Dr. Mark Lendenmann
Dr. Mark Lendenmann
ZHAW
School of Life Sciences and Facility Management
Institute of Natural Resource Sciences
Projects
- Trauermücken in torffreien Substraten / Deputy project leader / Project ongoing
- Vorabklärung Riechstoffe Xylella / Deputy project leader / Project ongoing
- Früherkennung invasiver Organismen mit Spürhunden / Project leader / Project ongoing
- Bakterien von Nematoden als Kupferersatz / Deputy project leader / Project ongoing
- Mushroom cultivation on substrate blocks in agricultural production and gardens / Deputy project leader / Project ongoing
- Pilotanlagen Insektenproduktion / Project leader / Project ongoing
- Pilzanbau im Freiland / Deputy project leader / Project ongoing
Publications before appointment at the ZHAW
E.L. Stewart, D. Croll, M.H. Lendenmann, A. Sanchez-Vallet, F.E. Hartmann, J. Palma-Guerrero, Z. Ma and B.A. McDonald. 2018. Quantitative trait locus mapping reveals complex genetic architecture of quantitative virulence in the wheat pathogen Zymoseptoria tritici, Molecular plant pathology, 19: 201-216.
M.H. Lendenmann, D. Croll, J. Palma-Guerrero, E.L. Stewart and B.A. McDonald. 2016. QTL Mapping of Temperature Sensitivity Reveals Candidate Genes for Thermal Adaptation and Growth Morphology in the Plant Pathogenic Fungus Zymoseptoria tritici. Heredity, 116: 384-394.
D. Croll, M.H. Lendenmann, E.L. Stewart and B.A. McDonald. 2015. The Impact of Recombination Hotspots on Genome Evolution of a Fungal Plant Pathogen. Genetics, 201: 1213-1228.
M.H. Lendenmann, D. Croll and B.A. McDonald. 2015. QTL Mapping of Fungicide Sensitivity Reveals Novel Genes and Pleiotropy with Melanization in the Pathogen Zymoseptoria tritici. Fungal Genetics and Biology, 80: 53-67.
M.H. Lendenmann, D. Croll, E.L. Stewart and B.A. McDonald. 2014. Quantitative Trait Locus Mapping of Melanization in the Plant Pathogenic Fungus Zymoseptoria tritici. G3-Genes Genomes Genetics, 4: 2519-2533.
M.H. Lendenmann, C. Thonar, R.L. Barnard, Y. Salmon, R.A. Werner, E. Frossard and J. Jansa. 2011. Symbiont Identity Matters: Carbon and Phosphorus Fluxes Between Medicago truncatula and Different Arbuscular Mycorrhizal Fungi. Mycorrhiza, 21: 689-702.