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To understand the rapid rate of change in global biodiversity, it is necessary to analyse the present condition of ecosystems and to elucidate relationships of species to their environment. The BIOKLIM Project (Biodiversity and Climate Change Project) is intended to close this gap in our knowledge of montane and high montane forests of Central European low mountain ranges, one of the most threatened mixed montane systems worldwide. The Bavarian Forest National Park is characterised by its altitude range of ca. 800 m and a strongly developed gradient of forest structure. Relicts of old growth forests (areas of former local nature reserves) and dead stands, mostly killed by bark beetles, are accompanied by widely varying levels of woody debris and light. The gradients comprise a wide range of abiotic and forest structure factors, making the study area well suited for a multidisciplinary investigation of biodiversity. Unconstrained ordination (CA) of six taxa (vascular plants, wood inhabiting fungi, birds, carabids, spiders and molluscs) indicate the altitudinal gradient to be the main driver for distribution patterns of species assemblages. Objectives, structure, study design and data sampling of the BIOKLIM Project are described in detail. We set up 293 sampling plots along four main straight transects following the altitudinal gradient. All abiotic and stand structure data regarded as relevant are available for each plot. Vascular plants, wood inhabiting fungi and birds were sampled or mapped on all 293 plots. For the other 22 investigated taxa we used subsamples pre-stratified according to the sampling methods. The necessity of dealing with spatial autocorrelation, arising from sampling along linear transects, is described. Finally, study approach of our biodiversity project is compared with others involving altitudinal gradients. Worldwide, only a few multidisciplinary biodiversity studies have been previously conducted on long altitudinal gradients. However, in most cases sampling techniques were similar to ours, which allows comparison of results between continents. Keywords: Climate Change, Biodiversity, species-environment relationships
Although macroecology is a well-established field, much remains to be learned about the large-scale variation of fungal traits. We conducted a global analysis of mean fruit body size of 59 geographical regions worldwide, comprising 5340 fungal species exploring the response of fruit body size to latitude, resource availability and temperature. The results showed a hump-shaped relationship between mean fruit body size and distance to the equator. Areas with large fruit bodies were characterised by a high seasonality and an intermediate mean temperature. The responses of mutualistic species and saprotrophs were similar. These findings support the resource availability hypothesis, predicting large fruit bodies due to a seasonal resource surplus, and the thermoregulation hypothesis, according to which small fruit bodies offer a strategy to avoid heat and cold stress and therefore occur at temperature extremes. Fruit body size may thus be an adaptive trait driving the large-scale distribution of fungal species.
Flechten gehören zu den herausragenden Indikatorgruppen für Veränderungen in Wäldern. Im Rahmen des Forschungsprojektes „Biodiversität und Klima“ (BIOKLIM) wurden im Jahr 2007 im Nationalpark Bayerischer Wald entlang von 4 Forschungslinien 125 baumbewohnende Flechten, 5 lichenicole Pilze sowie 1 nicht lichenisierter Ascomycet festgestellt. Alte Wälder und Prozessschutzwälder wiesen dabei signifikant die größte Artendiversität und die höchste Anzahl an bedrohten Arten im Vergleich mit den noch gemanagten Wäldern auf. Die herausragende Bedeutung von alten Wäldern und Prozessschutzflächen für den Erhalt und die Ausbreitung gefährdeter Flechten und lichenicoler Pilze für den ostbayerischen Mittelgebirgsraum wird dargestellt. Die sehr seltenen und hochgradig gefährdeten lichenicolen Pilze Chaenothecopsis viridialba, Sphinctrina anglica und Sphinctrina turbinata und die Flechte Mycobilimbia sphaeroides werden als Neufunde für den Bayerischen Wald genannt. Der in der Bundesrepublik Deutschland als verschollen geltende Flechtenpilz Sphinctrina tubiformis wurde im „Rachelseeurwald“ wiederentdeckt. Für alte naturnahe Wälder des Bayerischen und Böhmischen Waldes werden folgende Zeigerarten beschrieben: Lecanactis abietina, Pyrenula nitida, Micarea cinerea, Microcalicium disseminatum, Loxospora cismonica und Thelotrema lepadinum. Abschließend werden für das Management montaner und hochmontaner Wälder Mitteleuropas Empfehlungen abgeleitet.