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Cercosporoid fungi (Mycosphaerellaceae, Mycosphaerellales, Ascomycota) are one of the largest and most diverse groups of hyphomycetes causing a wide range of diseases of economically important plants as well as of plants in the wild. Although more than 6000 species are known for this group, the documentation of this fungal group is far from complete. Especially in the tropics, the diversity of cercosporoid fungi is poorly known. The present study aims to identify and characterise cercosporoid fungi collected on host plants belonging to Fabaceae in Benin, West Africa. Information on their morphology, host species and DNA sequence data (18S rDNA, 28S rDNA, ITS and tef1) is provided. DNA sequence data were obtained by a simple and non-culture-based method for DNA isolation which has been applied for cercosporoid fungi for the first time in the context of the present study. Among the loci used for the phylogenetic analysis, tef1 provided the best resolution together with the multigene dataset. Species delimitation in many cases, however, was only possible by combining molecular sequence data with morphological characteristics. Based on forty specimens recently collected in Benin, 18 species are presented with morphological descriptions, illustrations and sequence data. Among these, six species in the genus Cercospora and two species in Pseudocercospora are proposed as species new to science. The newly described species are Cercospora (C.) beninensis on Crotalaria macrocalyx, C. parakouensis on Desmodium tortuosum, C. rhynchophora on Vigna unguiculata, C. vignae-subterraneae on Vigna subterranea, C. tentaculifera on Vigna unguiculata, C. zorniicola on Zornia glochidiata, Pseudocercospora sennicola on Senna occidentalis and Pseudocercospora tabei on Vigna unguiculata. Eight species of cercosporoid fungi are reported for Benin for the first time, three of them, namely C. cf. canscorina, C. cf. fagopyri and C. phaseoli-lunati are new for West Africa. The presence of two species of cercosporoid fungi on Fabaceae previously reported from Benin, namely Nothopassalora personata and Passalora arachidicola, is confirmed.
Measuring connection to nature - a illustrated extension of the inclusion of nature in self scale
(2021)
The human-nature connection is an important factor that is frequently the subject of environmental education research and environmental psychology. Therefore, over the years, numerous measuring instruments have been established to quantitatively record a person’s connection to nature. However, there is no instrument specifically for children with cognitive limitations. For this reason, in this study, an established scale for connection to nature, the inclusion of nature in self scale (INS), was modified especially for the needs of this group. Study 1 investigated what students understand by the term “nature” in order to create an illustrated version of the INS. In study 2, the new instrument was tested on university students and compared with the original INS and the connectedness to nature scale (CNS). No significant differences between the original INS and the new developed scale were found (p = 0.247), from which it can be concluded that the illustrated INS (IINS) measures the connection to nature with similar accuracy as the original INS. In study 3, the instrument was tested together with other established nature connection instruments on the actual target group, students with disabilities. The correlation between the IINS, the CNS, and nature connectedness scale (NR) were in accordance with the expected literature values (rIINS-CNS = 0.570 & rIINS-NR = 0.605). The results of this study also prove effectiveness of the developed illustrated scale. This research thus provides a suitable measuring instrument for people with learning difficulties and can make a contribution to the investigation of human-nature connections and conservation education.
The immune suppressive microenvironment affects efficacy of radio-immunotherapy in brain metastasis
(2021)
The tumor microenvironment in brain metastases is characterized by high myeloid cell content associated with immune suppressive and cancer-permissive functions. Moreover, brain metastases induce the recruitment of lymphocytes. Despite their presence, T-cell-directed therapies fail to elicit effective anti-tumor immune responses. Here, we seek to evaluate the applicability of radio- immunotherapy to modulate tumor immunity and overcome inhibitory effects that diminish anti-cancer activity. Radiotherapy- induced immune modulation resulted in an increase in cytotoxic T-cell numbers and prevented the induction of lymphocyte-mediated immune suppression. Radio-immunotherapy led to significantly improved tumor control with prolonged median survival in experi- mental breast-to-brain metastasis. However, long-term efficacy was not observed. Recurrent brain metastases showed accumula- tion of blood-borne PD-L1+ myeloid cells after radio-immunother- apy indicating the establishment of an immune suppressive environment to counteract re-activated T-cell responses. This finding was further supported by transcriptional analyses indicat- ing a crucial role for monocyte-derived macrophages in mediating immune suppression and regulating T-cell function. Therefore, selective targeting of immune suppressive functions of myeloid cells is expected to be critical for improved therapeutic efficacy of radio-immunotherapy in brain metastases.
