TY - JOUR A1 - de Oliveira-Silva, Anna Elizabeth A1 - Piratelli, Augusto João A1 - Zurell, Damaris A1 - da Silva, Fernando Rodrigues T1 - Vegetation cover restricts habitat suitability predictions of endemic Brazilian Atlantic Forest birds JF - Perspectives in Ecology and Conservation N2 - Ecological niche models (ENMs) are often used to investigate how climatic variables from known occurrence records can estimate potential species range distribution. Although climate-based ENMs provide critical baseline information, the inclusion of non-climatic predictors related to vegetation cover might generate more realistic scenarios. This assumption is particularly relevant for species with life-history traits related to forest habitats and sensitive to habitat loss and fragmentation. Here, we developed ENMs for 36 Atlantic Forest endemic birds considering two sets of predictor variables: (i) climatic variables only and (ii) climatic variables combined with the percentage of remaining native vegetation. We hypothesized that the inclusion of native vegetation data would decrease the potential range distribution of forest-dependent species by limiting their occurrence in regions harboring small areas of native vegetation habitats, despite otherwise favorable climatic conditions. We also expected that habitat restriction in the climate-vegetation models would be more pronounced for highly forest-dependent birds. The inclusion of vegetation data in the modeling procedures restricted the final distribution ranges of 22 out of 36 modeled species, while the 14 remaining presented an expansion of their ranges. We observed that species with high and medium forest dependency showed higher restriction in range size predictions between predictor sets than species with low forest dependency, which showed no alteration or range expansion. Overall, our results suggest that ENMs based on climatic and landscape variables may be a useful tool for conservationists to better understand the dynamic of bird species distributions in threatened and highly fragmented regions such as the Atlantic Forest hotspot.(c) 2021 Associacao Brasileira de Cie circumflex accent ncia Ecol ogica e Conservacao. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/ ). KW - Conservation KW - Ecological niche modeling KW - Forest dependency KW - Fragmentation KW - Habitat loss KW - Landscape KW - Life-history traits Y1 - 2021 U6 - https://doi.org/10.1016/j.pecon.2021.09.002 SN - 2530-0644 VL - 20 IS - 1 SP - 1 EP - 8 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Wessig, Pablo A1 - Krebs, Saskia T1 - N-aroylsulfonamide-photofragmentation (ASAP) BT - a versatile route to biaryls JF - European journal of organic chemistry N2 - The photochemical fragmentation of N-aroylsulfonamides 9 (ASAP) is a powerful method for the preparation of various biaryls. Compounds 9 are easily accessible in two steps from amines by treatment with arenesulfonyl chlorides and aroyl chlorides. Many of these compounds were prepared for the first time. The irradiation takes place in a previously developed continuous-flow reactor using inexpensive UVB or UVC fluorescent lamps. Isocyanates and sulphur dioxide are formed as the only by-products. The ASAP tolerates a variety of functional groups and is even suited for the preparation of phenylnaphthalenes and terphenyls. The ASAP mechanism was elucidated by interaction of photophysical and quantum chemical (DFT) methods and revealed a spirocyclic biradical as key intermediate. KW - Biaryls KW - Fragmentation KW - Isocyanates KW - Photochemistry KW - Sulfonamides Y1 - 2021 U6 - https://doi.org/10.1002/ejoc.202100955 SN - 1434-193X SN - 1099-0690 VL - 2021 IS - 46 SP - 6367 EP - 6374 PB - Wiley-VCH CY - Weinheim ER - TY - THES A1 - Stark, Markus T1 - Implications of local and regional processes on the stability of metacommunities in diverse ecosystems T1 - Auswirkungen lokaler und regionaler Prozesse auf die Stabilität von Metagemeinschaften in diversen Ökosystemen N2 - Anthropogenic activities such as continuous landscape changes threaten biodiversity at both local and regional scales. Metacommunity models attempt to combine these two scales and continuously contribute to a better mechanistic understanding of how spatial processes and constraints, such as fragmentation, affect biodiversity. There is a strong consensus that such structural changes of the landscape tend to negatively effect the stability of metacommunities. However, in particular the interplay of complex trophic communities and landscape structure is not yet fully understood. In this present dissertation, a metacommunity approach is used based on a dynamic and spatially explicit model that integrates population dynamics at the local scale and dispersal dynamics