| Production of plant growth modulating volatiles is widespread among rhizosphere bacteria and strongly depends on culture conditions D Blom, C Fabbri, EC Connor, FP Schiestl, DR Klauser, T Boller, L Eberl, ... Environmental microbiology 13 (11), 3047-3058, 2011 | 389 | 2011 |
| Release of plant-borne flavonoids into the rhizosphere and their role in plant nutrition S Cesco, G Neumann, N Tomasi, R Pinton, L Weisskopf Plant and soil 329, 1-25, 2010 | 385 | 2010 |
| Plant-borne flavonoids released into the rhizosphere: impact on soil bio-activities related to plant nutrition. A review S Cesco, T Mimmo, G Tonon, N Tomasi, R Pinton, R Terzano, ... Biology and Fertility of Soils 48, 123-149, 2012 | 332 | 2012 |
| Microbial volatile organic compounds in intra-kingdom and inter-kingdom interactions L Weisskopf, S Schulz, P Garbeva Nature Reviews Microbiology 19 (6), 391-404, 2021 | 260 | 2021 |
| Production of Bioactive Volatiles by Different Burkholderia ambifaria Strains U Groenhagen, R Baumgartner, A Bailly, A Gardiner, L Eberl, S Schulz, ... Journal of chemical ecology 39, 892-906, 2013 | 253 | 2013 |
| The modulating effect of bacterial volatiles on plant growth: current knowledge and future challenges A Bailly, L Weisskopf Plant signaling & behavior 7 (1), 79-85, 2012 | 249 | 2012 |
| Heavy metals in white lupin: uptake, root‐to‐shoot transfer and redistribution within the plant V Page, L Weisskopf, U Feller New Phytologist 171 (2), 329-341, 2006 | 226 | 2006 |
| Pseudomonas strains naturally associated with potato plants produce volatiles with high potential for inhibition of Phytophthora infestans L Hunziker, D Bönisch, U Groenhagen, A Bailly, S Schulz, L Weisskopf Applied and environmental microbiology 81 (3), 821-830, 2015 | 211 | 2015 |
| Deciphering Trichoderma–Plant–Pathogen Interactions for Better Development of Biocontrol Applications A Alfiky, L Weisskopf Journal of Fungi 7 (1), 61, 2021 | 196 | 2021 |
| White lupin has developed a complex strategy to limit microbial degradation of secreted citrate required for phosphate acquisition L Weisskopf, E ABOU‐MANSOUR, N Fromin, N Tomasi, D Santelia, ... Plant, Cell & Environment 29 (5), 919-927, 2006 | 191 | 2006 |
| Volatile-Mediated Killing of Arabidopsis thaliana by Bacteria Is Mainly Due to Hydrogen Cyanide D Blom, C Fabbri, L Eberl, L Weisskopf Applied and environmental microbiology 77 (3), 1000-1008, 2011 | 187 | 2011 |
| The inter‐kingdom volatile signal indole promotes root development by interfering with auxin signalling A Bailly, U Groenhagen, S Schulz, M Geisler, L Eberl, L Weisskopf The Plant Journal 80 (5), 758-771, 2014 | 177 | 2014 |
| Combining different potato-associated Pseudomonas strains for improved biocontrol of Phytophthora infestans M De Vrieze, F Germanier, N Vuille, L Weisskopf Frontiers in microbiology 9, 411905, 2018 | 149 | 2018 |
| Genus‐wide acid tolerance accounts for the biogeographical distribution of soil Burkholderia populations N Stopnisek, N Bodenhausen, B Frey, N Fierer, L Eberl, L Weisskopf Environmental microbiology 16 (6), 1503-1512, 2014 | 137 | 2014 |
| Flavonoids of white lupin roots participate in phosphorus mobilization from soil N Tomasi, L Weisskopf, G Renella, L Landi, R Pinton, Z Varanini, ... Soil Biology and Biochemistry 40 (7), 1971-1974, 2008 | 136 | 2008 |
| Molecular mechanisms underlying the close association between soil Burkholderia and fungi N Stopnisek, D Zühlke, A Carlier, A Barberán, N Fierer, D Becher, ... The ISME journal 10 (1), 253-264, 2016 | 129 | 2016 |
| Plasma membrane H+‐ATPase‐dependent citrate exudation from cluster roots of phosphate‐deficient white lupin N Tomasi, T Kretzschmar, L Espen, L Weisskopf, AT Fuglsang, ... Plant, cell & environment 32 (5), 465-475, 2009 | 126 | 2009 |
| Volatile organic compounds from native potato-associated Pseudomonas as potential anti-oomycete agents M De Vrieze, P Pandey, TD Bucheli, AR Varadarajan, CH Ahrens, ... Frontiers in microbiology 6, 167095, 2015 | 125 | 2015 |
| Airborne medicine: bacterial volatiles and their influence on plant health P Garbeva, L Weisskopf New Phytologist 226 (1), 32-43, 2020 | 106 | 2020 |
| Burkholderia species are major inhabitants of white lupin cluster roots L Weisskopf, S Heller, L Eberl Applied and environmental microbiology 77 (21), 7715-7720, 2011 | 97 | 2011 |
