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The establishment of aquatic alien species can strongly affect community and food web structure of the invaded systems and thus represents a major threat to native biodiversity. One of the most important aquatic invasive species in European rivers is the Ponto-Caspian amphipod Dikerogammarus villosus. The species invaded most of the major European waterways within two decades, often associated with a decline of many other macroinvertebrate species, including other amphipods. Based on laboratory results predation by the so called ‘killer shrimp’ is often regarded as the key driver for observed displacement effects, but recent studies indicated a minor relevance of predation by D. villosus in the field. To allow the determination of exact predator-prey interactions from field samples, I established 22 group-specific rDNA primers for freshwater taxa suitable for prey species identification in dietary samples (Chapter II) and an approach for the screening of D. villosus gut contents using 16 of these primers. Combining genetic gut content analyses, with one of these primers, and stable isotope analyses, I examined the importance of intraguild predation (IGP) by D. villosus, which is often assumed the key driver for the displacement of native amphipod species, at an invasion front of the species in Switzerland (Chapter III). The results of this study revealed a low importance of IGP during this particular D. villosus invasion and indicated an overall sparsely predacious feeding behaviour of the species. As the feeding behaviour of D. villosus is supposed to differ between habitats and this study was only conducted at a few sampling sites of one river, I also investigated the role of predation by D. villosus at multiple sites of the River Rhine system, covering a broad range of microhabitats (Chapter IV). In keeping with the results from the invasion front results of this study strongly indicated a sparsely predacious feeding but rather a flexible feeding behaviour of D. villosus even within the same microhabitat.
However, established populations of D. villosus have changed aquatic food webs and can be expected to affect aquatic-terrestrial energy fluxes. In Chapter V of my thesis, I present a field study investigating the impact of D. villosus on the diet of two riparian spider taxa. The results of this study indicate an effect of D. villosus on the terrestrial food web via cross-ecosystem resource flow.
In conclusion, D. villosus influences terrestrial food webs by altering cross-ecosystem resource fluxes, but it is rather an opportunistic omnivore than a predator in the field.
While reading this sentence, you probably gave (more or less deliberately) instructions to approximately 100 to 200 muscles of your body. A sceptical face or a smile, your fingers scrolling through the text or holding a printed version of this work, holding your head, sitting, and much more.
All these processes take place almost automatically, so they seem to be no real achievement. In the age of digitalization it is a defined goal to transfer human (psychological and physiological) behavior to machines (robots). However, it turns out that it is indeed laborious to obtain human facial expression or walking from robots. To optimize this transfer, a deeper understanding of a muscle's operating principle is needed (and of course an understanding of the human brain, which will, however, not be part of this thesis).
A human skeletal muscle can be shortened willingly, but not lengthened, thereto it takes an antagonist. The muscle's change in length is dependent on the incoming stimulus from the central nervous system, the current length of the muscle itself, and certain muscle--specific quantities (parameters) such as the maximum force. Hence, a muscle can be mathematically described by a differential equation (or more exactly a coupled differential--algebraic system, DAE), whose structure will be revealed in the following chapters. The theory of differential equations is well-elaborated. A multitude of applicable methods exist that may not be known by muscle modelers. The purpose of this work is to link the methods from applied mathematics to the actual application in biomechanics.
The first part of this thesis addresses stability theory. Let us remember the prominent example from middle school physics, in which the resting position of a ball was obviously less susceptible towards shoves when lying in a bowl rather than balancing at the tip of a hill. Similarly, a dynamical (musculo-skeletal) system can attain equilibrium states that react differently towards perturbations.
We are going to compute and classify these equilibria.
In the second part, we investigate the influence of individual parameters on model equations or more exactly their solutions. This method is known as sensitivity analysis.
Take for example the system "car" containing a value for the quantity "pressure on the break pedal while approaching a traffic light". A minor deviation of this quantity upward or downward may lead to an uncomfortable, abrupt stop or even to a collision, instead of a smooth stop with a sufficient gap.
The considered muscle model contains over 20 parameters that, if changed slightly, have varying effects on the model equation solutions at different instants of time. We will investigate the sensitivity of those parameters regarding different sub--models, as well as the whole model among different dynamical boundary conditions.
The third and final part addresses the \textit{optimal control} problem (OCP).