at the regional scale. This approach allows the assessment of complex spatial landscape components such as habitat clustering on complex species communities, as well as the analysis of population dynamics of a single species. In addition to the impact of a fixed landscape structure, periodic environmental disturbances are also considered, where a periodical change of habitat availability, temporally alters landscape structure, such as the seasonal drying of a water body. On the local scale, the model results suggest that large-bodied animal species, such as predator species at high trophic positions, are more prone to extinction in a state of large patch isolation than smaller species at lower trophic levels. Increased metabolic losses for species with a lower body mass lead to increased energy limitation for species on higher trophic levels and serves as an explanation for a predominant loss of these species. This effect is particularly pronounced for food webs, where species are more sensitive to increased metabolic losses through dispersal and a change in landscape structure. In addition to the impact of species composition in a food web for diversity, the strength of local foraging interactions likewise affect the synchronization of population dynamics. A reduced predation pressure leads to more asynchronous population dynamics, beneficial for the stability of population dynamics as it reduces the risk of correlated extinction events among habitats. On the regional scale, two landscape aspects, which are the mean patch isolation and the formation of local clusters of two patches, promote an increase in $\beta$-diversity. Yet, the individual composition and robustness of the local species community equally explain a large proportion of the observed diversity patterns. A combination of periodic environmental disturbance and patch isolation has a particular impact on population dynamics of a species. While the periodic disturbance has a synchronizing effect, it can even superimpose emerging asynchronous dynamics in a state of large patch isolation and unifies trends in synchronization between different species communities. In summary, the findings underline a large local impact of species composition and interactions on local diversity patterns of a metacommunity. In comparison, landscape structures such as fragmentation have a negligible effect on local diversity patterns, but increase their impact for regional diversity patterns. In contrast, at the level of population dynamics, regional characteristics such as periodic environmental disturbance and patch isolation have a particularly strong impact and contribute substantially to the understanding of the stability of population dynamics in a metacommunity. These studies demonstrate once again the complexity of our ecosystems and the need for further analysis for a better understanding of our surrounding environment and more targeted conservation of biodiversity. N2 - Seit geraumer Zeit prägt der Mensch seine Umwelt und greift in die Struktur von Landschaften ein. In den letzten Jahrzehnten wurde die Landschaftsnutzung intensiviert und Ökosyteme weltweit anthropogen überprägt. Solche Veränderungen der Landschaft sind mit Verantwortlich für den derzeit rapiden Verlust an Biodiversität auf lokaler wie regionaler Ebene. Metagemeinschafts-Modelle versuchen diese beiden Ebenen zu kombinieren und kontinuierlich zu einem besseren mechanistischen Verständnis beizutragen, wie räumliche Prozesse, so z. B. Fragmentierung von Biotopen, die Biodiversität beeinflussen. Es besteht dabei ein großer Konsens, dass sich solche Änderungen der Landschaft tendenziell negativ auf die Stabilität von Metagemeinschaften auswirken. Jedoch ist insbesondere das Zusammenspiel von komplexen trophischen Gemeinschaften und räumlichen Prozessen längst nicht vollständig verstanden. In der vorliegenden Arbeit wird ein Metagemeinschafts-Modellansatz verwendet, der auf einem dynamischen und räumlich expliziten Modell basiert, das Populationsdynamiken auf der lokalen Ebene und Migrationsdynamiken auf der regionalen Ebene integriert. Dieser Ansatz erlaubt die Bewertung komplexer räumlicher Landschaftskomponenten wie z. B. die Auswirkung von Habitatsclustern auf Populationsdynamiken einzelner Arten bis hin zur Diversität komplexer Artengemeinschaften. Zusätzlich zum Einfluss von einzelner konstanter räumlicher Strukturen werden auch periodische Umweltstörungen berücksichtigt, bei der ein Wechsel der Habitatverfügbarkeit, die räumliche Struktur der Landschaft temporär verändert, wie z. B. die Austrocknung eines Gewässers. Auf der lokalen Ebene deuten die Modellergebnisse darauf hin, dass Tierarten mit einer großen Körpermasse, wie z. B. Raubtierarten in höheren trophischen