Das Leibniz-Institut zur Analyse des Biodiversitätswandels

ist ein Forschungsmuseum der Leibniz Gemeinschaft

Publikationsverzeichnis der ZFMK-Mitarbeitenden


Bourlat S.J., Tschan G.F., Martin S., Iqram M., Leidenberger S. (2023). A red listing gap analysis of molluscs and crustaceans in Northern Europe: What has happened in the last 10 years? Biological Conservation, Volume 286, 110247, https://doi.org/10.1016/j.biocon.2023.110247.
Jafari, S., Müller, B., Rulik, B., Rduch, V. & Peters, R. S. (2023): Another crack in the Dark Taxa wall: a custom DNA barcoding protocol for the species-rich and common Eurytomidae (Hymenoptera, Chalcidoidea) . Biodiversity Data Journal 11: e101998.
Leese F., Woppowa L., Bálint M., Höss S., Krehenwinkel H., Lötters S., Meissner K., Nowak C., Rausch P., Rduch V., Rulik B., Weigand A. M., Zimmermann J., Koschorreck J. & Züghart W. 2023: DNA-basierte Biodiversitätsanalysen im Natur- und Umweltschutz: Welche Optionen haben wir für eine Standardisierung? Eine Handlungsempfehlung aus Forschung und Praxis. BfN-Schriften 666: 1-53. Bundesamt für Naturschutz, Bonn. DOI 10.19217/skr666
Jaume-Schinkel, S. (2022): Description of Tonnoira conistylus sp. nov. from Costa Rica and a new record of Tonnoira distincta Bravo et al. 2008 from Ecuador. - Studies on Neotropical Fauna and Environment
Parker J, Dubin A, Schneider R, Wagner KS, Jentoft S, Böhne A, Bayer T and Roth O. (2023) Immunological tolerance in the evolution of male pregnancy. Molecular Ecology 32(4): 819-840, doi: 10.1111/mec.16333.
Salden, T. & Peters, R.S. (2023) Afrotropical Ceraphronoidea (Insecta: Hymenoptera) put back on the map with the description of 88 new species. European Journal of Taxonomy 884: 1-386
Smith SH, Hsiung K and Böhne A. (2023) Evaluating the role of sexual antagonism in the evolution of sex chromosomes: new data from fish. Current Opinion in Genetics & Development: 81(102078). doi: 10.1016/j.gde.2023.102078.
Brandmeier J., Reininghaus H., Scherber C. (2023) Multispecies crop mixtures increase insect biodiversity in an intercropping experiment. Ecological Solutions and Evidence 4:e12267.
Peona, V., Palacios-Gimenez, O. M., Lutgen, D., Olsen, R. A., Kakhki, N. A., Andriopoulos, P., Bontzorlos, V., Schweizer, M., Suh, A., Burri, R. (2023). An annotated chromosome-scale reference genome for Eastern Black-eared Wheatear (Oenanthe melanoleuca). G3: Genes | Genomes | Genetics 13, jkad088
Theissinger K, Fernandes C, Formenti G, Bista I, Berg PR, Bleidorn C, Bombarely A, Crottini A, Gallo GR, Godoy JA, Jentoft S, Malukiewicz J, Mouton A, Oomen RA, Paez S, Palsbøll PJ, Pampoulie C, Ruiz-López MJ, Secomandi S, Svardal H, Theofanopoulou C, de Vries J, Waldvogel AM, Zhang G, Jarvis ED, Bálint M, Ciofi C, Waterhouse RM, Mazzoni CJ, Höglund J and The European Reference Genome Atlas Consortium. (2023) How genomics can help biodiversity conservation. Trends in Genetics: S0168-9525(23)00020-3, doi:10.1016/j.tig.2023.01.005.
Kilian, I.C., Swenson, S.J., Mengual, X., Gemeinholzer, B., Hamm, A., Wägele, W., Peters, R.S. (2023): More complex than you think: Taxonomic and temporal patterns of plant‐pollinator networks of caraway (Carum carvi L.). Molecular Ecology 32: 3702-3717
Lichilín N, Salzburger W and Böhne A. (2023) No evidence for sex chromosomes in natural populations of the cichlid fish Astatotilapia burtoni. G3 Genes|Genomes|Genetics: 13(3), doi: 10.1093/g3journal/jkad011.
Dietz, L., Seidel, M., Eberle, J., Misof, B., Pacheco, T.L., Podsiadlowski, L., Ranasinghe, S., Gunter, N.L., Niehuis, O., Mayer, C., Ahrens, D. (2023): A transcriptome-based pyhlogeny of Scarabaeoidea confirms the sister group relationship of dung beetles and phytophagous pleurostict scarabs (Coleoptera). Systematic Entomology, accepted
Scherber C. (2023) Convergent patterns in multitrophic biodiversity effects on yield across ecosystems. Science China-Life Sciences
Flury JM, Meusemann K, Martin S, Hilgers L, Spanke T, Böhne A, Herder F, Mokodongan D, Altmüller J, Wowor D, Misof B, Nolte AW, Schwarzer J. (2023) Potential contribution of ancient introgression to the evolution of a derived reproductive strategy in ricefishes. Genome Biology and Evolution: evad138, doi: 10.1093/gbe/evad138
van der Plas F., Schroder-Georgi T., Weigelt A., Barry K., Meyer S., Alzate A., Barnard R. L., Buchmann N., de Kroon H., Ebeling A., Eisenhauer N., Engels C., Fischer M., Gleixner G., Hildebrandt A., Koller-France E., Leimer S., Milcu A., Mommer L., Niklaus P. A., Oelmann Y., Roscher C., Scherber C., Scherer-Lorenzen M., Scheu S., Schmid B., Schulze E. D., Temperton V., Tscharntke T., Voigt W., Weisser W., Wilcke W., Wirth C. (2023) Reply to: Plant traits alone are good predictors of ecosystem properties when used carefully. Nature Ecology and Evolution 7: 332-334
Tarkhnishvili D, Yanchukov A and Böhne A. (2023) Editorial: Advantages, limitations, and evolutionary constraints of asexual reproduction: An empirical approach. Frontiers in Ecology and Evolution: 11, doi: https://doi.org/10.3389/fevo.2023.1184306.
Jaume-Schinkel, S., Mengual, X., Howe, A. G., Fagan-Jeffries, E. P. (2023): The hitchhiker’s guide to Australia: the 18,000-km-long journey of Alepia viatrix Jaume-Schinkel, Kvifte, Weele & Mengual, 2022 (Diptera, Psychodidae) discovered through citizen science. - Check List 19(4): 589-597.
Kehlmaier, C., Drews, F., Fahldieck, M., Heimburg, H., Heller, K., Jaume-Schinkel, S., Jentzsch, M., Jessat, M., Kampen, H., Markwardt, D., Reimann, A., Rulik, B., Stuke, J.-H., von Tschirnhaus, M., van der Weele, R. und Werner, D. (2023): Nachweise von Zweiflüglern (Diptera) während der 37. Tagung des Arbeitskreises Diptera 2022 in Landsweiler-Reden (Saarland, Deutschland). – Delattinia 48: 195-227.
Chimeno C, Rulik B, Manfrin A, Kalinkat G, Hölker F, & Baranov V. (2023): Facing the infinity: tackling large samples of challenging Chironomidae (Diptera) with an integrative approach. - PeerJ 11:e15336


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Format: 2023