The muscle turns a nerve impulse (input or control) into a length change and therefore a force response (output). This forward process is computable by solving the respective DAE. The reverse direction is more difficult to manage. As an everyday example, the OCP is present regarding self-parking cars, where a given path is targeted and the controls are the position of the
steering wheel as well as the gas pedal.
We present two methods of solving OCPs in muscle modeling: the first is a conjunction of variational calculus and optimization in function spaces, the second is a surrogate-based optimization.
This habilitation thesis collects works addressing several challenges on handling uncertainty and inconsistency in knowledge representation. In particular, this thesis contains works which introduce quantitative uncertainty based on probability theory into abstract argumentation frameworks. The formal semantics of this extension is investigated and its application for strategic argumentation in agent dialogues is discussed. Moreover, both the computational as well as the meaningfulness of approaches to analyze inconsistencies, both in classical logics as well as logics for uncertain reasoning is investigated. Finally, this thesis addresses the implementation challenges for various kinds of knowledge representation formalisms employing any notion of inconsistency tolerance or uncertainty.
In Part I: "The flow-decomposition problem", we introduce and discuss the flow-decomposition problem. Given a flow F, this problem consists of decomposing the flow into a set of paths optimizing specific properties of those paths. We introduce different types of decompositions, such as integer decompositions and alpha-decompositions, and provide two formulations of the set of feasible decompositions.
We show that the problem of minimizing the longest path in a decomposition is NP-hard, even for fractional solutions. Then we develop an algorithm based on column generation which is able to solve the problem.
Tight upper bounds on the optimal objective value help to improve the performance.
To find upper bounds on the optimal solution for the shortest longest path problem, we develop several heuristics and analyze their quality. On pearl graphs we prove a constant approximation ratio of 2 and 3 respectively for all heuristics. A numerical study on random pearl graphs shows that the solutions generated by the heuristics are usually much better than this worst-case bound.
In Part II: "Construction and analysis of evacuation models using flows over time", we consider two optimization models in the context of evacuation planning. The first model is a parameter-based quickest flow model with time-dependent supply values. We give a detailed description of the network construction and of how different scenarios are modeled by scenario parameters. In a second step we analyze the effect of the scenario parameters on the evacuation time. Understanding how the different parameters influence the evacuation time allows us to provide better advice for evacuation planning and allows us to predict evacuation times without solving additional optimization problems. To understand the effect of the time-dependent supply values, we consider the quickest path problem with time-dependent supply values and provide a solution algorithm. The results from this consideration are generalized to approximate the behavior of the evacuation times in the context of quickest flow problems.
The second model we consider is a path-based model for evacuation in the presence of a dynamic cost function. We discuss the challenges of this model and provide ideas for how to approach the problem from different angles. We relate the problem to the flow-decomposition problem and consider the computation of evacuation paths with dynamic costs for large capacities. For the latter method we provide heuristics to find paths and compare them to the optimal solutions by applying the methods to two evacuation scenarios. An analysis shows that the paths generated by the heuristic yield close to optimal solutions and in addition have several desirable properties for evacuation paths which are not given for the optimal solution.
Die automatische Identifikation von Experten in einer speziellen technologischen Domäne, wie einer Bibliothek, Framework oder generellen Technologie, schafft einen großen Mehrwert in der gemeinsamen Entwicklung von Softwareprojekten. Daher soll in dieser Arbeit ein Vorgehen sowie ein Programm zur automatischen Identifikation von Experten entwickelt werden, die gewissen Skills besitzen. Hierbei wird speziell das Django-Framework betrachtet. Jedoch kann durch hinzufügen von weiteren Regeln unser Tool leicht auf andere Technologien angepasst werden. Abschließend wird eine case study auf ein Open Source Projekt durchgeführt.
