TY - JOUR A1 - Stark, Markus A1 - Bach, Moritz A1 - Guill, Christian T1 - Patch isolation and periodic environmental disturbances have idiosyncratic effects on local and regional population variabilities in meta-food chains JF - Theoretical ecology N2 - While habitat loss is a known key driver of biodiversity decline, the impact of other landscape properties, such as patch isolation, is far less clear. When patch isolation is low, species may benefit from a broader range of foraging opportunities, but are at the same time adversely affected by higher predation pressure from mobile predators. Although previous approaches have successfully linked such effects to biodiversity, their impact on local and metapopulation dynamics has largely been ignored. Since population dynamics may also be affected by environmental disturbances that temporally change the degree of patch isolation, such as periodic changes in habitat availability, accurate assessment of its link with isolation is highly challenging. To analyze the effect of patch isolation on the population dynamics on different spatial scales, we simulate a three-species meta-food chain on complex networks of habitat patches and assess the average variability of local populations and metapopulations, as well as the level of synchronization among patches. To evaluate the impact of periodic environmental disturbances, we contrast simulations of static landscapes with simulations of dynamic landscapes in which 30 percent of the patches periodically become unavailable as habitat. We find that increasing mean patch isolation often leads to more asynchronous population dynamics, depending on the parameterization of the food chain. However, local population variability also increases due to indirect effects of increased dispersal mortality at high mean patch isolation, consequently destabilizing metapopulation dynamics and increasing extinction risk. In dynamic landscapes, periodic changes of patch availability on a timescale much slower than ecological interactions often fully synchronize the dynamics. Further, these changes not only increase the variability of local populations and metapopulations, but also mostly overrule the effects of mean patch isolation. This may explain the often small and inconclusive impact of mean patch isolation in natural ecosystems. KW - Metacommunity dynamics KW - Dispersal KW - Patch isolation KW - Stability KW - Synchronization KW - Disturbance Y1 - 2021 U6 - https://doi.org/10.1007/s12080-021-00510-0 SN - 1874-1738 SN - 1874-1746 VL - 14 IS - 3 SP - 489 EP - 500 PB - Springer CY - Dordrecht ER - TY - THES A1 - Stark, Markus T1 - Implications of local and regional processes on the stability of metacommunities in diverse ecosystems T1 - Auswirkungen lokaler und regionaler Prozesse auf die Stabilität von Metagemeinschaften in diversen Ökosystemen N2 - Anthropogenic activities such as continuous landscape changes threaten biodiversity at both local and regional scales. Metacommunity models attempt to combine these two scales and continuously contribute to a better mechanistic understanding of how spatial processes and constraints, such as fragmentation, affect biodiversity. There is a strong consensus that such structural changes of the landscape tend to negatively effect the stability of metacommunities. However, in particular the interplay of complex trophic communities and landscape structure is not yet fully understood. In this present dissertation, a metacommunity approach is used based on a dynamic and spatially explicit model that integrates population dynamics at the local scale and dispersal dynamics at the regional scale. This approach allows the assessment of complex spatial landscape components such as habitat clustering on complex species communities, as well as the analysis of population dynamics of a single species. In addition to the impact of a fixed landscape structure, periodic environmental disturbances are also considered, where a periodical change of habitat availability, temporally alters landscape structure, such as the seasonal drying of a water body. On the local scale, the model results suggest that large-bodied animal species, such as predator species at high trophic positions, are more prone to extinction in a state of large patch isolation than smaller species at lower trophic levels. Increased metabolic losses for species with a lower body mass lead to increased energy limitation for species on higher trophic levels and serves as an explanation for a predominant loss of