Positionen, in einem Zustand großer Habitat-Isolation stärker vom Aussterben bedroht sind, als Arten mit geringer Körpermasse auf unteren trophischen Ebenen. Arten mit einer geringerer Körpermasse haben einen erhöhten metabolischen Verlust, der zu einer Energielimitierung auf den höheren trophischen Ebenen führt. Dies kann eine Erklärung dafür sein, dass Arten mit großer Körpermasse ein höheres Aussterberisiko in den Modellergebnissen aufweisen. Dieser Effekt ist vor allem in Nahrungsnetzen ausgeprägt, bei denen Arten empfindlicher auf metabolische Verluste durch Migration und eine Veränderung der Habitat Struktur reagieren. Neben der Bedeutung der Zusammensetzung der Arten eines Nahrungsnetzes für die Diversität, haben lokale Fraßinteraktionen ebenfalls Auswirkungen auf die Synchronisierung von Populationsdynamiken. Ein geringerer Fraßdruck führt zu mehr asynchronen Populationsdynamiken, die diese Dynamiken einer Metapopulation stabilisiert, sodass das Risiko von Aussterbeereignissen einzelner Arten sinkt. Auf der regionalen Ebene führen als landschaftliche Aspekte, neben der mittleren Habitat-Isolation, ebenso die Bildung von lokalen Clustern aus zwei Habitaten zu einer Zunahme der Beta-Diversität. Jedoch erklären die individuelle Zusammensetzung und Robustheit der lokalen Arten- gemeinschaft gleichermaßen einen großen Anteil der zu beobachteten Diversitätsmuster. Eine Kombination aus periodischen Umweltstörungen und Habitat-Isolation hat insbesondere einen Einfluss auf die Populationsdynamiken einzelner Arten. Populationsdynamiken können durch periodische Umweltstörungen synchronisiert werden, und dabei die sonst auftauchende asynchronen Populationsdynamiken bei einer größeren Habitat-Isolation überlagern. Die dadurch vereinheitlichen Trends in der Synchronisierung erhöhen das Risiko korrelierter Aussterbeereignisse einer Art. Zusammenfassend lassen sich zwei große Einflussfaktoren auf die lokalen Diversitätsmuster der Metagemeinschaften feststellen. Zum Einen die lokale Artenzusammensetzung und zum Anderen die Interaktionen der Arten. Im Vergleich dazu, haben räumliche Komponenten wie die Fragmentierung der Landschaft einen vernachlässigbaren Einfluss auf die lokalen Diversitätsmuster und gewinnen erst für regionale Diversitätsmuster an Gewicht. Im Gegensatz dazu spielen auf der Ebene der Populationsdynamik besonders regionale Eigenschaften, wie die periodische Umweltstörung und Habitat-Isolation, eine Rolle und tragen wesentlich zum Verständnis der Stabilität von Populationsdynamiken der Metagemeinschaft bei. Diese Untersuchungen zeigen einmal mehr die Komplexität unserer Ökosysteme und die Notwendigkeit weiterer Analysen für ein besseres Verständnis unserer umgebenen Umwelt und gezielteren Schutz der Biodiversität. KW - Fragmentation KW - Ecology KW - Food Web KW - Metacommunity KW - Disturbance KW - Störungen KW - Ökologie KW - Nahrungsnetze KW - Fragmentierung KW - Metagemeinschaften Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-526399 ER - TY - JOUR A1 - Vanneste, Thomas A1 - Valdes, Alicia A1 - Verheyen, Kris A1 - Perring, Michael P. A1 - Bernhardt-Roemermann, Markus A1 - Andrieu, Emilie A1 - Brunet, Jorg A1 - Cousins, Sara A. O. A1 - Deconchat, Marc A1 - De Smedt, Pallieter A1 - Diekmann, Martin A1 - Ehrmann, Steffen A1 - Heinken, Thilo A1 - Hermy, Martin A1 - Kolb, Annette A1 - Lenoir, Jonathan A1 - Liira, Jaan A1 - Naaf, Tobias A1 - Paal, Taavi A1 - Wulf, Monika A1 - Decocq, Guillaume A1 - De Frenne, Pieter T1 - Functional trait variation of forest understorey plant communities across Europe JF - Basic and applied ecology : Journal of the Gesellschaft für Ökologie N2 - Global environmental changes are expected to alter the functional characteristics of understorey herb-layer communities, potentially affecting forest ecosystem functioning. However, little is known about what drives the variability of functional traits in forest understories. Here, we assessed the role of different environmental drivers in shaping the functional trait distribution of understorey herbs in fragmented forests across three spatial scales. We focused on 708 small, deciduous forest patches located in 16 agricultural landscape windows, spanning a 2500-km macroclimatic gradient across the temperate forest biome in Europe. We estimated the relative effect of patch-scale, landscape-scale and macroclimatic variables on the community mean and variation of plant height, specific leaf area and seed mass. Macroclimatic variables (monthly temperature and precipitation extremes) explained the largest proportion of variation in community trait means (on average 77% of the explained variation). In contrast, patch-scale factors dominated in explaining community trait variation (on average 68% of the explained