulfur

Abstract

An international cooperative project on distribution of ozone in the Carpathian Mountains, Central Europe was conducted from 1997 to 1999. Results of that project indicated that in large parts of the Carpathian Mountains, concentrations of ozone were elevated and potentially phytotoxic to forest vegetation. That study led to the establishment of new long-term studies on ecological changes in forests and other ecosystems caused by air pollution in the Retezat Mountains, Southern Carpathians, Romania and in the Tatra Mountains, Western Carpathians on the Polish–Slovak border. Both of these important mountain ranges have the status of national parks and are Man & the Biosphere Reserves. In the Retezat Mountains, the primary research objective was to evaluate how air pollution may affect forest health and biodiversity. The main research objective in the Tatra Mountains was to evaluate responses of natural and managed Norway spruce forests to air pollution and other stresses. Ambient concentrations of ozone (O3), sulfur dioxide (SO2), nitrogen oxides (NOx) as well as forest health and biodiversity changes were monitored on densely distributed research sites. Initial monitoring of pollutants indicated low levels of O3, SO2, and NOx in the Retezat Mountains, while elevated levels of O3 and high deposition of atmospheric sulfur (S) and nitrogen (N) have characterized the Tatra Mountains. In the Retezat Mountains, air pollution seems to have little effect on forest health; however, there was concern that over a long time, even low levels of pollution may affect biodiversity of this important ecosystem. In contrast, severe decline of Norway spruce has been observed in the Tatra Mountains. Although bark beetle seems to be the immediate cause of that decline, long-term elevated levels of atmospheric N and S depositions and elevated O3 could predispose trees to insect attacks and other stresses. European and US scientists studied pollution deposition, soil and plant chemistry, O3-sensitive plant species, forest insects, and genetic changes in the Retezat and Tatra Mountains. Results of these investigations are presented in a GIS format to allow for a better understanding of the changes and the recommendations for effective management in these two areas. Keywords: Air quality, Ozone, Biodiversity, Ecology, Forests, Carpathian Mountains, Poland, Slovakia, Romania

Published

2003