The evolutionary ecology of tolerance to consumer damage KA Stowe, RJ Marquis, CG Hochwender, EL Simms Annual review of ecology and systematics 31 (1), 565-595, 2000 | 747 | 2000 |
Plant resistance to herbivores and pathogens: ecology, evolution, and genetics RS Fritz, EL Simms University of Chicago Press, 2012 | 649 | 2012 |
The relative advantages of plasticity and fixity in different environments: when is it good for a plant to adjust? P Alpert, EL Simms Evolutionary Ecology 16, 285-297, 2002 | 488 | 2002 |
Pathways to mutualism breakdown JL Sachs, EL Simms Trends in ecology & evolution 21 (10), 585-592, 2006 | 441 | 2006 |
Costs and benefits of plant resistance to herbivory EL Simms, MD Rausher The American Naturalist 130 (4), 570-581, 1987 | 429 | 1987 |
Costs of plant resistance to herbivory EL Simms Plant resistance to herbivores and pathogens: ecology, evolution, and …, 1992 | 374 | 1992 |
Sanctions and mutualism stability: why do rhizobia fix nitrogen? SA West, ET Kiers, EL Simms, RF Denison Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2002 | 372 | 2002 |
Costs and benefits of plant responses to disease: resistance and tolerance EL Simms, J Triplett Evolution 48 (6), 1973-1985, 1994 | 356 | 1994 |
An empirical test of partner choice mechanisms in a wild legume–rhizobium interaction EL Simms, DL Taylor, J Povich, RP Shefferson, JL Sachs, M Urbina, ... Proceedings of the Royal Society B: Biological Sciences 273 (1582), 77-81, 2006 | 264 | 2006 |
THE EVOLUTION OF RESISTANCE TO HERBIVORY IN IPOMOEA PURPUREA. II. NATURAL SELECTION BY INSECTS AND COSTS OF RESISTANCE EL Simms, MD Rausher Evolution 43 (3), 573-585, 1989 | 252 | 1989 |
Defining tolerance as a norm of reaction EL Simms Evolutionary Ecology 14, 563-570, 2000 | 250 | 2000 |
Partner choice in nitrogen-fixation mutualisms of legumes and rhizobia EL Simms, DL Taylor Integrative and comparative biology 42 (2), 369-380, 2002 | 249 | 2002 |
Identification and characterization of QTL underlying whole‐plant physiology in Arabidopsis thaliana: δ13C, stomatal conductance and transpiration efficiency TE Juenger, JK McKay, N Hausmann, JJB Keurentjes, SÁU Sen, ... Plant, Cell & Environment 28 (6), 697-708, 2005 | 221 | 2005 |
Tannins and partial consumption of acorns: implications for dispersal of oaks by seed predators MA Steele, T Knowles, K Bridle, EL Simms American Midland Naturalist, 229-238, 1993 | 220 | 1993 |
THE EVOLUTION OF RESISTANCE TO HERBIVORY IN IPOMOEA PURPUREA. I. ATTEMPTS TO DETECT SELECTION MD Rausher, EL Simms Evolution 43 (3), 563-572, 1989 | 173 | 1989 |
Origins of cheating and loss of symbiosis in wild Bradyrhizobium JL Sachs, MO Ehinger, EL Simms Journal of evolutionary biology 23 (5), 1075-1089, 2010 | 151 | 2010 |
Effect of seed predation on seed bank size and seedling recruitment of bush lupine (Lupinus arboreus) JL Maron, EL Simms Oecologia 111, 76-83, 1997 | 149 | 1997 |
QUANTITATIVE TRAIT LOCI AFFECTING δ13C AND RESPONSE TO DIFFERENTIAL WATER AVAILIBILITY IN ARABIDOPSIS THALLANA NJ Hausmann, TE Juenger, S Sen, KA Stowe, TE Dawson, EL Simms Evolution 59 (1), 81-96, 2005 | 116 | 2005 |
Cooperation in the rhizosphere and the “free rider” problem RF Denison, C Bledsoe, M Kahn, F O'Gara, EL Simms, LS Thomashow Ecology 84 (4), 838-845, 2003 | 115 | 2003 |
Selection for cheating across disparate environments in the legume‐rhizobium mutualism SS Porter, EL Simms Ecology letters 17 (9), 1121-1129, 2014 | 109 | 2014 |