@article{StiebKelberWehneretal.2011,
  author    = {Stieb, Sara Mae and Kelber, Christina and Wehner, R{\"u}diger and R{\"o}ssler, Wolfgang},
  title     = {Antennal-Lobe Organization in Desert Ants of the Genus Cataglyphis},
  series = {Brain, Behavior and Evolution},
  volume    = {77},
  journal   = {Brain, Behavior and Evolution},
  number    = {3},
  issn      = {0006-8977},
  doi       = {10.1159/000326211},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-196815},
  pages     = {136-146},
  year      = {2011},
  abstract  = {Desert ants of the genus Cataglyphis possess remarkable visual navigation capabilities. Although Cataglyphis species lack a trail pheromone system, Cataglyphis fortis employs olfactory cues for detecting nest and food sites. To investigate potential adaptations in primary olfactory centers of the brain of C. fortis, we analyzed olfactory glomeruli (odor processing units) in their antennal lobes and compared them to glomeruli in different Cataglyphis species. Using confocal imaging and 3D reconstruction, we analyzed the number, size and spatial arrangement of olfactory glomeruli in C. fortis, C.albicans, C.bicolor, C.rubra, and C.noda. Workers of all Cataglyphis species have smaller numbers of glomeruli (198-249) compared to those previously found in olfactory-guided ants. Analyses in 2 species of Formica - a genus closely related to Cataglyphis - revealed substantially higher numbers of olfactory glomeruli (c. 370), which is likely to reflect the importance of olfaction in these wood ant species. Comparisons between Cataglyphis species revealed 2 special features in C. fortis. First, with c. 198 C. fortis has the lowest number of glomeruli compared to all other species. Second, a conspicuously enlarged glomerulus is located close to the antennal nerve entrance. Males of C. fortis possess a significantly smaller number of glomeruli (c. 150) compared to female workers and queens. A prominent male-specific macroglomerulus likely to be involved in sex pheromone communication occupies a position different from that of the enlarged glomerulus in females. The behavioral significance of the enlarged glomerulus in female workers remains elusive. The fact that C. fortis inhabits microhabitats (salt pans) that are avoided by all other Cataglyphis species suggests that extreme ecological conditions may not only have resulted in adaptations of visual capabilities, but also in specializations of the olfactory system.},
  language  = {en}
}
@article{ColizziBeerCutietal.2021,
  author    = {Colizzi, Francesca Sara and Beer, Katharina and Cuti, Paolo and Deppisch, Peter and Mart{\´i}nez Torres, David and Yoshii, Taishi and Helfrich-F{\"o}rster, Charlotte},
  title     = {Antibodies Against the Clock Proteins Period and Cryptochrome Reveal the Neuronal Organization of the Circadian Clock in the Pea Aphid},
  series = {Frontiers in Physiology},
  volume    = {12},
  journal   = {Frontiers in Physiology},
  issn      = {1664-042X},
  doi       = {10.3389/fphys.2021.705048},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-242909},
  year      = {2021},
  abstract  = {Circadian clocks prepare the organism to cyclic environmental changes in light, temperature, or food availability. Here, we characterized the master clock in the brain of a strongly photoperiodic insect, the aphid Acyrthosiphon pisum, immunohistochemically with antibodies against A. pisum Period (PER), Drosophila melanogaster Cryptochrome (CRY1), and crab Pigment-Dispersing Hormone (PDH). The latter antibody detects all so far known PDHs and PDFs (Pigment-Dispersing Factors), which play a dominant role in the circadian system of many arthropods. We found that, under long days, PER and CRY are expressed in a rhythmic manner in three regions of the brain: the dorsal and lateral protocerebrum and the lamina. No staining was detected with anti-PDH, suggesting that aphids lack PDF. All the CRY1-positive cells co-expressed PER and showed daily PER/CRY1 oscillations of high amplitude, while the PER oscillations of the CRY1-negative PER neurons were of considerable lower amplitude. The CRY1 oscillations were highly synchronous in all neurons, suggesting that aphid CRY1, similarly to Drosophila CRY1, is light sensitive and its oscillations are synchronized by light-dark cycles. Nevertheless, in contrast to Drosophila CRY1, aphid CRY1 was not