these species. This effect is particularly pronounced for food webs, where species are more sensitive to increased metabolic losses through dispersal and a change in landscape structure. In addition to the impact of species composition in a food web for diversity, the strength of local foraging interactions likewise affect the synchronization of population dynamics. A reduced predation pressure leads to more asynchronous population dynamics, beneficial for the stability of population dynamics as it reduces the risk of correlated extinction events among habitats. On the regional scale, two landscape aspects, which are the mean patch isolation and the formation of local clusters of two patches, promote an increase in $\beta$-diversity. Yet, the individual composition and robustness of the local species community equally explain a large proportion of the observed diversity patterns. A combination of periodic environmental disturbance and patch isolation has a particular impact on population dynamics of a species. While the periodic disturbance has a synchronizing effect, it can even superimpose emerging asynchronous dynamics in a state of large patch isolation and unifies trends in synchronization between different species communities. In summary, the findings underline a large local impact of species composition and interactions on local diversity patterns of a metacommunity. In comparison, landscape structures such as fragmentation have a negligible effect on local diversity patterns, but increase their impact for regional diversity patterns. In contrast, at the level of population dynamics, regional characteristics such as periodic environmental disturbance and patch isolation have a particularly strong impact and contribute substantially to the understanding of the stability of population dynamics in a metacommunity. These studies demonstrate once again the complexity of our ecosystems and the need for further analysis for a better understanding of our surrounding environment and more targeted conservation of biodiversity. N2 - Seit geraumer Zeit prägt der Mensch seine Umwelt und greift in die Struktur von Landschaften ein. In den letzten Jahrzehnten wurde die Landschaftsnutzung intensiviert und Ökosyteme weltweit anthropogen überprägt. Solche Veränderungen der Landschaft sind mit Verantwortlich für den derzeit rapiden Verlust an Biodiversität auf lokaler wie regionaler Ebene. Metagemeinschafts-Modelle versuchen diese beiden Ebenen zu kombinieren und kontinuierlich zu einem besseren mechanistischen Verständnis beizutragen, wie räumliche Prozesse, so z. B. Fragmentierung von Biotopen, die Biodiversität beeinflussen. Es besteht dabei ein großer Konsens, dass sich solche Änderungen der Landschaft tendenziell negativ auf die Stabilität von Metagemeinschaften auswirken. Jedoch ist insbesondere das Zusammenspiel von komplexen trophischen Gemeinschaften und räumlichen Prozessen längst nicht vollständig verstanden. In der vorliegenden Arbeit wird ein Metagemeinschafts-Modellansatz verwendet, der auf einem dynamischen und räumlich expliziten Modell basiert, das Populationsdynamiken auf der lokalen Ebene und Migrationsdynamiken auf der regionalen Ebene integriert. Dieser Ansatz erlaubt die Bewertung komplexer räumlicher Landschaftskomponenten wie z. B. die Auswirkung von Habitatsclustern auf Populationsdynamiken einzelner Arten bis hin zur Diversität komplexer Artengemeinschaften. Zusätzlich zum Einfluss von einzelner konstanter räumlicher Strukturen werden auch periodische Umweltstörungen berücksichtigt, bei der ein Wechsel der Habitatverfügbarkeit, die räumliche Struktur der Landschaft temporär verändert, wie z. B. die Austrocknung eines Gewässers. Auf der lokalen Ebene deuten die Modellergebnisse darauf hin, dass Tierarten mit einer großen Körpermasse, wie z. B. Raubtierarten in höheren trophischen Positionen, in einem Zustand großer Habitat-Isolation stärker vom Aussterben bedroht sind, als Arten mit geringer Körpermasse auf unteren trophischen Ebenen. Arten mit einer geringerer Körpermasse haben einen erhöhten metabolischen Verlust, der zu einer Energielimitierung auf den höheren trophischen Ebenen führt. Dies kann eine Erklärung dafür sein, dass Arten mit großer Körpermasse ein höheres Aussterberisiko in den Modellergebnissen aufweisen. Dieser Effekt ist vor allem in Nahrungsnetzen ausgeprägt, bei denen Arten empfindlicher auf metabolische Verluste durch Migration und eine Veränderung der Habitat Struktur reagieren. Neben der Bedeutung der Zusammensetzung der Arten eines