@phdthesis{Mody2003, author = {Mody, Karsten}, title = {Patterns of arthropod distribution and determinants of arthropod assemblage composition in a natural West African savannah}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-6202}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2003}, abstract = {This study investigated patterns of arthropod community organisation and the processes structuring these communities on a range of different tree species in a natural West African savannah (Como{\´e} National Park, C{\^o}te d'Ivoire). It described and analysed patterns of arthropod distribution on the level of whole communities, on the level of multiple-species interactions, and on the level of individual insect species. Community samples were obtained by applying (i) canopy fogging for mature individuals of three tree species (Anogeissus leiocarpa, Burkea africana, Crossopteryx febrifuga) and (ii) a modified beating technique allowing to sample the complete arthropod communities of the respective study plants for medium-sized (up to 3 m) individuals of two other species (Combretum fragrans, Pseudocedrela kotschyi). General information on ant-plant interactions was retrieved from ant community comparisons of the mature savannah trees. In addition, ant-ant, ant-plant and ant-herbivore interactions were studied in more detail considering the ant assemblages on the myrmecophilic tree Pseudocedrela kotschyi. Herbivore-plant interactions were investigated on a multiple-species level (interrelationships between herbivores and Pseudocedrela trees) and on a species level (detailed studies of interrelationships between herbivorous beetles and caterpillars and the host tree Combretum fragrans). The studies on individual herbivore species were complemented by a study on an abundant ant species, clarifying not only the relationship between host plant and associated animal but allowing also to look at interactive (competitive) aspects of community organisation. The study demonstrated for the first time that (i) the structure of beetle communities on tropical trees can be strongly dependent on the host tree species, (ii) individual trees can host specific arthropod communities whose characteristic structure is stable over years and is strongly determined by the individual tree's attributes, (iii) ants can express a pronounced fidelity to single leaves as foraging area and can thereby determine distribution patterns of other ants, (iv) intraspecifically variable palatability of plants for insect herbivores can be stable over years and can influence the distribution of herbivores that can distinguish between individual hosts according to palatability and (v) intraspecific host plant change can positively affect fitness of herbivores if host plant quality is variable. In general, the present study contributes to our knowledge of anthropogenically unaltered processes affecting community assembly in a natural environment. The fundamental understanding of these processes is crucial for the identification of anthropogenic alterations and the establishment of sustainable management measures. The study points out the important role local factors can play for the distribution of organisms and thereby for community organisation. It emphasises the relevance of small scale heterogeneity of the abiotic and biotic environment to biodiversity and the need to consider these factors for development of effective conservation and restoration strategies.}, subject = {Savanne}, language = {en} } @phdthesis{Stuntz2001, author = {Stuntz, Sabine}, title = {The influence of epiphytes on arthropods in the tropical forest canopy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-1179126}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2001}, abstract = {The understanding of the mechanisms underlying the establishment and maintenance of the extraordinary biodiversity in tropical forests is a major challenge for modern biology. In this context, epiphytes are presumed to play an important role. To investigate the biological reality of this persistent yet insufficiently investigated notion, I conducted the present study. The main questions I intended to clarify were: (1) do epiphytes affect arthropod abundance and diversity in tropical tree crowns? and (2) what might be the driving forces behind this potential influence? I studied the arthropod fauna of 25 tree crowns bearing different epiphyte assemblages, and the resident fauna of 90 individual epiphytes. I also quantified the mitigating influence of epiphytes on the microclimate in tree crowns. In total, more than 277,000 arthropods were collected and about 700 morphospecies determined. Epiphytes had a significant moderating influence on canopy microclimate (Chapter 3), both at various microsites within a tree crown and among tree crowns with different epiphyte growth. On hot dry season days, they provided microsites with lower temperatures and reduced evaporative water loss compared to epiphyte-free spaces within the same tree crown. Quantitative sampling of the arthropods inhabiting three different epiphyte species provided compelling evidence for the specificity of epiphyte-associated faunas (Chapter 4). Epiphytes proved to be microhabitats for a diverse and numerous arthropod fauna, and different epiphyte species fostered both taxonomically and ecologically very distinct arthropod assemblages: among epiphyte hosts, the inhabitant faunas showed remarkably little species overlap, and guild composition differed strongly. In the subsequent chapters I investigated if this pronounced effect scaled up to the level of entire tree crowns. Arthropods were captured with three different trap types to obtain an ample spectrum of the canopy fauna (Chapter 2). Four tree categories were classified, three of which were dominated by a different species of epiphyte, and an epiphyte-free control group. On a higher taxonomic level, there were no detectable effects of epiphytes on the fauna: the ordinal composition was similar among tree categories and indifferent of the amount of epiphytes in a tree crown (Chapter 5). I examined three focal groups (ants, beetles and spiders) on species level. The diversity and abundance of ants was not influenced by the epiphyte load of the study trees (Chapter 6). Although many species readily used the epiphytes as nesting site and shelter, they seemed to be highly opportunistic with respect to their host plants. Likewise, the species richness and abundance of beetles, as well as their guild composition were entirely unaffected by the presence of epiphytes in the study trees (Chapter 7). Focusing on herbivorous beetles did not alter these results. Spiders, however, were strongly influenced by the epiphyte assemblages of the host trees (Chapter 8). Overall spider abundance and species richness did not differ among trees, but particular families and guilds exhibited marked differences in abundance between the tree categories. Most remarkable were the substantial differences in spider species composition across trees with different epiphyte assemblages. Conclusion Thus, the prevalent notion that epiphytes positively influence arthropod diversity in tropical canopies seems justified, but not without reservation. Whether an influence of epiphytes on the fauna was discernible depended greatly on (1) the scale of the investigated system: clear faunal distinctions at the microhabitat level were absent or much more subtle at the level of tree crowns. (2) the focal taxa: different arthropod orders allowed for completely different statements concerning the importance of epiphytes for canopy fauna. I therefore recommend a multitaxon approach for the investigation of large-scale ecological questions. In conclusion, I resume that epiphytes are associated with a species-specific inhabiting fauna,and that epiphytes impose an influence on certain, but not all, taxa even at the level of entire tree crowns. Although I could only hypothesize about the potential causes for this influence, this study provided the first comprehensive investigation of the role of epiphytes in determining arthropod abundance and diversity in tropical tree crowns.}, subject = {Tropischer Regenwald}, language = {en} }