degraded by light, but steadily increased during the day and decreased during the night. PER was always located in the nuclei of the clock neurons, while CRY was predominantly cytoplasmic and revealed the projections of the PER/CRY1-positive neurons. We traced the PER/CRY1-positive neurons through the aphid protocerebrum discovering striking similarities with the circadian clock of D. melanogaster: The CRY1 fibers innervate the dorsal and lateral protocerebrum and putatively connect the different PER-positive neurons with each other. They also run toward the pars intercerebralis, which controls hormone release via the neurohemal organ, the corpora cardiaca. In contrast to Drosophila, the CRY1-positive fibers additionally travel directly toward the corpora cardiaca and the close-by endocrine gland, corpora allata. This suggests a direct link between the circadian clock and the photoperiodic control of hormone release that can be studied in the future.},
  language  = {en}
}
@phdthesis{Sauer2000,
  author    = {Sauer, Christina},
  title     = {Charakterisierung intrazellul{\"a}rer, bakterieller Endosymbionten im Mitteldarm von Ameisen der Gattung Camponotus},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-1940},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2000},
  abstract  = {In der vorliegenden Dissertation wurden verschiedene Themenbereiche bearbeitet, die zur Charakterisierung der intrazellul{\"a}ren, bakteriellen Endosymbionten im Mitteldarm von Ameisen der Gattung Camponotus beitrugen. Es wurden phylogenetische Untersuchungen mit Hilfe der 16S rDNA-Sequenzen der Symbionten und der Sequenzen der Cytochrom-Oxidase-Untereinheit I (COI-Sequenzen) ihrer Wirte durchgef{\"u}hrt, die zur n{\"a}heren Kl{\"a}rung der Fragen zu {\"U}bertragungsweg und Stellung der Camponotus-Endosymbionten verhalfen. Untersuchungen an dreizehn verschiedenen Camponotus-Arten brachten folgende Ergebnisse. Die intrazellul{\"a}ren Bakterien der Ameisen geh{\"o}ren zur g-Subklasse der Proteobakterien. Innerhalb des 16S-Stammbaumes der Symbionten kann man drei Untergruppen unterscheiden, in denen die einzelnen Arten enger miteinander verwandt sind. Bei den n{\"a}chstverwandten Bakteriennachbarn der Camponotus-Endosymbionten handelt es sich um die ebenfalls symbiontisch lebenden Bakterien der Gattungen Wigglesworthia und Buchnera. Die Ameisen-Symbionten besitzen in ihren rrs-Genen intervenierende DNA-Sequenzen (IVS), die stabile Sekund{\"a}rstrukturen ausbilden k{\"o}nnen. Ihre 16S-Gene sind nicht strangaufw{\"a}rts von den 23S-Genen lokalisiert. Durch diese genetische Besonderheit {\"a}hneln die Camponotus-Symbionten den Buchnera-Symbionten, deren rRNA-Gene auf zwei Transkriptionseinheiten verteilt sind. Innerhalb des Stammbaumes der untersuchten Wirtsameisen existieren ebenfalls drei Untergruppen, deren einzelne Arten enger miteinander verwandt sind. Die direkte Gegen{\"u}berstellung des Symbionten-Stammbaumes mit dem der Ameisen zeigt ein weitgehend gleiches Verzweigungsmuster. Beide Dendrogramme zeigen signifikante {\"U}bereinstimmungen bez{\"u}glich ihrer taxonomischen Beziehungen und legen eine kongruente Entwicklung von Symbionten und Wirten, die nur durch einen vertikalen {\"U}bertragungsweg erzeugt werden kann, nahe. Einzige Ausnahme bildete hierbei der C. castaneus-Symbiont, bei dem ein horizontaler Transfer von Symbionten nicht g{\"a}nzlich ausgeschlossen werden kann. Die im Rahmen dieser Dissertation durchgef{\"u}hrten phylogenetischen Untersuchungen erm{\"o}glichten die Benennung einer neuen Symbiontengattung innerhalb der gamma-Subgruppe der Proteobakterien: "Candidatus Blochmannia spp." Histologische Studien der Endosymbiose mit Hilfe von licht- und elektronenmikroskopischen Methoden sollten Fragen zur Symbiontenlokalisation innerhalb adulter Individuen beantworten und die Ergebnisse zum {\"U}bertragungsweg der intrazellul{\"a}ren Bakterien festigen. Die Endosymbionten sind in den Mitteldarmepithelien von Arbeiterinnen, K{\"o}niginnen und M{\"a}nnchen in Myzetozytenzellen lokalisiert, die in das Mitteldarmepithel interkalieren. Diese spezialisierten Zellen besitzen kaum Vesikel und tragen keinen Mikrovillisaum. In den Oozyten der Ovarien von K{\"o}niginnen und Arbeiterinnen wurden ebenfalls große Symbiontenmengen gefunden. Die Spermatheka der K{\"o}niginnen und die Geschlechtsorgane der M{\"a}nnchen waren