Section outline

Research & Science

    1. Atanasoff, D., 1935. Old and new virus diseases of trees and shrubs. Phytopathol. Z. 8, 197–223.

    2. Bandte, M., Hamacher, J., and Büttner, C., 2008. “Maple tree (Acer sp.) infected by viruses and phytoplasma,” in Jahrbuch der Baumpflege: Thalacker-Medien, eds H. D. Dujesiefken and P. Kockerbeck (Braunschweig: Deutsche Baumpflegetage), 208–212.

    3. Büttner, C., von Bargen, S., and Bandte, M., 2015. “Chapter 13: phytopathogenic viruses,” in Principles of Plant Microbe Interactions: Role of Microbes in Sustainable Agriculture, ed. Lugtenberg (Heidelberg: Springer), 115–122. doi: 10.1007/978-3-319-08575-3_13.

    4. Büttner, C., von Bargen, S., Bandte, M., and Muehlbach, H.P., 2013. “Forests diseases caused by viruses,” in Infectious Forest Diseases, eds P. Gonthier and G. Nicolotti (CABI), 50–75.

    5. Cerescu D., 2022. Investigations of putative novel emaraviruses affecting maple (Acer pseudoplatanus). MSc-Arbeit, Humboldt-Universität zu Berlin, 119 Seiten.

    6. Führling, M., and Büttner, C., 1998. Nachweis von Tobamo-Viren in Bergahorn (Acer pseudoplatanus L.) mit Scheckung und Blattdeformation. Forstw. Cbl. 117, 92–97. doi: 10.1007/bf02832962.

    7. Hadidi, A., Barba, M., Candresse, T., and Jelkmann, W., 2011. Virus and Virus-Like Diseases of Pome and Stone Fruits. St. Paul, MN: APS Press.

    8. Hüttner, F, 2017. Untersuchungen zur Pfropfübertragbarkeit von Emaraviren aus Populus tremula und Acer pseudoplatanus. BSc-Arbeit Humboldt-Universität zu Berlin, 65 Seiten.

    9. Kaminska, M., and Suwa, H., 2006. First report of a decline of ash leaf maple (Acer negundo) in Poland, associated with Candidatus Phytoplasma asteris. Plant Pathol. 55:293. doi: 10.1111/j.1365-3059.2005.01304.x.

    10. Massart, S., Candresse, T., Gil, J., Lacomme, C., Predajna, L., Ravnikar, M., et al., 2017. A framework for the evaluation of biosecurity, commercial, regulatory and scientific impacts of plant viruses and viroids identified by NGS technologies. Front. Microbiol. 8:45. doi: 10.3389/fmicb.2017.00045.

    11. Mielke-Ehret, N., and Mühlbach, H.-P., 2012. Emaravirus: a novel genus of multipartite, negative strand RNA plant viruses. Viruses 4, 1515–1536. doi: 10.3390/v4091515.

    12. Rehanek M., Karlin D.G., Bandte M., Al Kubrusli R., Nourinejhad Zarghani S., Candresse T., Büttner C., von Bargen S., 2022. The Complex World of Emaraviruses—Challenges, Insights and Prospects. Forests 13, 1868. [https://doi.org/10.3390/ f13111868].

    13. Rumbou, A.; Candresse, T.; von Bargen, S.; Büttner, C., 2021. Next-generation sequencing reveals a novel emaravirus in diseased maple trees from a German urban forest. Front. Microbiol., 11, 621179. Doi: 10.3390/microorganisms9081730.

    14. Rumbou, A.; Vainio, E.J.; Büttner, C., 2021. Towards the Forest Virome: High-Throughput Sequencing Drastically Expands Our Understanding on Virosphere in Temperate Forest Ecosystems. Microorganisms, 9, 1730. https://doi.org/10.3390/microorganisms9081730.

    15. Tatineni, S., McMechan, A. J., Wosula, E. N., Wegulo, S. N., Graybosch, R. A., French, R., et al., 2014. An eriophyid mite-transmitted plant virus contains eight genomic RNA segments with unusual heterogeneity in the nucleocapsid protein. J. Virol. 88, 11834–11845. doi: 10.1128/jvi.01901-14.

    16. Wulf, A., and Kehr, R., 2009. “Diseases, disorders and pests of selected valuable broadleaved tree species,” in Valuable Broadleaved Forests in Europe, eds H. Spiecker, S. Hein, K. Makkonen-Spiecker, and M. Thies (Leiden: Brill), 61–84.

    17. Vainio, E.J., Rumbou, A., Diez, J.J., Büttner, C., 2024. Forest Tree Virome as a Source of Tree Diseases and Biological Control Agents. Curr. For. Rep. 10, 153–174. https://doi.org/10.1007/s40725-024-00214-8.

Research & Science