variation). Notably, patch age, size and internal heterogeneity had a positive effect on the community-level variability. Landscape-scale variables explained only a minor part of the variation in both trait distribution properties. The variation explained by shared combinations of the variable groups was generally negligible. These findings highlight the importance of considering multiple spatial scales in predictions of environmental-change effects on the functionality of forest understories. We propose that forest management sustainability could benefit from conserving larger, historically continuous and internally heterogeneous forest patches to maximise ecosystem service diversity in rural landscapes. (C) 2018 Gesellschaft fur Okologie. Published by Elsevier GmbH. All rights reserved. KW - Agricultural landscapes KW - Biogeography KW - Community ecology KW - Forest understorey KW - Functional trait diversity KW - Fragmentation KW - Global environmental change KW - Landscape connectivity KW - Macroclimatic gradient KW - Multi-scale analysis Y1 - 2018 U6 - https://doi.org/10.1016/j.baae.2018.09.004 SN - 1439-1791 SN - 1618-0089 VL - 34 SP - 1 EP - 14 PB - Elsevier GmbH CY - München ER - TY - JOUR A1 - Schmidt, Martin A1 - Lischeid, Gunnar A1 - Nendel, Claas T1 - Microclimate and matter dynamics in transition zones of forest to arable land JF - Agricultural and forest meteorology N2 - Human-driven fragmentation of landscapes leads to the formation of transition zones between ecosystems that are characterised by fluxes of matter, energy and information. These transition zones may offer rather inhospitable habitats that could jeopardise biodiversity. On the other hand, transition zones are also reported to be hotspots for biodiversity and even evolutionary processes. The general mechanisms and influence of processes in transition zones are poorly understood. Although heterogeneity and diversity of land use of fragments and the transition zones between them play an important role, most studies only refer to forested transition zones. Often, only an extrapolation of measurements in the different fragments themselves is reported to determine gradients in transition zones. This paper contributes to a quantitative understanding of agricultural landscapes beyond individual ecotopes, and towards connected ecosystem mosaics that may be beneficial for the provision of ecosystem services. KW - Edge effects KW - Environmental gradients KW - Fragmentation KW - Ecosystem services KW - Carbon KW - Nitrogen Y1 - 2019 U6 - https://doi.org/10.1016/j.agrformet.2019.01.001 SN - 0168-1923 SN - 1873-2240 VL - 268 SP - 1 EP - 10 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Teckentrup, Lisa A1 - Kramer-Schadt, Stephanie A1 - Jeltsch, Florian T1 - The risk of ignoring fear: underestimating the effects of habitat loss and fragmentation on biodiversity JF - Landscape ecology KW - Predator-prey interactions KW - Fragmentation KW - Habitat loss KW - Landscape of fear KW - Biodiversity KW - Community Y1 - 2019 U6 - https://doi.org/10.1007/s10980-019-00922-8 SN - 0921-2973 SN - 1572-9761 VL - 34 IS - 12 SP - 2851 EP - 2868 PB - Springer CY - Dordrecht ER - TY - JOUR A1 - Vijayakrishnan, Balakumar A1 - Issaree, Arisara A1 - Corilo, Yuri E. A1 - Ferreira, Christina Ramires A1 - Eberlin, Marcos N. A1 - Peter, Martin G. T1 - MSn of the six isomers of (GlcN)(2)(GlcNAc)(2) aminoglucan tetrasaccharides (diacetylchitotetraoses) rules of fragmentation for the sodiated molecules and application to sequence analysis of hetero-chitooligosaccharides JF - Carbohydrate polymers : an international journal devoted to scientific and technological aspects of industrially important polysaccharides N2 - The six possible isomers of di-N-acetylchitotetraoses [AADD, ADDA, ADAD, DADA, DAAD, and DDAA, where D stands for 2-amino-2-deoxy-3-D-glucose (GlcN) and A for 2-acetamido-2-deoxy-beta-D-glucose (GlcNAc)] were analyzed by ESI(+)-MSn. Collision induced dissociation via MSn experiments were performed for the sodiated molecules of m/z 769 [M+Na](+) for each isomer, and fragments were generated mainly by glycosidic bond and cross-ring cleavages. Rules of fragmentation were then established. A reducing end D residue yields the (O.2)A(4) cross-ring [M-59+Na](+) fragment of m/z 710 as the most abundant, whereas isomers containing a reducing end A prefer to lose water to form the [M-18+Na](+) ion of m/z 751, as well as abundant (O.2)A(4) cross-ring [M-101+Na](+) fragments of m/z 668 and B-3 [M-221+Na](+) ions of m/z 548. MS3 of C- and Y-type ions shows analogous fragmentation behaviour that allows identification of the reducing end next-neighbour residue. Due to gas-phase anchimeric assistance, B-type cleavage between the glycosidic oxygen and the anomeric