Nahrungsnetzes für die Diversität, haben lokale Fraßinteraktionen ebenfalls Auswirkungen auf die Synchronisierung von Populationsdynamiken. Ein geringerer Fraßdruck führt zu mehr asynchronen Populationsdynamiken, die diese Dynamiken einer Metapopulation stabilisiert, sodass das Risiko von Aussterbeereignissen einzelner Arten sinkt. Auf der regionalen Ebene führen als landschaftliche Aspekte, neben der mittleren Habitat-Isolation, ebenso die Bildung von lokalen Clustern aus zwei Habitaten zu einer Zunahme der Beta-Diversität. Jedoch erklären die individuelle Zusammensetzung und Robustheit der lokalen Arten- gemeinschaft gleichermaßen einen großen Anteil der zu beobachteten Diversitätsmuster. Eine Kombination aus periodischen Umweltstörungen und Habitat-Isolation hat insbesondere einen Einfluss auf die Populationsdynamiken einzelner Arten. Populationsdynamiken können durch periodische Umweltstörungen synchronisiert werden, und dabei die sonst auftauchende asynchronen Populationsdynamiken bei einer größeren Habitat-Isolation überlagern. Die dadurch vereinheitlichen Trends in der Synchronisierung erhöhen das Risiko korrelierter Aussterbeereignisse einer Art. Zusammenfassend lassen sich zwei große Einflussfaktoren auf die lokalen Diversitätsmuster der Metagemeinschaften feststellen. Zum Einen die lokale Artenzusammensetzung und zum Anderen die Interaktionen der Arten. Im Vergleich dazu, haben räumliche Komponenten wie die Fragmentierung der Landschaft einen vernachlässigbaren Einfluss auf die lokalen Diversitätsmuster und gewinnen erst für regionale Diversitätsmuster an Gewicht. Im Gegensatz dazu spielen auf der Ebene der Populationsdynamik besonders regionale Eigenschaften, wie die periodische Umweltstörung und Habitat-Isolation, eine Rolle und tragen wesentlich zum Verständnis der Stabilität von Populationsdynamiken der Metagemeinschaft bei. Diese Untersuchungen zeigen einmal mehr die Komplexität unserer Ökosysteme und die Notwendigkeit weiterer Analysen für ein besseres Verständnis unserer umgebenen Umwelt und gezielteren Schutz der Biodiversität. KW - Fragmentation KW - Ecology KW - Food Web KW - Metacommunity KW - Disturbance KW - Störungen KW - Ökologie KW - Nahrungsnetze KW - Fragmentierung KW - Metagemeinschaften Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-526399 ER - TY - JOUR A1 - Heim, Ramona J. A1 - Hölzel, Norbert A1 - Heinken, Thilo A1 - Kamp, Johannes A1 - Thomas, Alexander A1 - Darman, Galina F. A1 - Smirenski, Sergei M. A1 - Heim, Wieland T1 - Post-burn and long-term fire effects on plants and birds in floodplain wetlands of the Russian Far East JF - Biodiversity and conservation N2 - Wildfires affect biodiversity at multiple levels. While vegetation is directly changed by fire events, animals are often indirectly affected through changes in habitat and food availability. Globally, fire frequency and the extent of fires are predicted to increase in the future. The impact of fire on the biodiversity of temperate wetlands has gained little attention so far. We compared species richness and abundance of plants and birds in burnt and unburnt areas in the Amur floodplain/Russian Far East in the year of fire and 1 year after. We also analysed vegetation recovery in relation to time since fire over a period of 18 years. Plant species richness was higher in burnt compared to unburnt plots in the year of the fire, but not in the year after. This suggests that fire has a positive short-term effect on plant diversity. Bird species richness and abundance were lower on burnt compared to unburnt plots in the year of the fire, but not in the year after. Over a period of 18 years, high fire frequency led to an increase in herb cover and a decrease in grass cover. We show that the effects on biodiversity are taxon- and species-specific. Fire management strategies in temperate wetlands should consider fire frequency as a key driving force of vegetation structure, with carry-over effects on higher trophic levels. Designing fire refuges, i.e., areas that do not burn annually, might locally be necessary to maintain high species richness. KW - Disturbance KW - Bird species richness KW - Vegetation structure KW - Fire frequency KW - Amur River Y1 - 2019 U6 - https://doi.org/10.1007/s10531-019-01746-3 SN - 0960-3115 SN - 1572-9710 VL - 28 IS - 6 SP - 1611 EP - 1628 PB - Springer CY - Dordrecht ER - TY - JOUR A1 - Plue, Jan A1 - De Frenne, Pieter A1 - Acharya, Kamal A1 - Brunet, Jörg A1 - Chabrerie, Olivier A1 - Decocq, Guillaume A1 - Diekmann, Martin A1 - Graae, Bente J. A1 - Heinken, Thilo A1 - Hermy, Martin A1 - Kolb, Annette A1 - Lemke, Isgard A1 - Liira, Jaan A1 - Naaf, Tobias A1 - Verheyen, Kris A1 - Wulf, Monika A1 - Cousins, Sara A. O. T1 - Where does the community start, and where does it end? BT - including the seed bank to reassess forest herb layer responses to the environment JF - Journal of vegetation science N2 - QuestionBelow-ground processes are key determinants of above-ground plant population and community dynamics. Still, our understanding of how environmental drivers shape plant communities is mostly based on above-ground diversity patterns, bypassing below-ground plant diversity stored in seed banks. As seed banks may shape above-ground plant communities, we question whether concurrently analysing the above- and below-ground species assemblages may potentially enhance our understanding of community responses to environmental variation. LocationTemperate deciduous forests along a 2000km latitudinal gradient in NW Europe. MethodsHerb layer, seed bank and local environmental data including soil pH, canopy cover, forest cover continuity and time since last canopy disturbance were collected in 129 temperate deciduous forest plots. We quantified herb layer and seed bank diversity per plot and evaluated how environmental variation structured community diversity in the herb layer, seed bank and the combined herb layer-seed bank community. ResultsSeed banks consistently held more plant species than the herb layer. How local plot diversity was partitioned across the herb layer and seed bank was mediated by environmental variation in drivers serving as proxies of light availability. The herb layer and seed bank contained an ever smaller and ever larger share of local diversity, respectively, as both canopy cover and time since last canopy disturbance decreased. Species richness and -diversity of the combined herb layer-seed bank community responded distinctly differently compared to the separate assemblages in response to environmental variation in, e.g. forest cover continuity and canopy cover. ConclusionsThe seed bank is a below-ground diversity reservoir of the herbaceous forest community, which interacts with the herb layer, although constrained by environmental variation in e.g. light availability. The herb layer and seed bank co-exist as a single community by means of the so-called storage effect, resulting in distinct responses to environmental variation not necessarily recorded in the individual herb layer or seed bank assemblages. Thus, concurrently analysing above- and below-ground diversity will improve our ecological understanding of how understorey plant communities respond to environmental variation. KW - Above-ground KW - Below-ground KW - Canopy KW - Disturbance KW - Diversity KW - Light availability KW - NWEurope KW - Plant community KW - Species co-existence KW - Storage effect Y1 - 2017 U6 - https://doi.org/10.1111/jvs.12493 SN - 1100-9233 SN - 1654-1103 VL - 28 IS - 2 SP - 424 EP - 435 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Boch, Steffen A1 - Prati, Daniel A1 - Müller, Jörg A1 - Socher, Stephanie A1 - Baumbach, Henryk A1 - Buscot, Francois A1 - Gockel, Sonja A1 - Hemp, Andreas A1 - Hessenmöller, Dominik A1 - Kalko, Elisabeth K. V. A1 - Linsenmair, K. Eduard A1 - Pfeiffer, Simone A1 - Pommer, Ulf A1 - Schöning, Ingo A1 - Schulze, Ernst-Detlef A1 - Seilwinder, Claudia A1 - Weisser, Wolfgang W. A1 - Wells, Konstans A1 - Fischer, Markus T1 - High plant species richness indicates management-related disturbances rather than the conservation status of forests JF - Basic and applied ecology : Journal of the Gesellschaft für Ökologie N2 - There is a wealth of smaller-scale studies on the effects of forest management on plant diversity. However, studies comparing plant species diversity in forests with different management types and intensity, extending over different regions and forest stages, and including detailed information on site conditions are missing. We studied vascular plants on 1500 20 m x 20 m forest plots in three regions of Germany (Schwabische Alb, Hainich-Dun, Schorfheide-Chorin). In all regions, our study plots comprised different management types (unmanaged, selection cutting, deciduous and coniferous age-class forests, which resulted from clear cutting or shelterwood logging), various stand ages, site conditions, and levels of management-related disturbances. We analyzed how overall richness and richness of different plant functional groups (trees, shrubs, herbs, herbaceous species typically