symbiontenfrei. Die Abwesenheit von Symbionten innerhalb dieser beiden Organe zeigt, dass eine Bakterieninfektion der weiblichen Tiere nicht durch die M{\"a}nnchen stattfindet, sondern wie schon in den phylogenetischen Untersuchungen postuliert, ein rein maternaler {\"U}bertragungsweg der Symbionten vorliegt. Die Detektion der Bakterien in Eiern und Larven der Ameisen mittels In situ-Hybridisierungen trugen zur Aufkl{\"a}rung des Weges der Endosymbionten w{\"a}hrend der Embryogenese bei. W{\"a}hrend sich im abgelegten Ei ein Ring aus Symbionten bildete, kam es in den Larvenstadien 1 bis 3 zur Auswanderung der Bakterien in Meso- bzw. Ektoderm. Im gr{\"o}ßten untersuchten Larvenstadium 4, das kurz vor der Verpuppung stand, konnten die Symbionten ausschließlich in den Myzetozyten des Mitteldarmes detektiert werden. Die Behandlung der Ameisen mit Antibiotika erm{\"o}glichte es, symbiontenfreie Ameisen zu erzeugen, die {\"u}ber einen l{\"a}ngeren Zeitraum weiterlebten, ohne ihre Symbionten zu regenerieren. Im Rahmen dieser Arbeit gelang es erstmals, die intrazellul{\"a}ren Bakterien intakt aus dem sie umgebenden Mitteldarmgewebe zu isolieren. Somit konnten gereinigte Symbionten f{\"u}r Kultivierungs- und Infektionsversuche verwendet werden. Diese Versuche die mit Hilfe von Bakterienn{\"a}hrmedien und Insektenzelllinien durchgef{\"u}hrt wurden, zeigten jedoch sehr deutlich, dass es nicht m{\"o}glich ist, die Camponotus-Symbionten außerhalb ihrer Wirte zu kultivieren.},
  subject      = {Rossameise},
  language  = {de}
}
@phdthesis{Leingaertner2013,
  author    = {Leing{\"a}rtner, Annette},
  title     = {Combined effects of climate change and extreme events on plants, arthropods and their interactions},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-87758},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2013},
  abstract  = {I. Global climate change directly and indirectly influences biotic and abiotic components of ecosystems. Changes in abiotic ecosystem components caused by climate change comprise temperature increases, precipitation changes and more frequently occurring extreme events. Mediated by these abiotic changes, biotic ecosystem components including all living organisms will also change. Expected changes of plants and animals are advanced phenologies and range shifts towards higher latitudes and altitudes which presumably induce changes in species interactions and composition. Altitudinal gradients provide an optimal opportunity for climate change studies, because they serve as natural experiments due to fast changing climatic conditions within short distances. In this dissertation two different approaches were conducted to reveal species and community responses to climate change. First, species richness and community trait analyses along an altitudinal gradient in the Bavarian Alps (chapters II, III) and second, climate change manipulation experiments under different climatic contexts (chapters IV, V, IV). II. We performed biodiversity surveys of butterfly and diurnal moth species on 34 grassland sites along an altitudinal gradient in the National Park Berchtesgaden. Additionally, we analysed the dominance structure of life-history traits in butterfly assemblages along altitude. Species richness of butterflies and diurnal moths decreased with increasing altitude. The dominance of certain life-history-traits changed along the altitudinal gradient with a higher proportion of larger-winged species and species with higher egg numbers towards higher altitudes. However, the mean egg maturation time, population density and geographic distribution within butterfly assemblages decreased with increasing altitude. Our results indicate that butterfly assemblages were mainly shaped by environmental filtering. We conclude that butterfly assemblages at higher altitudes will presumably lack adaptive capacity to future climatic conditions, because of specific trait combinations. III. In addition to butterfly and diurnal moth species richness we also studied plant species richness in combination with pollination type analyses along the altitudinal gradient. The management type of the alpine grasslands was also integrated in the analyses to detect combined effects of climate and management on plant diversity and pollination type. Plant species richness was highest at intermediate altitudes, whereby the management type