TY  - JOUR
A1  - Bergmann, Joana
A1  - Verbruggen, Erik
A1  - Heinze, Johannes
A1  - Xiang, Dan
A1  - Chen, Baodong
A1  - Joshi, Jasmin Radha
A1  - Rillig, Matthias C.
T1  - The interplay between soil structure, roots, and microbiota as a determinant of plant-soil feedback
JF  - Ecology and evolution
N2  - Plant-soil feedback (PSF) can influence plant community structure via changes in the soil microbiome. However, how these feedbacks depend on the soil environment remains poorly understood. We hypothesized that disintegrating a naturally aggregated soil may influence the outcome of PSF by affecting microbial communities. Furthermore, we expected plants to differentially interact with soil structure and the microbial communities due to varying root morphology. We carried out a feedback experiment with nine plant species (five forbs and four grasses) where the training phase consisted of aggregated versus disintegrated soil. In the feedback phase, a uniform soil was inoculated in a fully factorial design with soil washings from conspecific- versus heterospecific-trained soil that had been either disintegrated or aggregated. This way, the effects of prior soil structure on plant performance in terms of biomass production and allocation were examined. In the training phase, soil structure did not affect plant biomass. But on disintegrated soil, plants with lower specific root length (SRL) allocated more biomass aboveground. PSF in the feedback phase was negative overall. With training on disintegrated soil, conspecific feedback was positively correlated with SRL and significantly differed between grasses and forbs. Plants with higher SRL were likely able to easily explore the disintegrated soil with smaller pores, while plants with lower SRL invested in belowground biomass for soil exploration and seemed to be more susceptible to fungal pathogens. This suggests that plants with low SRL could be more limited by PSF on disintegrated soils of early successional stages. This study is the first to examine the influence of soil structure on PSF. Our results suggest that soil structure determines the outcome of PSF mediated by SRL. We recommend to further explore the effects of soil structure and propose to include root performance when working with PSF.
KW  - arbuscular mycorrhizal fungi
KW  - biomass allocation
KW  - plant functional traits
KW  - plant-soil (belowground) interactions
KW  - soil aggregation
KW  - specific root length
KW  - succession
KW  - water-stable aggregates
Y1  - 2016
U6  - https://doi.org/10.1002/ece3.2456
SN  - 2045-7758
VL  - 6
SP  - 7633
EP  - 7644
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Milcu, Alexandru
A1  - Heim, Angela
A1  - Ellis, Richard J.
A1  - Scheu, Stefan
A1  - Manning, Pete
T1  - Identification of general patterns of nutrient and labile carbon control on soil carbon dynamics across a successional gradient
JF  - Ecosystems
N2  - Carbon (C) inputs and nutrient availability are known to affect soil organic carbon (SOC) stocks. However, general rules regarding the operation of these factors across a range of soil nutrient availabilities and substrate qualities are unidentified. "Priming" (stimulated decomposition by labile C inputs) and 'preferential substrate utilization' (retarded decomposition due to shifts in community composition towards microbes that do not mineralize SOC) are two hypotheses to explain effects of labile C additions on SOC dynamics. For effects of nutrient additions (nitrogen and phosphorus) on SOC dynamics, the stoichiometric (faster decomposition of materials of low carbon-to-nutrient ratios) and 'microbial mining' (that is, reduced breakdown of recalcitrant C forms for nutrients under fertile conditions) hypotheses have been proposed. Using the natural gradient of soil nutrient availability and substrate quality of a chronosequence, combined with labile C and nutrient amendments, we explored the support for these contrasting hypotheses. Additions of labile C, nitrogen (N), phosphorus (P), and combinations of C and N and C and P were applied to three sites: 2-year fallow grassland, mature grassland and forest, and the effects of site and nutrient additions on litter decomposition and soil C dynamics were assessed. The response to C addition supported the preferential substrate hypothesis for easily degradable litter C and the priming hypothesis for SOC, but only in nitrogen-enriched soils of the forest site. Responses to N addition supported the microbial mining hypothesis irrespective of C substrate (litter or SOC), but only in the forest site. Further, P addition effects on SOC support the stoichiometric hypothesis; P availability appeared key to soil C release (priming) in the forest site if labile C and N is available. These results clearly link previously contrasting hypotheses of the factors controlling SOC with the natural gradient in litter quality and nutrient availability that exists in ecosystems at different successional stages. A holistic theory that incorporates this variability of responses, due to different mechanisms, depending on nutrient availability and substrate quality is essential for devising management strategies to safeguard soil C stocks.