growing in forests and herbaceous light-demanding species) responded to the different management types. On average, plant species richness was 13% higher in age-class than in unmanaged forests, and did not differ between deciduous age-class and selection forests. In age-class forests of the Schwabische Alb and Hainich-Dun, coniferous stands had higher species richness than deciduous stands. Among age-class forests, older stands with large quantities of standing biomass were slightly poorer in shrub and light-demanding herb species than younger stands. Among deciduous forests, the richness of herbaceous forest species was generally lower in unmanaged than in managed forests, and it was even 20% lower in unmanaged than in selection forests in Hainich-Dun. Overall, these findings show that disturbances by management generally increase plant species richness. This suggests that total plant species richness is not suited as an indicator for the conservation status of forests, but rather indicates disturbances. KW - Biodiversity Exploratories KW - Coniferous plantations KW - Disturbance KW - Ellenberg indicator values KW - Forest management KW - Selection vs. age-class forests KW - Silviculture KW - Standing biomass KW - Typical forest species KW - Unmanaged vs. managed forests Y1 - 2013 U6 - https://doi.org/10.1016/j.baae.2013.06.001 SN - 1439-1791 VL - 14 IS - 6 SP - 496 EP - 505 PB - Elsevier CY - Jena ER - TY - JOUR A1 - Naaf, Tobias A1 - Wulf, Monika T1 - Traits of winner and loser species indicate drivers of herb layer changes over two decades in forests of NW Germany JF - Journal of vegetation science N2 - Questions What are the most likely environmental drivers for compositional herb layer changes as indicated by trait differences between winner and loser species? Location Weser-Elbe region (NW Germany). Methods We resurveyed the herb layer communities of ancient forest patches on base-rich sites of 175 semi-permanent plots. Species traits were tested for their ability to discriminate between winner and loser species using logistic regression analyses and deviance partitioning. Results Of 115 species tested, 31 were identified as winner species and 30 as loser species. Winner species had higher seed longevity, flowered later in the season and more often had an oceanic distribution compared to loser species. Loser species tended to have a higher specific leaf area, were more susceptible to deer browsing and had a performance optimum at higher soil pH compared to winner species. The loser species also represented several ancient forest and threatened species. Deviance partitioning indicated that local drivers (i.e. disturbance due to forest management) were primarily responsible for the species shifts, while regional drivers (i.e. browsing pressure and acidification from atmospheric deposition) and global drivers (i.e. climate warming) had moderate effects. There was no evidence that canopy closure, drainage or eutrophication contributed to herb layer changes. Conclusions The relative importance of the different drivers as indicated by the winner and loser species differs from that found in previous long-term studies. Relating species traits to species performance is a valuable tool that provides insight into the environmental drivers that are most likely responsible for herb layer changes. KW - Acidification KW - Browsing pressure KW - Climate warming KW - Disturbance KW - Long-term change KW - Oceanic distribution KW - Seed longevity KW - Specific leaf area Y1 - 2011 U6 - https://doi.org/10.1111/j.1654-1103.2011.01267.x SN - 1100-9233 VL - 22 IS - 3 SP - 516 EP - 527 PB - Wiley-Blackwell CY - Malden ER - TY - THES A1 - Dreher, Nicolas Sébastien T1 - Entwicklung des pelagischen Nahrungsnetzes in einem neu entstandenen Tagebausee T1 - Development of the pelagic community in a newly flooded mining lake N2 - Im Rahmen der Untersuchung zur Entwicklung der pelagischen Gemeinschaft des ehemals sauren Tagebauseenkomplexes Goitsche (pH~3) während dessen Flutung und Neutralisierung wurden Wechselwirkungen zwischen der Zusammensetzung von Organismengemeinschaften und der Variabilität des abiotischen Umfeldes untersucht.Im Mittelpunkt standen zwei von ihrer Kausalität her unterschiedliche Aspekte: • Der erste Aspekt betraf die Reifung von Ökosystemen: War der Reifungsprozess von pelagischen Gemeinschaften anhand der von Odum (1969) formulierten Kriterien zur Energetik der Gemeinschaft, zu den Nährstoffkreisläufen sowie zu strukturellen Merkmalen auf Ökosystem- und Individuenebene