| LED lighting in horticulture RC Morrow HortScience 43 (7), 1947-1950, 2008 | 893 | 2008 |
| