Ecosystem Development in the Constructed Catchment “Chicken Creek”

Landscapes and ecosystems are complex systems with many feedback mechanisms acting between the various abiotic and biotic components. The knowledge about these interacting processes is mainly derived from mature ecosystems. The initial development of ecosystem complexity may involve state transitions following catastrophic shifts, disturbances, or transgression of thresholds. We propose a conceptual framework of feedback processes in early states of ecosystem development affected by spatiotemporal environmental drivers. To test this concept, we used 10-year time series of hydrological, biological, geomorphological, and soil data from the constructed catchment Chicken Creek.” The 6ha site was left to unrestricted development since 2005 and was intensively monitored. The data showed a very rapid development of the site with an increasing complexity and heterogeneity. In the first years, stochastic signals like the initial substrate conditions and external drivers like extreme weather events were the most important factors resulting in abiotic/abiotic feedback mechanisms shaping the morphology of the site and creating site diversity. Initial abiotic feedback mechanisms between water and substrate were soon followed by abiotic/biotic feedbacks between biological soil crusts, invading vegetation, geomorphology, and hydrology resulting in state transitions of catchment functioning

Soil conditions and phylogenetic relatedness influence total community trait space during early plant succession

This study is part of the Transregional Collaborative Research Centre 38 (SFB/TRR 38: ecosystem assembly and succession). The authors thank the working group Z1 (monitoring) members of the SFB/TRR 38 who helped us to perform this study and the Vattenfall Europe Mining A.G. for providing the research site.Aims The total space of traits covered by the members of plant com- munities is an important parameter of ecosystem functioning and complexity. We trace the variability of trait space during early plant succession and ask how trait space co-varies with phylogenetic community structure and soil conditions. Particularly, we are inter - ested in the small-scale variability in trait space and the influence of biotic and abiotic filters. Methods We use data on species richness and soil conditions from the first 7 years of initial succession of an artificial catchment in north-east- ern Germany. Total functional attribute diversity serves as a proxy to total trait space. Important Findings Total trait space steadily increased during succession. We observed high small-scale variability in total trait space that was positively cor - related with species richness and phylogenetic segregation and nega- tively correlated with total plant cover. Trait space increased with soil carbonate content, while pH and the fraction of sandy material behaved indifferently. Our results indicate that during early succession, habitat filtering processes gain importance leading to a lesser increase in trait space than expected from the increase in species richness alone

Solar parks as livestock enclosures can become key to linking energy, biodiversity and society

Abstract The expansion of renewable energy generation sites in the landscape is controversial, as is repopulation by large predators, particularly wolves. Both range extensions are recent phenomena, and both lead to harsh incompatibilities that arise from exclusions. Regarding solar parks, the problems would be solvable by a paradigm shift, namely towards inclusions. The required changes sound trivial: First, it would be more multifunctional to make use of the valuable plant growth in solar parks. Second, it would be more sustainable to rely on grazing rather than mowing for solar park maintenance. Grazing livestock would need to be protected from wolves by strong fencing. If these changes become the reality, this could locally remove large predators like the wolf from the line of fire of social resistance. In addition, implementation would bring benefits across sectors by bringing together previously divergent and hardened utilization concepts, which would ultimately have positive impacts for renewable energy generation, biodiversity and society. Read the free Plain Language Summary for this article on the Journal blog