influenced the plant diversity with more plant species at grazed compared to mown or non-managed grasslands. The pollination type was affected by both the changing climate along the gradient and the management type. These results suggest that extensive grazing can maintain high plant diversity along the whole altitudinal gradient. With ongoing climate change the diversity peak of plants may shift upwards, which can cause a decrease in biodiversity due to reduced grassland area but also changes in species composition and adaptive potential of pollination types. IV. We set up manipulation experiments on 15 grassland sites along the altitudinal gradient in order to determine the combined effects of extreme climatic events (extreme drought, advanced and delayed snowmelt) and elevation on the nutritional quality and herbivory rates of alpine plants. The leaf CN (carbon to nitrogen) ratio and the plant damage through herbivores were not significantly affected by the simulated extreme events. However, elevation influenced the CN ratios and herbivory rates of alpine plants with contrasting responses between plant guilds. Furthermore, we found differences in nitrogen concentrations and herbivory rates between grasses, legumes and forbs, whereas legumes had the highest nitrogen concentrations and were damaged most. Additionally, CN ratios and herbivory rates increased during the growing season, indicating a decrease of food plant quality during the growing season. Contrasting altitudinal responses of grasses, legumes and forbs presumably can change the dominance structure among these plant guilds with ongoing climate change. V. In this study we analysed the phenological responses of grassland species to an extreme drought event, advanced and delayed snowmelt along the altitudinal gradient. Advanced snowmelt caused an advanced beginning of flowering, whereas this effect was more pronounced at higher than at lower altitudes. Extreme drought and delayed snowmelt had rather low effects on the flower phenology and the responses did not differ between higher and lower sites. The strongest effect influencing flower phenology was altitude, with a declining effect through the season. The length of flowering duration was not significantly influenced by treatments. Our data suggest that plant species at higher altitudes may be more affected by changes in snowmelt timing in contrast to lowland species, as at higher altitudes more severe changes are expected. However, the risk of extreme drought events on flowering phenology seems to be low. VI. We established soil-emergence traps on the advanced snowmelt and control treatment plots in order to detect possible changes in abundances and emergence phenologies of five arthropod orders due to elevation and treatment. Additionally, we analysed the responses of Coleoptera species richness to elevation and treatment. We found that the abundance and species richness of Coleoptera increased with elevation as well as the abundance of Diptera. However, the abundance of Hemiptera decreased with elevation and the abundances of Araneae and Hymenoptera showed no elevational patterns. The advanced snowmelt treatment increased the abundances of Araneae and Hymenoptera. The emergence of soil-hibernating arthropods was delayed up to seven weeks at higher elevations, whereas advanced snowmelt did not influence the emergence phenology of arthropods immediately after snowmelt. With climate change earlier snowmelt will occur more often, which especially will affect soil-hibernating arthropods in alpine regions and may cause desynchronisations between species interactions. VII. In conclusion, we showed that alpine ecosystems are sensitive towards changing climate conditions and extreme events and that many alpine species in the Bavarian Alps are endangered. Many alpine species could exist under warmer climatic conditions, however they are expected to be outcompeted by more competitive lowland species. Furthermore, host-parasite or predator-prey interactions can be disrupted due to different responses of certain guilds to climate change. Understanding and predicting the complex dynamics and potential risks of future climate change remains a great challenge and therefore further studies analysing species and community responses to climate change are needed.},
  subject      = {Insekten},
  language  = {en}