In the new epoch of Anthropocene, global freshwater resources are experiencing extensive degradation from a multitude of stressors. Consequently, freshwater ecosystems are threatened by a considerable loss of biodiversity as well as substantial decrease in adequate and secured freshwater supply for human usage, not only on local scales, but also on regional to global scales. Large scale assessments of human and ecological impacts of freshwater degradation enable an integrated freshwater management as well as complement small scale approaches. Geographic information systems (GIS) and spatial statistics (SS) have shown considerable potential in ecological and ecotoxicological research to quantify stressor impacts on humans and ecological entitles, and disentangle the relationships between drivers and ecological entities on large scales through an integrated spatial-ecological approach. However, integration of GIS and SS with ecological and ecotoxicological models are scarce and hence the large scale spatial picture of the extent and magnitude of freshwater stressors as well as their human and ecological impacts is still opaque. This Ph.D. thesis contributes novel GIS and SS tools as well as adapts and advances available spatial models and integrates them with ecological models to enable large scale human and ecological impacts identification from freshwater degradation. The main aim was to identify and quantify the effects of stressors, i.e climate change and trace metals, on the freshwater assemblage structure and trait composition, and human health, respectively, on large scales, i.e. European and Asian freshwater networks. The thesis starts with an introduction to the conceptual framework and objectives (chapter 1). It proceeds with outlining two novel open-source algorithms for quantification of the magnitude and effects of catchment scale stressors (chapter 2). The algorithms, i.e. jointly called ATRIC, automatically select an accumulation threshold for stream network extraction from digital elevation models (DEM) by assuring the highest concordance between DEM-derived and traditionally mapped stream networks. Moreover, they delineate catchments and upstream riparian corridors for given stream sampling points after snapping them to the DEM-derived stream network. ATRIC showed similar or better performance than the available comparable algorithms, and is capable of processing large scale datasets. It enables an integrated and transboundary management of freshwater resources by quantifying the magnitude of effects of catchment scale stressors. Spatially shifting temporal points (SSTP), outlined in chapter 3, estimates pooled within-time series (PTS) variograms by spatializing temporal data points and shifting them. Data were pooled by ensuring consistency of spatial structure and temporal stationarity within a time series, while pooling sufficient number of data points and increasing data density for a reliable variogram estimation. SSTP estimated PTS variograms showed higher precision than the available method. The method enables regional scale stressors quantification by filling spatial data gaps integrating temporal information in data scarce regions. In chapter 4, responses of the assumed climate-associated traits from six grouping features to 35 bioclimatic indices for five insect orders were compared, their potential for changing distribution pattern under future climate change was evaluated and the most influential climatic aspects were identified (chapter 4). Traits of temperature preference grouping feature and the insect order Ephemeroptera exhibited the strongest response to climate as well as the highest potential for changing distribution pattern, while seasonal radiation and moisture were the most influential climatic aspects that may drive a change in insect distribution pattern. The results contribute to the trait based freshwater monitoring and change prediction. In chapter 5, the concentrations of 10 trace metals in the drinking water sources were predicted and were compared with guideline values. In more than 53% of the total area of Pakistan, inhabited by more than 74 million people, the drinking water was predicted to be at risk from multiple trace metal contamination. The results inform freshwater management by identifying potential hot spots. The last chapter (6) synthesizes the results and provides a comprehensive discussion on the four studies and on their relevance for freshwater resources conservation and management.
Global crop production increased substantially in recent decades due to agricultural intensification and expansion and today agricultural areas occupy about 38% of Earth’s terrestrial surface - the largest use of land on the planet. However, current high-intensity agricultural practices fostered in the context of the Green Revolution led to serious consequences for the global environment. Pesticides, in particular, are highly biologically active substances that can threaten the ecological integrity of aquatic and terrestrial ecosystems. Although the global pesticide use increases steadily, our field-data based knowledge regarding exposure of non-target ecosystems such as surface waters is very restricted. Available studies have by now been limited to spatially restricted geographical areas or had rather specific objectives rendering the extrapolation to larger spatial scales questionable.
Consequently, this thesis evaluated based on four scientific publications the exposure, effects, and regulatory implications of particularly toxic insecticides` concentrations detected in global agricultural surface waters. FOCUS exposure modelling was used to characterise the highly specific insecticide exposure patterns and to analyse the resulting implications for both monitoring and risk assessment (publication I). Based on more than 200,000 scientific database entries, 838 peer-reviewed studies finally included, and more than 2,500 sites in 73 countries, the risks of agricultural insecticides to global surface waters were analysed by means of a comprehensive meta-analysis (publication II). This meta-analysis evaluated whether insecticide field concentrations exceed legally accepted regulatory threshold levels (RTLs) derived from official EU and US pesticide registration documents and, amongst others, how risks depend on insecticide development over time and stringency of environmental regulation. In addition, an in-depth analysis of the current EU pesticide regulations provided insights into the level of protection and field relevance of highly elaborated environmental regulatory risk assessment schemes (publications III and IV).