zu erfassen? Führten der physiologische Stress durch den niedrigen pH und physikalische Störungen der Schichtung durch das einströmende Flutungswasser zu einer Umkehr des Reifungsprozesses? Auf welchen Organisationsebenen der Lebensgemeinschaften waren die Auswirkungen dieser Stressoren erkennbar? • Der zweite Aspekt behandelte die Entwicklung der Artenzahl, die Gleichverteilung der Dominanz von Arten (Eveness) und die Diversität von Planktongemeinschaften entlang des Produktivitätsgradienten. Speziell wurde untersucht, ob die Artenzahl und die Diversität eine monoton positive oder eine unimodale Funktion der Produktivität waren und ob die Eveness eine monoton abnehmende Funktion der Produktivität war. Zur besseren Vorhersagbarkeit der Entwicklung dieser Indizes wurden in einem nächsten Schritt zusätzliche biotische und abiotische Faktoren (z.B. Konsumenteneffekte, physikalische Störung, Immigration) berücksichtigt. Zuletzt wurde die Hypothese getestet, dass unter dem Einfluss von extremem physiologischem Stress keine Abhängigkeit zwischen den betrachteten Indizes und der Produktivität von Ökosystemen besteht. Die Untersuchungen der vorliegenden Arbeit führten zu folgenden Ergebnissen und Schlussfolgerungen: 1) Der Reifungsprozess der Planktongemeinschaft war unter neutralen Bedingungen nicht eindeutig an einzelnen Kriterien festzumachen. Vielmehr schienen idiosynkratische Effekte einzelner Arten auf die Zusammensetzung und Funktion der Organismengemeinschaft von Bedeutung. Coenobiumbildende Kieselalgen sowie größere Cladoceren und Copepoden dominierten sehr rasch die Planktongemeinschaft und vermittelten den Eindruck eines reifen Ökosystems fast unmittelbar nach der Neutralisierung des Tagebausees. 2) Der Einfluss von physiologischem Säurestress und physikalischer Störung der Schichtung durch das eintretende Flutungswasser war gegenüber einem neutralen, ungestörten Teilbecken des Tagebausees (Referenzzustand) eindeutig zu erkennen. Die isolierte Betrachtung der Wirkung der Stressoren lieferte hinsichtlich fast aller Kriterien Anzeichen einer Verjüngung des Systems sensu Odum (1969, 1985). 3) Im betrachteten Ökosystem existierte eine Hierarchie innerhalb der Stressoren. Der Einfluss des Säurestresses dominierte gegenüber dem Einfluss der physikalischen Störung, wahrscheinlich indem er die Reaktionsmöglichkeiten der Planktongemeinschaft einschränkte. 4) Für Primärproduzenten war die Artenzahl eine monoton positive Funktion der realisierten Biomasse (einem Surrogatparameter für die Produktivität des Systems). Die Eveness war eine monoton negative Funktion der Produktivität. Die beobachtete unimodale Beziehung zwischen der Diversität und der Produktivität der Primärproduzenten muss als eine Folge der mathematischen Formulierung dieser Indizes betrachtet werden. 5) Die Ergebnisse multivariater Modelle zur Vorhersage der Artenzahl und der Eveness der Primärproduzenten in Abhängigkeit zusätzlicher erfassbarer biotischer und abiotischer Faktoren ermöglichten eine differenziertere Betrachtung der Ergebnisse: • Im Tagebausee Goitsche war die Eveness hauptsächlich von dichteabhängigen Prozessen gesteuert (negative Abhängigkeit zum Quadrat der Biomassen und zu den Lichtverhältnissen). • Die Entwicklung der Artenzahl war neben dem primären Einfluss der zunehmenden Biomasse auch durch qualitative und quantitative Aspekte der Konsumentengemeinschaft (Diversität und Biomasse des Zooplanktons) beeinflusst. Der Einfluss einer erhöhten Immigration auf die Artenzahl wurde nur zu Beginn der Flutung des Tagebausees beobachtet. 6) Auf Ebene der Konsumenten war die einzige eindeutig feststellbare Abhängigkeit ein Anstieg der Artenzahl mit steigender Biomasse. Das Fehlen von weiteren Beziehungen zwischen Diversitätsindizes und dem Produktivitätsgradienten wird darauf zurückgeführt, dass auf den unteren trophischen Ebenen der Primärproduzenten Ressourceneffekte (Bottom-Up) stärker ausgeprägt sind, wohingegen auf höheren trophischen Ebenen Konsumenteneffekte (Top-Down) dominieren. 