Indirect defence via tritrophic interactions M Heil New Phytologist 178 (1), 41-61, 2008 | 853 | 2008 |
Induced systemic resistance (ISR) against pathogens in the context of induced plant defences M Heil, RM Bostock Annals of botany 89 (5), 503-512, 2002 | 834 | 2002 |
Protective ant-plant interactions as model systems in ecological and evolutionary research M Heil, D McKey Annual Review of Ecology, Evolution, and Systematics 34 (1), 425-553, 2003 | 785 | 2003 |
Within-plant signaling by volatiles leads to induction and priming of an indirect plant defense in nature M Heil, JC Silva Bueno Proceedings of the National Academy of Sciences 104 (13), 5467-5472, 2007 | 774 | 2007 |
Fitness costs of induced resistance: emerging experimental support for a slippery concept M Heil, IT Baldwin Trends in plant science 7 (2), 61-67, 2002 | 700 | 2002 |
Long-distance signalling in plant defence M Heil, J Ton Trends in plant science 13 (6), 264-272, 2008 | 694 | 2008 |
Explaining evolution of plant communication by airborne signals M Heil, R Karban Trends in ecology & evolution 25 (3), 137-144, 2010 | 675 | 2010 |
Recognizing plant defense priming A Martinez-Medina, V Flors, M Heil, B Mauch-Mani, CMJ Pieterse, ... Trends in plant science 21 (10), 818-822, 2016 | 649 | 2016 |
Nectar: generation, regulation and ecological functions M Heil Trends in plant science 16 (4), 191-200, 2011 | 576 | 2011 |
The microbe-free plant: fact or artifact? LP Partida-Martínez, M Heil Frontiers in plant science 2, 100, 2011 | 496 | 2011 |
Costs and trade-offs associated with induced resistance D Walters, M Heil Physiological and Molecular Plant Pathology 71 (1-3), 3-17, 2007 | 402 | 2007 |
Herbivore‐induced plant volatiles induce an indirect defence in neighbouring plants C KOST, M Heil Journal of Ecology 94 (3), 619-628, 2006 | 383 | 2006 |
Extrafloral nectar production of the ant-associated plant, Macaranga tanarius, is an induced, indirect, defensive response elicited by jasmonic acid M Heil, T Koch, A Hilpert, B Fiala, W Boland, KE Linsenmair Proceedings of the National Academy of Sciences 98 (3), 1083-1088, 2001 | 383 | 2001 |
Reduced growth and seed set following chemical induction of pathogen defence: does systemic acquired resistance (SAR) incur allocation costs? M Heil, A Hilpert, W Kaiser, KE Linsenmair Journal of Ecology 88 (4), 645-654, 2000 | 373 | 2000 |
Herbivore‐induced plant volatiles: targets, perception and unanswered questions M Heil New Phytologist 204 (2), 297-306, 2014 | 340 | 2014 |
The multiple faces of indirect defences and their agents of natural selection A Kessler, M Heil Functional Ecology 25 (2), 348-357, 2011 | 311 | 2011 |
Extrafloral nectar at the plant-insect interface: a spotlight on chemical ecology, phenotypic plasticity, and food webs M Heil Annual review of entomology 60 (1), 213-232, 2015 | 268 | 2015 |
Ecological costs of induced resistance M Heil Current opinion in plant biology 5 (4), 345-350, 2002 | 259 | 2002 |
Temporal, spatial and biotic variations in extrafloral nectar secretion by Macaranga tanarius M Heil, B Fiala, B Baumann, KE Linsenmair Functional Ecology, 749-757, 2000 | 251 | 2000 |
Damaged-self recognition in plant herbivore defence M Heil Trends in Plant Science 14 (7), 356-363, 2009 | 249 | 2009 |