Vom Biofilm zur planktonischen Lebensform

Im ersten Teil dieser Dissertation stand die Analyse der Motilitätsentwicklung bei Vertretern der Gattung Methylobacterium im Vordergrund. Diese zu den pink pigmentierten fakultativ methylotrophen Mikroorganismen (PPFMs) gehörenden Prokaryoten sind in der Umwelt weit verbreitet. Besonders häufig besiedeln die Mikroben pflanzliche Oberflächen und können als so genannte Phytosymbionten in einer wechselseitigen Beziehung zu pflanzlichen Organismen stehen. In aquatischer Umgebung können Methylobakterien Flagellen aufweisen. Hierbei handelt es sich um spezielle Fortbewegungsorganellen, die den Mikroben eine aktive Beweglichkeit ermöglichen. Die Ausbildung polarer Einzelflagellen bei Methylobacterium-Zellen in planktonischer Lebensweise konnte unter Anwendung verschiedener mikroskopischer Techniken dokumentiert werden. Quantitative Beweglichkeitsstudien zeigten einen charakteristischen Entwicklungsverlauf, korreliert mit den Wachstumsphasen der Bakterienkulturen und machten deutlich, dass die Motilitätsrate durch Umweltfaktoren, wie z. B. die Nährstoffversorgung, beeinflusst werden kann. Es konnte gezeigt werden, dass die Pflanzen-assoziierten PPFMs in der Lage sind, zwischen einer sessilen und planktonischen Lebensweise zu wechseln und dass sowohl die zelluläre Beweglichkeit als auch die Biofilm-Bildung der Prokaryoten ein reversibles, reaktivierbares Verhalten darstellt. Weiterhin konnte belegt werden, dass die Motilität der epiphytischen Mikroben bezüglich der Besiedelung von Pflanzen, z. B. bei der Ausbreitung auf Keimblatt-Oberflächen von Sonnenblumen (Helianthus annuus), keine zentrale Rolle spielt und eine endophytische Lebensweise unwahrscheinlich ist. Ziel der Arbeit war weiterhin die Charakterisierung und Identifizierung eines aus der Phyllosphäre der Echten Feige (Ficus carica, Standort Griechenland) isolierten Bakterien-Stammes (Mtb. sp. Fc1). Die fakultativ methylotrophe Stoffwechseleigenschaft, sowie die auffällige rötliche Pigmentierung belegen, dass es sich um einen Vertreter der PPFMs handelt. Die Analyse morphologischer, physiologischer und biochemischer Eigenschaften bestätigte in Übereinstimmung mit molekularphylogenetischen Untersuchungen zur Klassifizierung und taxonomischen Einordnung, dass es sich um Pflanzen-assoziierte Mikroben der Gattung Methylobacterium handelt. Analysen der 16S rDNA sowie partieller Sequenzen der für Methylobakterien etablierten Marker-Gene mxaF und gyrB verdeutlichten die phylogenetische Stellung und die evolutionären Beziehungen des Ficus-Isolates. Obwohl enge Verwandtschaftsverhältnisse zu anderen Methylobacterium-Arten ermittelt werden konnten, war eine Identifizierung als valide beschriebene Spezies nicht möglich. Die Resultate legen den Schluss nahe, dass es sich um eine neue, unbeschriebene Spezies der epiphytisch lebenden Methylobakterien handelt.

Bud development, flowering and fruit set of Moringa oleifera Lam. (Horseradish Tree) as affected by various irrigation levels

Moringa oleifera is becoming increasingly popular as an industrial crop due to its multitude of useful attributes as water purifier, nutritional supplement and biofuel feedstock. Given its tolerance to sub-optimal growing conditions, most of the current and anticipated cultivation areas are in medium to low rainfall areas. This study aimed to assess the effect of various irrigation levels on floral initiation, flowering and fruit set. Three treatments namely, a 900 mm (900IT), 600 mm (600IT) and 300 mm (300IT) per annum irrigation treatment were administered through drip irrigation, simulating three total annual rainfall amounts. Individual inflorescences from each treatment were tagged during floral initiation and monitored throughout until fruit set. Flower bud initiation was highest at the 300IT and lowest at the 900IT for two consecutive growing seasons. Fruit set on the other hand, decreased with the decrease in irrigation treatment. Floral abortion, reduced pollen viability as well as moisture stress in the style were contributing factors to the reduction in fruiting/yield observed at the 300IT. Moderate water stress prior to floral initiation could stimulate flower initiation, however, this should be followed by sufficient irrigation to ensure good pollination, fruit set and yield.

Alley cropping of willows and grassland for bioenergy provision: productivity, tree-crop interactions and energy balance

The demand for biomass for bioenergy has increased rapidly in industrialized countries in the recent years. Biogenic energy carriers are known to reduce CO2 emissions. However, the resource-inefficient production of biomass often caused negative impacts on the environment, e.g. biodiversity losses, nitrate leaching, and erosion. The detrimental effects evolved mainly from annual crops. Therefore, the aim of modern bioenergy cropping systems is to combine yield stability and environmental benefits by the establishment of mixed-cropping systems. A particular emphasis is on perennial crops which are perceived as environmentally superior to annual crops. Agroforestry systems represent such mixed perennial cropping systems and consist of a mix of trees and arable crops or grassland within the same area of land. Agroforestry practices vary across the globe and alley cropping is a type of agroforestry system which is well adapted to the temperate zone, with a high degree of mechanization. Trees are planted in rows and crops are planted in the alleyways, which facilitates their management by machinery. This study was conducted to examine a young alley cropping system of willows and two grassland mixtures for bioenergy provision under temperate climate conditions. The first part of the thesis identified possible competition effects between willows and the two grassland mixtures. Since light seemed to be the factor most affecting the yield performance of the understory in temperate agroforestry systems, a biennial in situ artificial shade experiment was established over a separate clover-grass stand to quantify the effects of shade. Data to possible below- and aboveground interactions among willows and the two grassland mixtures and their effects on productivity, sward composition, and quality were monitored along a tree-grassland interface within the alleys. In the second part, productivity of the alley cropping system was examined on a triennial time frame and compared to separate grassland and willow stands as controls. Three different conversion technologies (combustion of hay, integrated generation of solid fuel and biogas from biomass, whole crop digestion) were applied to grassland biomass as feedstock and analyzed for its energetic potential. The energetic potential of willow wood chips was calculated by applying combustion as conversion technique. Net energy balances of separate grassland stands, agroforestry and pure willow stands evaluated their energy efficiency. Results of the biennial artificial shade experiment showed that severe shade (80 % light reduction) halved grassland productivity on average compared to a non-shaded control. White clover as heliophilous plant responded sensitively to limited radiation and its dry matter contribution in the sward decreased with increasing shade, whereas non-leguminous forbs (mainly segetal species) benefited. Changes in nutritive quality could not be confirmed by this experiment. Through the study on interactions within the alleys of the young agroforestry system it was possible to outline changes of incident light, soil temperature and sward composition of clover-grass along the tree-grassland interface. Nearly no effects of trees on precipitation, soil moisture and understory productivity occurred along the interface during the biennial experiment. Considering the results of the productivity and the net energy yield alley cropping system had lower than pure grassland stands, irrespective of the grassland seed mixture or fertilization, but was higher than that for pure willow stands. The comparison of three different energetic conversion techniques for the grassland biomass showed highest net energy yields for hay combustion, whereas the integrated generation of solid fuel and biogas from biomass (IFBB) and whole crop digestion performed similarly. However, due to the low fuel quality of hay, its direct combustion cannot be recommended as a viable conversion technique, whereas IFBB fuels were of a similar quality to wood chip from willow.