7) In durch physiologischen Stress beeinflussten Systemen bestand keine Abhängigkeit zwischen den Diversitätsindizes (Artenzahl, Eveness und Diversität) und der Produktivität. N2 - The objective of this study was to investigate the development of the pelagic plankton community of the formerly acidic open mining lake Goitsche (pH~3) during its flooding and neutralization. The emphasis was on the interaction between the community composition of an ecosystem and the variability of the abiotic environment. The focus was on two aspects, differing in their causality: • The first aspect concerned the maturation process of the studied ecosystem: Was it possible to picture the development of the pelagic community, based on the criteria formulated by Odum (1969) about the energetics of communities, the nutrient cycling and the structural characteristics at the level of the whole system and of individuals? Do the physiological stress and the physical disturbances, caused by the acidic environment and the inflowing water, induce a reversal of the maturation process? And on which levels of organization can the effect of these stressors be detected? • The second aspect concerned the relationship between selected diversity indices of the community (Species richness, Eveness and Diversity) and the whole-system productivity gradient. I looked whether the Species richness and the Diversity were a monotonous increasing or a unimodale function of the productivity, and if the Eveness was a monotonous decreasing function of the productivity. In a next step, to assure a better predictability of these indices, I took additional biotic and abiotic variables (e.g. consumer effect, physical disturbance, and immigration) into consideration. Lastly, I tested the hypothesis that under the influence of extreme physiological stress there would be no relationship between the diversity indices and the productivity. Main results and conclusions are as follows: 1) The maturation process of the plankton community under neutral conditions could not clearly be depicted by single criteria alone. The structure and function of the community seemed much more driven by idiosyncratic effects of individual species. Coenobial diatoms as well as larger Cladocera and Copepoda, which rapidly dominated the plankton community, made the ecosystem look mature almost immediately after the neutralization of the mining lake. 2) The influence of the physiological stress and the physical disturbances on the maturation process was observed, when compared to an unimpaired reference basin of the open mining lake. When the effects of the two stressors were considered alone, nearly all criteria confirmed a reversal of the maturation process sensu Odum (1969, 1985). 3) In the ecosystem there existed a hierarchy within stressors. The influence of the acid stress dominated over the influence of the physical disturbance, probably by restraining the reaction potential of the plankton community. 4) For primary producers, the Species richness was a monotonous positive function of the realized biomass (a surrogate for the productivity of the ecosystem), and the Eveness a monotonous negative function of the productivity. The observed unimodale relationship between the Diversity and the productivity of primary producers must be seen as a consequence of the mathematical formulation of these indices. 5) The results of multivariate models regarding the forecast of both Species richness and Eveness of the primary producers in relation to the additionally considered biotic and abiotic factors revealed following dependences: • In the mining lake Goitsche the realized Eveness was mainly explained by density dependent processes (negative dependence to the square of the producer biomass and to the light level). • Besides the main influence of increasing biomasses, the Species richness was a function of qualitative and quantitative aspects of the consumer community (Diversity and biomass of the zooplankton). A significant impact of species immigration from the regional pool on the realized Species richness was observed only at the beginning of the flooding of the mining lake. 6) At the consumer level, the only significant relationship was an increase of the Species richness with increasing biomass. The absence of further dependencies between diversity indices and the productivity gradients is attributed to the fact that on lower trophic levels Bottom-Up effects play a major role in the regulation of the community structure, whereas on higher trophic levels Top-Down effects dominate. 7) In ecosystems affected by physiological stress no relationship existed between the diversity indices (Species richness, Eveness and Diversity) of the plankton community and the productivity. KW - Ökosystementwicklung KW - Stress KW - Störung KW - Diversitäts-Produktivitäts-Beziehung KW - Tagebauseen KW - Ecosystem development KW - Stress KW - Disturbance KW - Diversity-Productivity relationship KW - mining lakes Y1 - 2007 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-15098 ER -