KW  - carbon sequestration
KW  - priming effect
KW  - microbial mining
KW  - succession
KW  - microorganisms
KW  - litter decomposition
Y1  - 2011
U6  - https://doi.org/10.1007/s10021-011-9440-z
SN  - 1432-9840
VL  - 14
IS  - 5
SP  - 710
EP  - 719
PB  - Springer
CY  - New York
ER  - 
TY  - THES
A1  - Tschöpe, Okka
T1  - Managing open habitats for species conservation : the role of wild ungulate grazing, small-scale disturbances, and scale
T1  - Offenlandmanagement für den Artenschutz : die Bedeutung von Wildtierbeweidung, kleinräumigen Störungen und der Maßstabsebene
N2  - During the last decades, the global change of the environment has caused a dramatic loss of habitats and species. In Central Europe, open habitats are particularly affected. The main objective of this thesis was to experimentally test the suitability of wild megaherbivore grazing as a conservation tool to manage open habitats. We studied the effect of wild ungulates in a 160 ha game preserve in NE Germany in three successional stages (i) Corynephorus canescens-dominated grassland, (ii) ruderal tall forb vegetation dominated by Tanacetum vulgare and (iii) Pinus sylvestris-pioneer forest over three years. Our results demonstrate that wild megaherbivores considerably affected species composition and delayed successional pathways in open habitats. Grazing effects differed considerably between successional stages: species richness was higher in grazed ruderal and pioneer forest plots, but not in the Corynephorus sites. Species composition changed significantly in the Corynephorus and ruderal sites. Grazed ruderal sites had turned into sites with very short vegetation dominated by Agrostis spp. and the moss Brachythecium albicans, most species did not flower. Woody plant cover was significantly affected only in the pioneer forest sites. Young pine trees were severely damaged and tree height was considerably reduced, leading to a “Pinus-macchie”-appearance. Ecological patterns and processes are known to vary with spatial scale. Since grazing by megaherbivores has a strong spatial component, the scale of monitoring success of grazing may largely differ among and within different systems. Thus, the second aim of this thesis was to test whether grazing effects are consistent over different spatial scales, and to give recommendations for appropriate monitoring scales. For this purpose, we studied grazing effects on plant community structure using multi-scale plots that included three nested spatial scales (0.25 m2, 4 m2, and 40 m2). Over all vegetation types, the scale of observation directly affected grazing effects on woody plant cover and on floristic similarity, but not on the proportion of open soil and species richness. Grazing effects manifested at small scales regarding floristic similarity in pioneer forest and ruderal sites and regarding species richness in ruderal sites. The direction of scale-effects on similarity differed between vegetation types: Grazing effects on floristic similarity in the Corynephorus sites were significantly higher at the medium and large scale, while in the pioneer forest sites they were significantly higher at the smallest scale. Disturbances initiate vegetation changes by creating gaps and affecting colonization and extinction rates. The third intention of the thesis was to investigate the effect of small-scale disturbances on the species-level. In a sowing experiment, we studied early establishment probabilities of Corynephorus canescens, a key species of open sandy habitats. Applying two different regimes of mechanical ground disturbance (disturbed and undisturbed) in the three successional stages mentioned above, we focused on the interactive effects of small-scale disturbances, successional stage and year-to-year variation. Disturbance led to higher emergence in a humid and to lower emergence in a very dry year. Apparently, when soil moisture was sufficient, the main factor limiting C. canescens establishment was competition, while in the dry year water became the limiting factor. Survival rates were not affected by disturbance. In humid years, C. canescens emerged in higher numbers in open successional stages while in the dry year, emergence rates were higher in late stages, suggesting an important role of late successional stages for the persistence of C. canescens. We conclude that wild ungulate grazing is a useful tool to slow down succession and to preserve a species-rich, open landscape, because it does not only create disturbances, thereby supporting early successional stages, but at the same time efficiently controls woody plant cover. However, wild ungulate grazing considerably changed the overall appearance of the landscape. Additional measures like shifting exclosures might be necessary to allow vulnerable species to flower and reproduce. We further conclude that studying grazing impacts on a range of scales is crucial, since different parameters are affected at different spatial scales. Larger scales are suitable for assessing grazing impact on structural parameters like the proportion of open soil or woody plant cover, whereas species richness and floristic similarity are affected at smaller scales. Our results further indicate that the optimal strategy for promoting C. canescens is to apply disturbances just before seed dispersal and not during dry years. Further, at the landscape scale, facilitation by late successional species may be an important mechanism for the persistence of protected pioneer species.