The glidobactin-like natural products (GLNPs) glidobactin A and cepafungin I have been reported to be potent proteasome inhibitors and are regarded as promising candidates for anticancer drug development. Their biosynthetic gene cluster (BGC) plu1881–1877 is present in entomopathogenic Photorhabdus laumondii but silent under standard laboratory conditions. Here we show the largest subset of GLNPs, which are produced and identified after activation of the silent BGC in the native host and following heterologous expression of the BGC in Escherichia coli. Their chemical diversity results from a relaxed substrate specificity and flexible product release in the assembly line of GLNPs. Crystal structure analysis of the yeast proteasome in complex with new GLNPs suggests that the degree of unsaturation and the length of the aliphatic tail are critical for their bioactivity. The results in this study provide the basis to engineer the BGC for the generation of new GLNPs and to optimize these natural products resulting in potential drugs for cancer therapy.
Studium der Lebewesen : im Masterprogramm »Ökologie und Evolution« wird Diversität großgeschrieben
(2021)
Viele Gruppen der Lebewesen, insbesondere Insekten breiten sich durch steigende Temperaturen zunehmend in Gebieten aus, in denen sie ursprünglich nicht vorkommen(Novikov und Vaulin 2014; Bebber 2015). Hierbei ist die steigende Temperatur in
verschiedenen Gebieten der Hauptfaktor für Expansionen dieser Arten in Richtung des nördlichen Polarkreises. Einige dieser Arten sind sehr tolerant für verschiedene Variablen und können damit ihr Verbreitungsgebiet deutlich nach Norden hin ausdehnen. Aufgrund steigender Temperaturen werden jedoch andere Arten in ihrem Verbreitungsgebiet eingeschränkt oder ihre Verbreitung verschiebt sich in nördliche Richtung (Ogden und Lindsay 2016; Lawler et al. 2009). Auch für die Verbreitung von Krankheiten spielen Temperaturen, Ausbreitungen oder Verbreitungsverschiebungen eine wichtige Rolle (Mordecai et al. 2019).
So können, durch die Etablierung der passenden Vektoren, bisher nur in wärmeren Gebieten auftretende Krankheiten zukünftig auch in unseren Breitengraden eingeschleppt und
verbreitet werden. Bremsen, invasive Stechmücken aber auch einheimische Mücken tragen alle ein Potential,verschiedenste Krankheitserreger zu verbreiten, auch wenn die Eignung als
Vektor für jede Art unterschiedlich groß ausfällt und manche Arten daher kaum beobachtet und untersucht werden. Mit dem Augenmerk auf sich ändernde Verbreitungsgebiete hinsichtlich zukünftigen klimatischen Veränderungen und sich wandelnden anthropogenen Einflüssen sollten jedoch auch Arten mit bisher geringem Vektorpotential mit in Beobachtungsprogramme aufgenommen werden.
