Publikationen
Publikationen
2026
Schebeck M, 2026. Spruce bark beetle diapause and low temperature biology: strategies to survive harsh winters. In: Netherer S, Klapwijk M (eds.) The European spruce bark beetle: Connecting ecology, human aspects and practical forest management, in press.
Ritzer E, Perle JP, Schebeck M *, Kirisits T*, 2026. Susceptibility of Douglas-fir provenances used in European forestry to the emerging pine pathogen Diplodia sapinea. Forest Ecology and Management, 614, 123813 (* equally contributing senior authors). https://doi.org/10.1016/j.foreco.2026.123813
Süess P, Ziesemer S, Steward RA, Roberts KT, Müller C, Wheat CW, Lehmann P, 2026. The insulin and ecdysone pathways as regulators of diapause termination: transcriptional and protein insights from Pieris napi. BMC Genomics, 27, 363. https://doi.org/10.1186/s12864-026-12747-2
Papek E, Ritzer E, Baier P, Schopf A, Pöchlauer D, Kirisits T, Schebeck M, 2026. Temperature affects the development of the pine bark beetle Ips acuminatus and the growth of its most common fungal associates. Journal of Pest Science, 99, 64. https://doi.org/10.1007/s10340-026-02029-x
Lehenberger M, Grabe V, Kandasamy D, Gentsch N, Au C, Baños-Quintana AP, Schebeck M , Kaltenpoth M, Gershenzon J, 2026. The spruce bark beetle Ips typographus transmits mutualistic fungi in mandibular mycetangia [Preprint]. bioRxiv. https://doi.org/10.64898/2026.02.24.707679
Zieliński P, Morales-García J, Schebeck M, Duduman ML, Nadachowska-Brzyska K, 2026. Demographic history inferred from an inversion-rich spruce bark beetle genome. Molecular Ecology, 35(2), e70250. https://doi.org/10.1111/mec.70250
Schebeck M, 2026. Spruce bark beetle diapause and low temperature biology: strategies to survive harsh winters. In: Netherer S, Klapwijk M (eds.) The European spruce bark beetle: Connecting ecology, human aspects and practical forest management, in press.
Ritzer E, Perle JP, Schebeck M *, Kirisits T*, 2026. Susceptibility of Douglas-fir provenances used in European forestry to the emerging pine pathogen Diplodia sapinea. Forest Ecology and Management, 614, 123813 (* equally contributing senior authors). https://doi.org/10.1016/j.foreco.2026.123813
Süess P, Ziesemer S, Steward RA, Roberts KT, Müller C, Wheat CW, Lehmann P, 2026. The insulin and ecdysone pathways as regulators of diapause termination: transcriptional and protein insights from Pieris napi. BMC Genomics, 27, 363. https://doi.org/10.1186/s12864-026-12747-2
Papek E, Ritzer E, Baier P, Schopf A, Pöchlauer D, Kirisits T, Schebeck M, 2026. Temperature affects the development of the pine bark beetle Ips acuminatus and the growth of its most common fungal associates. Journal of Pest Science, 99, 64. https://doi.org/10.1007/s10340-026-02029-x
Lehenberger M, Grabe V, Kandasamy D, Gentsch N, Au C, Baños-Quintana AP, Schebeck M , Kaltenpoth M, Gershenzon J, 2026. The spruce bark beetle Ips typographus transmits mutualistic fungi in mandibular mycetangia [Preprint]. bioRxiv. https://doi.org/10.64898/2026.02.24.707679
Zieliński P, Morales-García J, Schebeck M, Duduman ML, Nadachowska-Brzyska K, 2026. Demographic history inferred from an inversion-rich spruce bark beetle genome. Molecular Ecology, 35(2), e70250. https://doi.org/10.1111/mec.70250