More closely related species are more ecologically similar in an experimental test JH Burns, SY Strauss Proceedings of the National Academy of Sciences 108 (13), 5302-5307, 2011 | 450 | 2011 |
A critical review of twenty years’ use of the resource-ratio theory TE Miller, JH Burns, P Munguia, EL Walters, JM Kneitel, PM Richards, ... The American Naturalist 165 (4), 439-448, 2005 | 248 | 2005 |
A comparison of invasive and non‐invasive dayflowers (Commelinaceae) across experimental nutrient and water gradients JH Burns Diversity and Distributions 10 (5‐6), 387-397, 2004 | 244 | 2004 |
Soil microbial community variation correlates most strongly with plant species identity, followed by soil chemistry, spatial location and plant genus JH Burns, BL Anacker, SY Strauss, DJ Burke AoB plants 7, plv030, 2015 | 184 | 2015 |
General guidelines for invasive plant management based on comparative demography of invasive and native plant populations S Ramula, TM Knight, JH Burns, YM Buckley Journal of Applied Ecology 45 (4), 1124-1133, 2008 | 181 | 2008 |
Widespread vulnerability of flowering plant seed production to pollinator declines JG Rodger, JM Bennett, M Razanajatovo, TM Knight, M van Kleunen, ... Science advances 7 (42), eabd3524, 2021 | 142 | 2021 |
Relatedness and environment affect traits associated with invasive and noninvasive introduced Commelinaceae JH Burns Ecological Applications 16 (4), 1367-1376, 2006 | 134 | 2006 |
Effects of competition on phylogenetic signal and phenotypic plasticity in plant functional traits JH Burns, SY Strauss Ecology, S126-S137, 2012 | 123 | 2012 |
Effect of community structure on invasion success and rate TE Miller, JM Kneitel, JH Burns Ecology 83 (4), 898-905, 2002 | 122 | 2002 |
Causes and consequences of variation in plant population growth rate: a synthesis of matrix population models in a phylogenetic context YM Buckley, S Ramula, SP Blomberg, JH Burns, EE Crone, J Ehrlén, ... Ecology letters 13 (9), 1182-1197, 2010 | 116 | 2010 |
Land use and pollinator dependency drives global patterns of pollen limitation in the Anthropocene JM Bennett, JA Steets, JH Burns, LA Burkle, JC Vamosi, M Wolowski, ... Nature Communications 11 (1), 3999, 2020 | 111 | 2020 |
A comparison of plastic responses to competition by invasive and non-invasive congeners in the Commelinaceae JH Burns, AA Winn Biological Invasions 8, 797-807, 2006 | 106 | 2006 |
A phylogenetically controlled analysis of the roles of reproductive traits in plant invasions JH Burns, TL Ashman, JA Steets, A Harmon-Threatt, TM Knight Oecologia 166, 1009-1017, 2011 | 83 | 2011 |
Soil heterogeneity generated by plant–soil feedbacks has implications for species recruitment and coexistence AJ Brandt, H de Kroon, HL Reynolds, JH Burns Journal of Ecology 101 (2), 277-286, 2013 | 79 | 2013 |
Greater sexual reproduction contributes to differences in demography of invasive plants and their noninvasive relatives JH Burns, EA Pardini, MR Schutzenhofer, YA Chung, KJ Seidler, ... Ecology 94 (5), 995-1004, 2013 | 71 | 2013 |
Reflections on, and visions for, the changing field of pollination ecology TM Knight, TL Ashman, JM Bennett, JH Burns, S Passonneau, JA Steets Ecology Letters 21 (8), 1282-1295, 2018 | 70 | 2018 |
Empirical tests of life‐history evolution theory using phylogenetic analysis of plant demography JH Burns, SP Blomberg, EE Crone, J Ehrlen, TM Knight, JB Pichancourt, ... Journal of Ecology 98 (2), 334-344, 2010 | 70 | 2010 |
Breeding system and pollination ecology of introduced plants compared to their native relatives AN Harmon‐Threatt, JH Burns, LA Shemyakina, TM Knight American Journal of Botany 96 (8), 1544-1550, 2009 | 60 | 2009 |
Herbaceous perennial plants with short generation time have stronger responses to climate anomalies than those with longer generation time A Compagnoni, S Levin, DZ Childs, S Harpole, M Paniw, G Römer, ... Nature Communications 12 (1), 1824, 2021 | 59 | 2021 |
Phylogenetic studies in the Commelinaceae subfamily Commelinoideae inferred from nuclear ribosomal and chloroplast DNA sequences JH Burns, RB Faden, SJ Steppan Systematic Botany 36 (2), 268-276, 2011 | 54 | 2011 |