The results of this thesis show that insecticide surface water exposure is characterized by infrequent and highly transient concentration peaks of high ecotoxicological relevance. We thus argue in publication I that sampling based on regular intervals is inadequate for the detection of insecticide surface water concentrations and that traditional risk assessment concepts based on all insecticide concentrations including non-detects lead to severely biased results and critical underestimations of risks. Based on these considerations, publication II demonstrates that out of 11,300 measured insecticide concentrations (MICs; i.e., those actually detected and quantified), 52.4% (5,915 cases; 68.5%) exceeded the RTL for either water (RTLSW) or sediments. This indicates a substantial risk for the biological integrity of global water resources as additional analyses on pesticide effects in the field clearly evidence that the regional aquatic biodiversity is reduced by approximately 30% at pesticide concentrations equalling the RTLs. In addition, publication II shows that there is a complete lack of scientific monitoring data for ~90% of global cropland and that both the actual insecticide contamination of surface waters and the resulting ecological risks are most likely even greater due to, for example, inadequate sampling methods employed in the studies and the common occurrence of pesticide mixtures. A linear model analysis identified that RTLSW exceedances depend on the catchment size, sampling regime, sampling date, insecticide substance class, and stringency of countries` environmental regulations, as well as on the interactions of these factors. Importantly, the risks are significantly higher for newer-generation insecticides (i.e., pyrethroids) and are high even in countries with stringent environmental regulations. Regarding the latter, an analysis of the EU pesticide regulations revealed critical deficiencies and the lack of protectiveness and field-relevance for current presumed highly elaborated FOCUS exposure assessment (publication IV) and overall risk assessment schemes (publication III). Based on these findings, essential risk assessment amendments are proposed.
In essence, this thesis analyses the agriculture–environment linkages for pesticides at the global scale and it thereby contributes to a new research frontier in global ecotoxicology. The overall findings substantiate that agricultural insecticides are potential key drivers for the global freshwater biodiversity crisis and that the current regulatory risk assessment approaches for highly toxic anthropogenic chemicals fail to protect the global environment. This thesis provides an integrated view on the environmental side effects of global high-intensity agriculture and alerts that beside worldwide improvements to current pesticide regulations and agricultural pesticide application practices, the fundamental reformation of conventional agricultural systems is urgently needed to meet the twin challenges of providing sufficient food for a growing human population without destroying the ecological integrity of global ecosystems essential to human existence.
Die nichtsuizidale Selbstverletzung (NSSV) wurde im DSM-5 als Störung zur weiteren Erforschung aufgenommen. Daher ist es wichtig, die vorgeschlagenen Diagnosekriterien hinsichtlich ihrer diagnostischen, klinischen und psychologischen Korrelate zu untersuchen. Zusätzlich ist eine klare Abgrenzung zur Borderline Persönlichkeitsstörung (BPS) notwendig, hierbei könnte die Untersuchung von Persönlichkeitseigenschaften helfen. Soziale Schwierigkeiten dienen oft als Auslöser von NSSV. Dennoch ist wenig erforscht, wie Jugendliche mit NSSV soziale Situation wahrnehmen. Ein neues Emotionserkennungsparadigma mit farbigen, dynamischen emotionalen Gesichtsausdrücken wurde entwickelt und an einer studentischen Stichprobe evaluiert, die für ihre hohe (HSA) oder niedrige soziale Ängstlichkeit (LSA) ausgewählt wurde. HSA zeigten eine Tendenz zu einer beeinträchtigten Erkennung von Gesichtsausdrücken. Des Weiteren konnte eine gute Konstruktvalidität für das Paradigma festgestellt werden.
In der Hauptstudie untersuchten wir die Charakteristika von NSSV, die Persönlichkeitseigenschaften und die Emotionserkennung bei 57 Jugendlichen mit NSSV, 12 Jugendlichen mit NSSV ohne Einschränkung und Leiden, 13 Jugendlichen mit BPS, einer klinischen Kontrollgruppe (n = 32) und einer nicht-klinischen Kontrollgruppe (n = 64). Die Teilnehmer wurden bezüglich psychischer Störungen befragt, füllten Fragebögen aus und nahmen am Emotionserkennungsparadigma teil.