Wir untersuchten in Projekt I auf kontinentaler Skala die Verbreitung von sechs verschiedenen Bremsenarten und konnten sowohl Rückschlüsse auf eine mangelhafte Beobachtung der
Arten ziehen als auch Artpräferenzen hinsichtlich der Landschaftsnutzung, Auswirkungen des Klimas auf die Verbreitung der Art und bisher unbekannte Toleranzen hinsichtlich tiefen Temperaturen und äußerst verkürzten Wärmeperioden aufdecken. Eine Größenordnung niedriger wurde in Projekt II, basierend auf aktuellen und Vergangenen Klimadaten, die zukünftige und aktuelle Verbreitung einer invasiven, sich zukünftig ausbreitenden Stechmückenart innerhalb Deutschlands modelliert. Durch bisherig im Untersuchungsgebiet nur begrenztes Auftreten konnten noch keine Rückschlüsse auf die unterschiedlichen Präferenzen für das Habitat gezogen werden, es können jedoch für zukünftige Berechnungen Habitatpräferenzen aus anderen Gebieten hinzugezogen werden um die Art und ihre fortschreitende Ausbreitung genauer zu beobachten. Auf der kleinsten untersuchten Ebene konnten in Projekt III innerhalb eines Mikrohabitates verschiedenste Rückschlüsse auf limitierende oder förderliche abiotische Faktoren, die teilweise bisherig nicht oder nur geringfügig beobachtet wurden, gezogen werden. Ebenfalls konnten Auswirkungen der umgebenden Landschaft auf die Abundanzen der Tiere beobachtet werden. Mithilfe von verschiedenen Modellen und in Abhängigkeit von Klimakarten, Landbedeckungsdaten und Landnutzung sowie Eigenschaften und Toleranzen der untersuchten Arten lassen sich in verschiedenen Größenordnungen geeignete Habitate von einheimischen sowie invasiven Arten identifizieren und zukünftige Verbreitungen effizient vorhersagen.
Insgesamt können, basierend auf all diesen Daten, dadurch für alle untersuchten Faktoren Modelle auf andere Gebiete übertragen werden um somit potentielle Verbreitungen dort
vorherzusagen. Auf unseren Daten basierend können so zum Beispiel Modellierungen für die potentielle Ausbreitung der untersuchten Tabaniden innerhalb anderer Kontinente berechnet werden und Monitoringprogramme können die Ergebnisse unserer Studie als Startpunkt aufgreifen, um durch Beprobung an modellierten Standorten die Korrektheit unserer Modelle zu überprüfen und sowohl Landschaftstypen als auch Artzusammensetzung aufzunehmen um das Modell zu bestätigen oder zu verbessern. Die Modellierung der invasiven Art Aedes albopictus bietet die Möglichkeit, diese Art in Zukunft innerhalb der möglichen Ausbreitungskorridore genauer zu beobachten um ihre fortschreitende Verbreitung zu
verifizieren oder eventuelle Änderungen des klimatischen Verlaufes mit einzubinden und das Modell anzupassen. Die Untersuchung des Mikrohabitats von Culex pipiens pipiens und Culex torrentium bietet, auch hinsichtlich anderer Arten in diesem Habitat, eine potente Methode, Vorhersagen für Artvorkommen innerhalb anderer Unterirdischen Objekte zu berechnen. Hier können, bei ausreichend großer Datenlage, eine Vielzahl von Faktoren in die Auswertung mit einfließen.
Die durchgeführten Studien bestätigen die Notwendigkeit für verbesserte Monitoringkonzepte für alle vektorkompetenten Tiergruppen hinsichtlich der sich ändernden klimatischen Bedingungen, des globalen Handels und die sich wandelnde Nutzung der Landschaften durch den Menschen und darin begründete Veränderungen der Artenzusammensetzung eines Habitates, zeigen Möglichkeiten, diese Konzepte mit bisher
ungenutzten Daten aufzubauen und zu verbessern und können gleichzeitig zu deren Verbesserung herangezogen werden.
Gene conversion is defined as the non-reciprocal transfer of genetic information from one site to a homologous, but not identical site of the genome. In prokaryotes, gene conversion can increase the variance of sequences, like in antigenic variation, but can also lead to a homogenization of sequences, like in the concerted evolution of multigene families. In contrast to these intramolecular mechanisms, the intermolecular gene conversion in polyploid prokaryotes, which leads to the equalization of the multiple genome copies, has hardly been studied. We have previously shown the intermolecular gene conversion in halophilic and methanogenic archaea is so efficient that it can be studied without selecting for conversion events. Here, we have established an approach to characterize unselected intermolecular gene conversion in Haloferax volcanii making use of two genes that encode enzymes involved in carotenoid biosynthesis. Heterozygous strains were generated by protoplast fusion, and gene conversion was quantified by phenotype analysis or/and PCR. It was verified that unselected gene conversion is extremely efficient and it was shown that gene conversion tracts are much longer than in antigenic variation or concerted evolution in bacteria. Two sites were nearly always co-converted when they were 600 bp apart, and more than 30% co-conversion even occurred when two sites were 5 kbp apart. The gene conversion frequency was independent from the extent of genome differences, and even a one nucleotide difference triggered conversion.
