TRY plant trait database–enhanced coverage and open access J Kattge, G Bönisch, S Díaz, S Lavorel, IC Prentice, P Leadley, ... Global change biology 26 (1), 119-188, 2020 | 1511 | 2020 |
Data integration enables global biodiversity synthesis JM Heberling, JT Miller, D Noesgaard, SB Weingart, D Schigel Proceedings of the National Academy of Sciences 118 (6), e2018093118, 2021 | 268 | 2021 |
Digitization and the future of natural history collections BP Hedrick, JM Heberling, EK Meineke, KG Turner, CJ Grassa, DS Park, ... BioScience 70 (3), 243-251, 2020 | 268 | 2020 |
Scale dependence of vegetation–environment relationships: a meta‐analysis of multivariate data A Siefert, C Ravenscroft, D Althoff, JC Alvarez‐Yépiz, BE Carter, ... Journal of Vegetation Science, 2012 | 172 | 2012 |
Resource‐use strategies of native and invasive plants in Eastern North American forests JM Heberling, JD Fridley New Phytologist 200 (2), 523-533, 2013 | 157 | 2013 |
The changing uses of herbarium data in an era of global change: an overview using automated content analysis JM Heberling, LA Prather, SJ Tonsor BioScience 69 (10), 812-822, 2019 | 141 | 2019 |
Phenological mismatch with trees reduces wildflower carbon budgets JM Heberling, C McDonough MacKenzie, JD Fridley, S Kalisz, ... Ecology Letters 22 (4), 616-623, 2019 | 111 | 2019 |
Herbarium specimens as exaptations JM Heberling, BL Isaac American Journal of Botany 104 (7), 963-965, 2017 | 110 | 2017 |
Machine learning using digitized herbarium specimens to advance phenological research KD Pearson, G Nelson, MFJ Aronson, P Bonnet, L Brenskelle, CC Davis, ... BioScience 70 (7), 610-620, 2020 | 88 | 2020 |
iNaturalist as a tool to expand the research value of museum specimens JM Heberling, BL Isaac Applications in Plant Sciences, e01193, 2018 | 81 | 2018 |
Biogeographic constraints on the world‐wide leaf economics spectrum JM Heberling, JD Fridley Global Ecology and Biogeography, 2012 | 80 | 2012 |
Herbaria as big data sources of plant traits JM Heberling International Journal of Plant Sciences 183 (2), 87-118, 2022 | 68 | 2022 |
The composite insect trap: an innovative combination trap for biologically diverse sampling L Russo, R Stehouwer, JM Heberling, K Shea Plos one 6 (6), e21079, 2011 | 65 | 2011 |
Invaders do not require high resource levels to maintain physiological advantages in a temperate deciduous forest JM Heberling, JD Fridley Ecology 97 (4), 874-884, 2016 | 58 | 2016 |
Carbon gain phenologies of spring‐flowering perennials in a deciduous forest indicate a novel niche for a widespread invader JM Heberling, ST Cassidy, JD Fridley, S Kalisz New Phytologist 221 (2), 778-788, 2019 | 52 | 2019 |
Differential and interacting impacts of invasive plants and white-tailed deer in eastern US forests DL Gorchov, B Blossey, KM Averill, A Dávalos, JM Heberling, MA Jenkins, ... Biological Invasions 23 (9), 2711-2727, 2021 | 44 | 2021 |
Macrophenology: insights into the broad‐scale patterns, drivers, and consequences of phenology AS Gallinat, ER Ellwood, JM Heberling, AJ Miller‐Rushing, WD Pearse, ... American journal of botany 108 (11), 2112-2126, 2021 | 39 | 2021 |
Wildflower phenological escape differs by continent and spring temperature BR Lee, TK Miller, C Rosche, Y Yang, JM Heberling, SE Kuebbing, ... Nature Communications 13 (1), 7157, 2022 | 34 | 2022 |
Plant functional shifts in the invaded range: a test with reciprocal forest invaders of Europe and North America JM Heberling, T Kichey, G Decocq, JD Fridley Functional Ecology 30 (6), 875-884, 2016 | 33 | 2016 |
Herbaceous invaders in temperate forests: a systematic review of their ecology and proposed mechanisms of invasion M Wavrek, JM Heberling, S Fei, S Kalisz Biological Invasions 19, 3079-3097, 2017 | 31 | 2017 |