Die Ergebnisse zeigten auf, dass Jugendliche mit NSSV im Vergleich zur klinischen Kontrollgruppe eine erhöhte Psychopathologie aufwiesen. Weiterhin fanden sich Gemeinsamkeiten sowie Unterschiede zwischen den Jugendlichen mit NSSV und Jugendlichen mit BPS. Jugendliche mit NSSV kennzeichnen sich durch eine hohe Schadensvermeidung und hohes Neugierverhalten im Vergleich zur klinischen Kontrollgruppe. Bei Jugendlichen mit BPS waren diese Persönlichkeitseigenschaften noch ausgeprägter. Weiterhin, konnten keine Gruppenunterschiede bezüglich der Emotionserkennung gefunden werden. Jugendliche mit NSSV bewerteten jedoch die Gesichtsausdrücke als unangenehmer und emotional aufwühlender.
Zusammenfassend zeigt sich NSSV als stark einschränkende Störung, die mit einer hohen Komorbidität einhergeht und mit spezifischen Persönlichkeitseigenschaften assoziiert ist. Die Ergebnisse liefern zusätzliche Evidenz für die neue Diagnose NSSV und weisen darauf hin, dass die vorgeschlagenen DSM-5 Kriterien hilfreich und notwendig sind.
Aquatic macrophytes can contribute to the retention of organic contaminants in streams, whereas knowledge on the dynamics and the interaction of the determining processes is very limited. The objective of the present study was thus to assess how aquatic macrophytes influence the distribution and the fate of organic contaminants in small vegetated streams. In a first study that was performed in vegetated stream mesocosms, the peak reductions of five compounds were significantly higher in four vegetated stream mesocosms compared to a stream mesocosm without vegetation. Compound specific sorption to macrophytes was determined, the mass retention in the vegetated streams, however, did not explain the relationship between the mitigation of contaminant peaks and macrophyte coverage. A subsequent mesocosm study revealed that the mitigation of peak concentrations in the stream mesocosms was governed by two fundamentally different processes: dispersion and sorption. Again, the reductions of the peak concentrations of three different compounds were in the same order of magnitude in a sparsely and a densely vegetated stream mesocosm, respectively, but higher compared to an unvegetated stream mesocosm. The mitigation of the peak reduction in the sparsely vegetated stream mesocosm was found to be fostered by longitudinal dispersion as a result of the spatial distribution of the macrophytes in the aqueous phase. The peak reduction attributable to longitudinal dispersion was, however, reduced in the densely vegetated stream mesocosm, which was compensated by compound-specific but time-limited and reversible sorption to macrophytes. The observations on the reversibility of sorption processes were subsequently confirmed by laboratory experiments. The experiments revealed that sorption to macrophytes lead to compound specific elimination from the aqueous phase during the presence of transient contaminant peaks in streams. After all, these sorption processes were found to be fully reversible, which results in the release of the primarily adsorbed compounds, once the concentrations in the aqueous phase starts to decrease. Nevertheless, the results of the present thesis demonstrate that the processes governing the mitigation of contaminant loads in streams are fundamentally different to those already described for non-flowing systems. In addition, the present thesis provides knowledge on how the interaction of macrophyte-induced processes in streams contributes to mitigate loads of organic contaminants and the related risk for aquatic environments.
Flowering habitats to enhance biodiversity and pest control services in agricultural landscapes
(2015)
Die wachsende Nachfrage nach landwirtschaftlichen Produkten benötigt Bewirtschaftungslösungen, die die Lebensmittelproduktion unter minimaler Beeinträchtigung der Umwelt steigern. Durch den übermässigen Einsatz künstlicher Hilfsstoffe und die Landschaftsvereinfachung gefährdet die konventionelle landwirtschaftliche Intensivierung die Biodiversität und die damit verknüpften Ökosystemleistungen im landwirtschaftlichen Raum.
Agrarumweltmassnahmen (AES) werden häufig eingesetzt, um die negativen Auswirkungen konventioneller Intensivierung auf die Biodiversität zu mildern. Ihr bisher nur moderater Erfolg könnte jedoch von expliziteren Zielen bezüglich Ökosystemleistungen profitieren. Das Bereitstellen von Schlüsselressourcen für Nützlinge dürfte deren Häufigkeit, Fitness und Diversität, sowie die durch sie bereitgestellten Ökosystemleistungen begünstigen. Durch gezieltes Lebensraummanagement könnten AES sowohl die Biodiversität als auch die landwirtschaftliche Produktion fördern und so zu einer ökologischen Intensivierung beitragen.