Nature and its constituents are known to affect human well-being in positive and negative ways. Nature can be beneficial for humans by providing, for instance, food, recreation or inspiration. Natural disasters or transmitted diseases are, on the other hand, examples of nature’s detrimental or harmful contributions to human well-being. Such positive as well as negative effects have been termed Nature’s Contributions to People (NCP) by the Intergovernmental Science-Policy Platform for Biodiversity and Ecosystem Services (IPBES) and can be categorized into three different types of contributions: regulating, material and non-material NCP. While regulating and material NCP have been studied extensively, research on the non-material NCP is less common in comparison, especially regarding non-material NCP of biodiversity and wildlife. This dissertation therefore aims at shedding light on the non-material links between biodiversity, wildlife and human well-being. The thesis presents the results of three individual research studies in three separate chapters (CH1, 2 & 3).
In the first chapter (CH1) I conduct a systematic literature review on the non-material contributions of wildlife. Several previous reviews have published overviews on the non-material contributions of wildlife. However, only a few of these reviews examine both the positive and negative effects of wildlife in combination. These reviews usually cover few aspects of human well-being (e.g. recreation, health, psychological well-being) or just focus on a specific group of wildlife species (e.g. carnivores, scavengers). In addition, the pathways determining how wildlife affects human well-being are yet little understood. The aim of this review is therefore to create a holistic overview of the current knowledge on non-material contributions of wildlife (WCP), by summarising research on positive and negative effects and disentangling potential channels of human-wildlife experiences.
My results show that most studies in scientific literature report negative WCP. However, over the last decade the number of publications on positive WCP has increased, mainly in the Global North. This change in research focus, at the turn of the century, may be related to the newly emerging ideas and perspectives on nature during that time (e.g. Ecosystem Services and NCP). The results may also indicate different research interests across global regions and a focus on positive WCP (especially in the Global North). Surprisingly, the review identifies a lack of joint systematic assessments of positive and negative WCP across taxa, human well-being dimensions and ways (channels) of wildlife experiences. Studies show taxon-specific differences, with predominantly positive WCP reported for birds and predominantly negative WCP published for mammals and reptiles. Physical health was the most examined human well-being dimension, while many others, such as subjective well-being, social well-being, learning, identity or sense of place were rarely studied in comparison. The two channels of wildlife experiences that have been mainly studied or reported are Interaction and Knowing. While Interaction describes multisensory experiences in which people physically interact with wildlife. Knowing describes the metaphysical connection between humans and wildlife that arises through thinking or remembering experiences from wildlife encounters (including knowledge about wildlife).
To date, only few published studies examine the relationship between biodiversity and human well-being across larger spatial scales. For instance, little is known about how biodiversity is related to human well-being on the national or continental level. The second and third chapter (CH2 & 3) are thus comprised of two empirical case studies which examine the relationship between biodiversity and human well-being across Germany and Europe, respectively. As indicator for biodiversity, I use different species diversity measures including species richness and abundance. In the second chapter (CH2) I analyse the association between species richness and human health across Germany. The results demonstrate a significant positive relationship between plant and bird species richness and mental health while controlling for a multitude of socio-economic and demographic factors as well as other nature characteristics. In the third chapter (CH3) I conduct the first study on the relationship between species diversity and subjective well-being on the continental level. The results show that bird species richness (unlike mammal, megafauna and tree richness) is positively associated with life-satisfaction, a measure for subjective well-being across Europe. These results are robust while accounting for socio-economic and macro-economic factors. The results of both empirical studies are in correspondence with previous research, conducted on the local and national level.
Overall, my dissertation shows that wildlife and biodiversity greatly affect human well-being and provide substantial non-material NCP.
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