}
@article{LakovicPoethkeHovestadt2015,
  author    = {Lakovic, Milica and Poethke, Hans-Joachim and Hovestadt, Thomas},
  title     = {Dispersal timing: Emigration of insects living in patchy environments},
  series = {PLoS One},
  volume    = {10},
  journal   = {PLoS One},
  number    = {7},
  doi       = {10.1371/journal.pone.0128672},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-126466},
  pages     = {e0128672},
  year      = {2015},
  abstract  = {Dispersal is a life-history trait affecting dynamics and persistence of populations; it evolves under various known selective pressures. Theoretical studies on dispersal typically assume 'natal dispersal', where individuals emigrate right after birth. But emigration may also occur during a later moment within a reproductive season ('breeding dispersal'). For example, some female butterflies first deposit eggs in their natal patch before migrating to other site(s) to continue egg-laying there. How breeding compared to natal dispersal influences the evolution of dispersal has not been explored. To close this gap we used an individual-based simulation approach to analyze (i) the evolution of timing of breeding dispersal in annual organisms, (ii) its influence on dispersal (compared to natal dispersal). Furthermore, we tested (iii) its performance in direct evolutionary contest with individuals following a natal dispersal strategy. Our results show that evolution should typically result in lower dispersal under breeding dispersal, especially when costs of dispersal are low and population size is small. By distributing offspring evenly across two patches, breeding dispersal allows reducing direct sibling competition in the next generation whereas natal dispersal can only reduce trans-generational kin competition by producing highly dispersive offspring in each generation. The added benefit of breeding dispersal is most prominent in patches with small population sizes. Finally, the evolutionary contests show that a breeding dispersal strategy would universally out-compete natal dispersal.},
  language  = {en}
}
@article{StejskalStreinzerDyeretal.2015,
  author    = {Stejskal, Kerstin and Streinzer, Martin and Dyer, Adrian and Paulus, Hannes F. and Spaethe, Johannes},
  title     = {Functional Significance of Labellum Pattern Variation in a Sexually Deceptive Orchid (Ophrys heldreichii): Evidence of Individual Signature Learning Effects},
  series = {PLoS One},
  volume    = {10},
  journal   = {PLoS One},
  number    = {11},
  doi       = {10.1371/journal.pone.0142971},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-137582},
  pages     = {e0142971},
  year      = {2015},
  abstract  = {Mimicking female insects to attract male pollinators is an important strategy in sexually deceptive orchids of the genus Ophrys, and some species possess flowers with conspicuous labellum patterns. The function of the variation of the patterns remains unresolved, with suggestions that these enhance pollinator communication. We investigated the possible function of the labellum pattern in Ophrys heldreichii, an orchid species in which the conspicuous and complex labellum pattern contrasts with a dark background. The orchid is pollinated exclusively by males of the solitary bee, Eucera berlandi. Comparisons of labellum patterns revealed that patterns within inflorescences are more similar than those of other conspecific plants. Field observations showed that the males approach at a great speed and directly land on flowers, but after an unsuccessful copulation attempt, bees hover close and visually scan the labellum pattern for up to a minute. Learning experiments conducted with honeybees as an accessible model of bee vision demonstrated that labellum patterns of different plants can be reliably learnt; in contrast, patterns of flowers from the same inflorescence could not be discriminated. These results support the hypothesis that variable labellum patterns in O. heldreichii are involved in flower-pollinator communication which would likely help these plants to avoid geitonogamy.},
  language  = {en}
}
@article{FlorenvonRintelenHerbertetal.2020,
  author    = {Floren, Andreas and von Rintelen, Thomas and Herbert, Paul D. N. and de Araujo, Bruno Cancian and Schmidt, Stefan and Balke, Michael and Narakusumo, Raden Pramesa and Peggie, Djunijanti and Ubaidillah, Rosichon and von Rintelen, Kristina and M{\"u}ller, Tobias},