Wir zeigen, dass gesäte mehrjährige Wildblumenstreifen, wie sie gegenwärtig in AES mit Fokus auf Biodiversitätsförderung umgesetzt werden, auch die biologische Kontrolle in benachbarten Kulturen fördern (Kapitel 2). Der Vergleich von Winterweizenfeldern mit angrenzendem Wildblumenstreifen, mit Feldern ohne Wildblumenstreifen, zeigte stark reduzierte Getreidehähnchendichten (Oulema sp.) und Pflanzenschaden nahe Wildblumenstreifen, sowie ein um 10 % gesteigerter Ertrag. Dies bestätigt Annahmen, wonach, für ihre positiven Auswirkungen auf die Biodiversität bekannte Wildblumenstreifen, auch Ökosystemleistung-en, wie biologische Schädlingskontrolle fördern können. Die positive Korrelation des Ertrags mit Blütenabundanz und –diversität weist auf Blütenressourcen als Schlüsselfaktor hin.
Um gesäte Blühstreifen für die verstärkte Bereitstellung von Ökosystemleistungen zu verbessern, benötigt es ein mechanistisches Verständnis davon, wie Organismen von Blütenressourcen profitieren. In Klimakabinenversuchen, die den Einfluss von einzelnen und mehreren blühenden Pflanzenarten auf Fitnesskomponenten von drei grundlegenden natürlichen Feind-Arthropoden von Blattläusen untersuchten, zeigen wir, dass natürliche Feinde unterschiedlich von den angebotenen Ressourcen profitieren (Kapitel 3).
Einige Blühpflanzenarten waren dabei im Allgemeinen wertvoller für natürliche Feinde als andere. Die Mischung aller Blütenpflanzen war zudem generell besser als Monokulturen, jedoch nicht besser als die jeweils beste Art in der Mischung (kein „transgressive overyielding“). Durch gezieltes Massschneidern von Blühstreifen auf die Bedürfnisse von wichtigen natürlichen Feinden von Kulturschädlingen, versuchten wir, die durch natürliche Feinde vermittelte biologische Schädlingskontrolle in Winterweizen (Kapitel 4) und Kartoffelkulturen (Kapitel 5) zu maximieren.
Unter Berücksichtigung der vielseitigen Ansprüchen von diversen natürlichen Feinden - aber nicht Schädlingen - bezüglich zeitlicher und räumlicher Bereitstellung von floralen, extrafloralen und strukturellen Ressourcen, konzipierten wir einjährige Nützlingsblühstreifen, die durch Einbau in die Kulturfolge wichtige Arthropoden an Ort und Zeit unterstützen, an denen sie benötigt werden. Tatsächlich zeigten Feldexperimente, dass Getreidehähnchen und Pflanzenschaden in Winterweizen um 40 % bis 61 % gesenkt werden können und Blattläuse in Kartoffelkulturen sogar um 77 %, wenn ein Nützlingsblühstreifen ins Feld gesät wurde. Diese Effekte waren nicht auf die Nähe zum Blühstreifen beschränkt und verhinderten oft, dass im Vergleich zu Feldern ohne Blühstreifen die Schadschwelle erreicht wurde. Dies zeigt, dass Nützlingsblühstreifen Insektizide ersetzen könnten. Alle adulten natürlichen Feinde waren innerhalb der Nützlingsblühstreifen zahlreicher als innerhalb von Kontrollstreifen. Der Überlauf (spillover) von Nützlingen ins Feld war jedoch auf wichtige natürliche Feinde, wie Laufkäfer (Winterweizen), Schwebfliegen (Kartoffeln) und Florfliegen (Win-terweizen und Kartoffeln) beschränkt, was deren dominante Rolle für die biologische Schäd-lingskontrolle nahelegt. In Kartoffeln erhöhten Nützlingsblühstreifen auch die Artenzahl Schwebfliegen in Streifen und Feld, was einen zusätzlichen Nutzen für die Diversität heraushebt.
Die vorliegenden Resultate liefern Einblicke in die Mechanismen, die der biologischen Schädlingskontrolle durch Nützlingsförderung (conservation biological control) unterliegen und heben das Potential von massgeschneidertem Lebensraum-Management für eine ökologische Intensivierung hervor.