N2  - Der globale Wandel führte in den letzten Jahrzehnten zu einem drastischen Habitat- und Artenschwund, von dem in Mitteleuropa offene Lebensräume besonders betroffen sind. Hauptziel dieser Arbeit war es, experimentell zu untersuchen, ob Wildtierbeweidung eine geeignete Methode für das Offenlandmanagement ist. Der Wildtiereffekt wurde über drei Jahre in einem 160 ha großen Wildtiergehege im NO Deutschlands in drei Sukzessionsstadien untersucht: (i) Corynephorus canescens-dominierte Kurzgrasrasen, (ii) durch Tanacetum vulgare dominierte ruderale Staudenfluren und (iii) Pinus sylvestris-Vorwälder. Wildtierbeweidung beeinflusste die Artenzusammensetzung entscheidend und verzögerte die Sukzession, wobei sich die Beweidungseffekte zwischen den Sukzessionsstadien unterschieden. Die Artenzahl war in den beweideten Ruderal- und Vorwaldflächen deutlich höher als in den unbeweideten, nicht jedoch in den Corynephorus-Flächen. Die Artenzusammensetzung wurde in den Corynephorus- und den Ruderal-Flächen verändert. Ruderal-Flächen entwickelten sich durch die Beweidung zu einem durch Agrostis spp. dominierten Vegetationstyp mit niedriger Vegetationshöhe, in dem die meisten Arten nicht zur Blüte kamen. Die Gehölzdeckung wurde in den beweideten Vorwaldflächen signifikant reduziert. Junge Kiefern wurden stark geschädigt und in ihrer Wuchshöher reduziert. Analyse und Interpretation einer Untersuchung sind abhängig vom Beobachtungsmaßstab. Das zweite Ziel dieser Arbeit war es, zu testen, ob Beweidungseffekte über verschiedene räumliche Skalen konsistent sind, sowie Empfehlungen für geeignete Monitoring-Maßstäbe zu geben. Der Effekt von Wildtierbeweidung auf die Vegetation dreier Sukzessionsstadien wurde mittels genesteter Dauerflächen untersucht (0.25 m2, 4 m2, 40 m2). Über alle Vegetationstypen zusammen beeinflusste der Beobachtungsmaßstab den Beweidungseffekt auf die Gehölzdeckung sowie auf die floristische Ähnlichkeit, aber nicht auf den Anteil offenen Bodens und die Artenzahl. Betrachtet man die Vegetationstypen getrennt, so zeigte sich der Beweidungseffekt auf kleinen Skalen in den Vorwaldflächen und den ruderalen Flächen hinsichtlich der Ähnlichkeit und in den ruderalen Flächen hinsichtlich der Artenzahl. Die Richtung der Skaleneffekte auf die floristische Ähnlichkeit unterschied sich zwischen den Vegetationstypen: Während sich beweidete und unbeweidete Corynephorus-Flächen auf der mittleren und der großen Skala signifikant voneinander unterschieden, war dies im Kiefernvorwald auf der kleinsten Skala der Fall. Störungen führen zu Vegetationsveränderungen, die die Einwanderungs- und Aussterberaten von Arten beeinflussen. Das dritte Ziel dieser Arbeit war es, den Effekt kleinräumiger Störungen auf der Art-Ebene zu untersuchen sowie deren Interaktion mit dem Sukzessionsstadium und der jährlichen Variabilität. In einem Aussaatexperiment wurde das Etablierungsverhalten von Corynephorus canescens, einer Schlüsselart sandiger Offenhabitate, in drei Sukzessionsstadien und unter zwei Störungsregimes (gestört vs. ungestört) untersucht. In einem feuchten Jahr führten Störungen zu höheren, in einem trockenen Jahr dagegen zu niedrigeren Keimraten. Solange die Bodenfeuchtigkeit hoch genug war, war Konkurrenz der wichtigste limitierende Faktor für die Etablierung von C. canescens, während im trockenen Jahr Wasser zum entscheidenden Faktor wurde. Auf die Überlebensraten hatten Störungen keinen Einfluss. In feuchten Jahren waren die Keimraten in offenen Sukzessionsstadien höher, während sie im trockenen Jahr im späten Sukzessionsstadium höher waren. Spätere Sukzessionsstadien können also für die Persistenz von C. canescens eine wichtige Rolle spielen. Da Wildtierbeweidung sowohl Störungen verursacht und dadurch frühe Sukzessionsstadien fördert, als auch die Gehölzdeckung reduziert, ist sie eine besonders geeignete Maßnahme, um artenreiche, offene Landschaften zu erhalten. Sie kann jedoch zu teilweise drastischen Veränderungen der Landschaft führen, so dass zusätzliche Maßnahmen wie wechselnde Auskoppelungen notwendig sein können, um ein reiches Mosaik verschiedener Sukzessionsstadien mit einer hohen Gesamtartenzahl zu erhalten. Weiterhin ist die Untersuchung von Beweidungseffekten auf verschiedenen Maßstabsebenen von großer Bedeutung, da verschiedene Parameter auf unterschiedlichen Skalen beeinflusst werden. Größere Skalen sind geeignet, um den Beweidungseinfluss auf Strukturparameter wie den Anteil offenen Bodens oder der Gehölzdeckung zu erfassen, während für die Erfassung der Veränderung des Artenreichtums und der floristischen Ähnlichkeit kleinere Skalen besser geeignet sind. Unsere Ergebnisse zeigen außerdem, dass kleinräumige Störungen die Keimung von C. canescens fördern, wobei Störungen direkt vor der Samenausbreitung und nicht in trockenen Jahren durchgeführt werden sollten. Auf Landschaftsebene kann die Förderung durch Arten späterer Sukzessionsstadien ein wichtiger Mechanismus für die Persistenz geschützter Pionierarten sein.
KW  - Diversität
KW  - Sukzession
KW  - Etablierung
KW  - Corynephorus canescens
KW  - Maßstabsabhängigkeit
KW  - diversity
KW  - succession
KW  - establishment
KW  - Corynephorus canescens
KW  - scale dependence
Y1  - 2007
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-13218
ER  -