This study examines tourists’ attitude towards large-scale bark beetle infestation in the case of Bavarian Forest National Park, Germany. Three alternative conceptual models for predicting attitude are specified and compared using structural equation modelling (SEM) and a post-hoc modified model is derived. We find that tourists overall have
a neutral attitude towards the bark beetle and are slightly against controlling the insect in the park. Tourists with higher affinity GNS-1480 supplier for the national park, better knowledge about the bark beetle and who expect a recovery of the affected areas have a significantly more positive attitude. Our results support a policy of selective non-intervention in the case of natural disturbance. This should be combined with educational measures aimed at raising awareness of the ecological
mandate of protected areas and increasing tourists’ knowledge of the specific disturbance. (C) 2008 Elsevier Ltd. All rights reserved.”
“Previous work on mathematical models of cultural evolution has mainly focused on the diffusion of simple cultural elements. However, a CBL0137 nmr characteristic feature of human cultural evolution is the seemingly limitless appearance of new and increasingly complex cultural elements. Here, we develop a general modelling framework to study such cumulative processes, in which we assume that the appearance and disappearance of cultural elements are stochastic events that depend on the current state of culture. Five scenarios are explored: evolution of independent cultural elements, stepwise modification of elements, differentiation or combination of elements and systems of cultural elements. As one application of our framework, we study the evolution of cultural diversity (in time as well as between groups).”
“Plants, like almost all living organisms, spontaneously emit photons of visible light. We used a highly sensitive, low-noise cooled charge coupled device camera to image spontaneous photon emission (autoluminescence) of plants. Oxidative stress and wounding induced a long-lasting enhancement of plant autoluminescence, the origin of which is investigated here. This long-lived Nepicastat in vitro phenomenon can be distinguished from
the short-lived chlorophyll luminescence resulting from charge recombinations within the photosystems by pre-adapting the plant to darkness for about 2 h. Lipids in solvent were found to emit a persistent luminescence after oxidation in vitro, which exhibited the same time and temperature dependence as plant autoluminescence. Other biological molecules, such as DNA or proteins, either did not produce measurable light upon oxidation or they did produce a chemiluminescence that decayed rapidly, which excludes their significant contribution to the in vivo light emission signal. Selective manipulation of the lipid oxidation levels in Arabidopsis mutants affected in lipid hydroperoxide metabolism revealed a causal link between leaf autoluminescence and lipid oxidation.