  title     = {Integrative ecological and molecular analysis indicate high diversity and strict elevational separation of canopy beetles in tropical mountain forests},
  series = {Scientific Reports},
  volume    = {10},
  journal   = {Scientific Reports},
  doi       = {10.1038/s41598-020-73519-w},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-230565},
  year      = {2020},
  abstract  = {Tropical mountain forests contribute disproportionately to terrestrial biodiversity but little is known about insect diversity in the canopy and how it is distributed between tree species. We sampled tree-specific arthropod communities from 28 trees by canopy fogging and analysed beetle communities which were first morphotyped and then identified by their DNA barcodes. Our results show that communities from forests at 1100 and 1700 m a.s.l. are almost completely distinct. Diversity was much lower in the upper forest while community structure changed from many rare, less abundant species to communities with a pronounced dominance structure. We also found significantly higher beta-diversity between trees at the lower than higher elevation forest where community similarity was high. Comparisons on tree species found at both elevations reinforced these results. There was little species overlap between sites indicating limited elevational ranges. Furthermore, we exploited the advantage of DNA barcodes to patterns of haplotype diversity in some of the commoner species. Our results support the advantage of fogging and DNA barcodes for community studies and underline the need for comprehensive research aimed at the preservation of these last remaining pristine forests.},
  language  = {en}
}
@article{LeonhardtKaltenpoth2014,
  author    = {Leonhardt, Sara D. and Kaltenpoth, Martin},
  title     = {Microbial Communities of Three Sympatric Australian Stingless Bee Species},
  series = {PLoS ONE},
  volume    = {9},
  journal   = {PLoS ONE},
  number    = {8},
  doi       = {10.1371/journal.pone.0105718},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-119341},
  pages     = {e105718},
  year      = {2014},
  abstract  = {Bacterial symbionts of insects have received increasing attention due to their prominent role in nutrient acquisition and defense. In social bees, symbiotic bacteria can maintain colony homeostasis and fitness, and the loss or alteration of the bacterial community may be associated with the ongoing bee decline observed worldwide. However, analyses of microbiota associated with bees have been largely confined to the social honeybees (Apis mellifera) and bumblebees (Bombus spec.), revealing - among other taxa - host-specific lactic acid bacteria (LAB, genus Lactobacillus) that are not found in solitary bees. Here, we characterized the microbiota of three Australian stingless bee species (Apidae: Meliponini) of two phylogenetically distant genera (Tetragonula and Austroplebeia). Besides common plant bacteria, we find LAB in all three species, showing that LAB are shared by honeybees, bumblebees and stingless bees across geographical regions. However, while LAB of the honeybee-associated Firm4-5 clusters were present in Tetragonula, they were lacking in Austroplebeia. Instead, we found a novel clade of likely host-specific LAB in all three Australian stingless bee species which forms a sister clade to a large cluster of Halictidae-associated lactobacilli. Our findings indicate both a phylogenetic and geographical signal of host-specific LAB in stingless bees and highlight stingless bees as an interesting group to investigate the evolutionary history of the bee-LAB association.},
  language  = {en}
}
@article{KriegelMatevskiSchuldt2021,
  author    = {Kriegel, Peter and Matevski, Dragan and Schuldt, Andreas},
  title     = {Monoculture and mixture-planting of non-native Douglas fir alters species composition, but promotes the diversity of ground beetles in a temperate forest system},
  series = {Biodiversity and Conservation},
  volume    = {30},
  journal   = {Biodiversity and Conservation},
  number    = {5},
  issn      = {1572-9710},
  doi       = {10.1007/s10531-021-02155-1},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-269017},
  pages     = {1479-1499},
  year      = {2021},