carbon atom is favoured when the glycon is an A residue. Relative ion abundances are generally in the order B >> C > Y, but may vary depending on the next neighbour towards the non-reducing end. These fragmentation rules were used for partial sequence analysis of hetero-chitooligosaccharides of the composition D(2)A(3), D(3)A(3), D(2)A(4), D(4)A(3), and D(3)A(4). KW - Chitosan KW - Fragmentation KW - Oligosaccharides KW - Sequence analysis KW - Tandem mass spectrometry Y1 - 2011 U6 - https://doi.org/10.1016/j.carbpol.2010.04.041 SN - 0144-8617 VL - 84 IS - 2 SP - 713 EP - 726 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Dolgener, Nicola A1 - Schröder, Christiane A1 - Schneeweiss, N. A1 - Tiedemann, Ralph T1 - Genetic population structure of the Fire-bellied toad Bombina bombina in an area of high population density implications for conservation JF - Hydrobiologia : acta hydrobiologica, hydrographica, limnologica et protistologica N2 - In this study, we report the genetic population structure of the Fire-bellied toad Bombina bombina in Brandenburg (East Germany) in the context of conservation. We analysed 298 samples originating from 11 populations in Brandenburg using mitochondrial control region sequences and six polymorphic microsatellite loci. For comparison, we included one population each from Poland and Ukraine into our analysis. Within Brandenburg, we detected a moderate variability in the mitochondrial control region (19 different haplotypes) and at microsatellite loci (9-12 alleles per locus). These polymorphisms revealed a clear population structure among toads in Brandenburg, despite a relatively high overall population density and the moderate size of single populations (100-2000 individuals). The overall genetic population structure is consistent with a postglacial colonization from South East-Europe and a subsequent population expansion. Based on genetic connectivity, we infer Management Units (MUs) as targets for conservation. Our genetic survey identified MUs, within which human infrastructure is currently preventing any genetic exchange. We also detect an unintentional translocation from South East to North West Brandenburg, presumably in the course of fish stocking activities. Provided suitable conservation measures are taken, Brandenburg should continue to harbor large populations of this critically endangered species. KW - Conservation genetics KW - Fire-bellied toad KW - Fragmentation KW - Mitochondrial DNA KW - Microsatellites KW - Translocation Y1 - 2012 U6 - https://doi.org/10.1007/s10750-012-1016-1 SN - 0018-8158 VL - 689 IS - 1 SP - 111 EP - 120 PB - Springer CY - Dordrecht ER - TY - JOUR A1 - Lauterbach, D. A1 - Roemermann, C. A1 - Jeltsch, Florian A1 - Ristow, Michael T1 - Factors driving plant rarity in dry grasslands on different spatial scales: a functional trait approach JF - BIODIVERSITY AND CONSERVATION N2 - In European dry grasslands land-use changes affect plant species performance and frequency. Potential driving forces are eutrophication and habitat fragmentation. The importance of these factors is presumably scale dependent. We used a functional trait approach to detect processes that influence species frequency and endangerment on different spatial scales. We tested for associations between functional traits and (1) frequency and (2) degree of endangerment on local, regional and national scales. We focussed on five selected traits that describe the life-history of plant species and that are related to competition, dispersal ability and habitat specificity. Trait data on plant height, SLA, plant coverage, peak of flowering and diaspore mass were measured for 28 perennials from common to rare and endangered to non-endangered on 59 dry grassland sites in north-eastern Germany. Multiple regression models revealed that species frequency is positively and species endangerment negatively related to plant height, plant coverage and SLA on more than one spatial scale. On the local scale, diaspore mass has a negative effect on species frequency. More frequent and less endangered species show a later peak of flowering on nationwide and regional scales. We concluded that competition traits are more important on larger scales, whereas dispersal traits are more important for species frequency on the smaller scale. On national and regional scales, eutrophication and habitat loss may be the main drivers of species threat, whereas on the local scale fragmentation plays a crucial role for the performance of dry grassland species. KW - Species frequency KW - Species endangerment KW - Fragmentation KW - Eutrophication KW - SLA Y1 - 2013 U6 - https://doi.org/10.1007/s10531-013-0455-y SN - 0960-3115 VL - 22 IS - 10 SP - 2337 EP - 2352 PB - SPRINGER CY - DORDRECHT ER -