Уважаемые коллеги, доброго времени суток! Представляем вам австрийское научное издание Austrian Journal of Forest Science. Журнал имеет третий квартиль, издаётся в Osterreichischer Agrarverlag GmbH, его SJR за 2021 г. равен 0,303, электронный ISSN - 0379-5292, предметные области - Менеджмент, мониторинг, закон и право, Консервация природы и ландшафта, Экология, Лесное хозяйство, Динамика изменения и таксономия, Эволюция, Экология. Вот так выглядит обложка:
Здесь два редактора - Хуберт Хасенауэр, контактные данные - hubert.hasenauer@boku.ac.at
и Петер Майер - peter.mayer@tuwien.ac.at
Дополнительные публикационные контакты - submission.ajfs@boku.ac.at.
К публикации принимаются научные статьи, связанные с лесоведением и деревообработкой, экологией, охраной природы, а также исследованиями лесных экосистем. Важной задачей журнала является преодоление разрыва между учеными, лесоводами и лицами, принимающими политические решения. Темы рукописей должны охватывать область журнала, представлять научные или технические новинки, касаться новых методов и/или продвигать вопросы, связанные с лесами и лесопользованием.
Адрес издания - https://www.forestscience.at/
Пример статьи, название - The impact of selected climatic factors on the growth of Greek fir on Mount Giona in mainland Greece based on tree ring analysis. Заголовок (Abstract) - Tree ring chronologies are considered critical when investigating important relations between tree growth and climate. In the present study, we studied the impact of precipitation and air temperature on Abies cephalonica, an endemic Greek species, by evaluating radial growth data from tree ring analysis. The two sampled stands had elevations of 988 m and 1.274 m above sea level, respectively, and were located on Mountain Giona in central Greece. The hyperbola two-parameter function was used for fitting a tree growth model and detrending, separetly for the two sites. After detrending, the Average Tree Ring Width Index (ARWI) values were calculated and the averaged values per site were standardized and plotted. Due to the lack of temperature data, during the last 30 years, we used the Standardized Precipitation Index (SPI) based only on precipitation, to investigate the impact of extreme drought on Abies cephalonica growth at the two sites. We tested both a 6-month time step (SPI6) calculated for March to August and a 12-month step (SPI12) calculated for October-September and representing the hydrological year and correlated the results with ARWI. Furthermore, separate correlations between selected average temperatures, precipitation (for period 2009–2019) and radial growth were tested. We found that SPI is useful to reveal negative or positive growth due to extreme climate conditions. The extreme drought event of 1985 (SPI < –2) was followed by an important growth decrease for both stands. In contrast, the extremely wet year of 1971 (SPI > 2) was followed by increased growth in the following year (1972), again for both stands. Less pronounced events, as indicated by the SPI, caused less clear impacts on the measured radial growth. A general decline in growth was observed after 1998 for both elevations and was not connected with SPI. We suggest that this decrease was associated to observed defoliations by Choristoneura murinana, a moth feeding on shoots. Keywords: Abies cephalonica, climate, dendrochronology, tree growth, drought index