  abstract  = {Planting non-native tree species, like Douglas fir in temperate European forest systems, is encouraged to mitigate effects of climate change. However, Douglas fir monocultures often revealed negative effects on forest biota, while effects of mixtures with native tree species on forest ecosystems are less well understood. We investigated effects of three tree species (Douglas fir, Norway spruce, native European beech), on ground beetles in temperate forests of Germany. Beetles were sampled in monocultures of each tree species and broadleaf-conifer mixtures with pitfall traps, and environmental variables were assessed around each trap. We used linear mixed models in a two-step procedure to disentangle effects of environment and tree species identity on ground beetle abundance, species richness, functional diversity and species assemblage structure. Contradictory to our expectations, ground beetle abundance and functional diversity was highest in pure Douglas fir stands, while tree mixtures showed intermediate values between pure coniferous and pure beech stands. The main drivers of these patterns were only partially dependent on tree species identity, which highlights the importance of structural features in forest stands. However, our study revealed distinct shifts in assemblage structure between pure beech and pure Douglas fir stands, which were only partially eased through mixture planting. Our findings suggest that effects of planting non-native trees on associated biodiversity can be actively modified by promoting beneficial forest structures. Nevertheless, integrating non-native tree species, even in mixtures with native trees, will invariably alter assemblage structures of associated biota, which can compromise conservation efforts targeted at typical species composition.},
  language  = {en}
}
@article{HeidrichPinkertBrandletal.2021,
  author    = {Heidrich, Lea and Pinkert, Stefan and Brandl, Roland and B{\"a}ssler, Claus and Hacker, Hermann and Roth, Nicolas and Busse, Annika and M{\"u}ller, J{\"o}rg and Friess, Nicolas},
  title     = {Noctuid and geometrid moth assemblages show divergent elevational gradients in body size and color lightness},
  series = {Ecography},
  volume    = {44},
  journal   = {Ecography},
  number    = {8},
  doi       = {10.1111/ecog.05558},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-256694},
  pages     = {1169-1179},
  year      = {2021},
  abstract  = {Previous macroecological studies have suggested that larger and darker insects are favored in cold environments and that the importance of body size and color for the absorption of solar radiation is not limited to diurnal insects. However, whether these effects hold true for local communities and are consistent across taxonomic groups and sampling years remains unexplored. This study examined the variations in body size and color lightness of the two major families of nocturnal moths, Geometridae and Noctuidae, along an elevational gradient of 700 m in Southern Germany. An assemblage-based analysis was performed using community-weighted means and a fourth-corner analysis to test for variations in color and body size among communities as a function of elevation. This was followed by a species-level analysis to test whether species occurrence and abundance along an elevation gradient were related to these traits, after controlling for host plant availability. In both 2007 and 2016, noctuid moth assemblages became larger and darker with increasing elevation, whereas geometrids showed an opposite trend in terms of color lightness and no clear trend in body size. In single species models, the abundance of geometrids, but not of noctuids, was driven by habitat availability. In turn, the abundance of dark-colored noctuids, but not geometrids increased with elevation. While body size and color lightness affect insect physiology and the ability to cope with harsh conditions, divergent trait-environment relationships between both families underline that findings of coarse-scale studies are not necessarily transferable to finer scales. Local abundance and occurrence of noctuids are shaped by morphological traits, whereas that of geometrids are rather shaped by local habitat availability, which can modify their trait-environment-relationship. We discuss potential explanations such as taxon-specific flight characteristics and the effect of microclimatic conditions.},
  language  = {en}
}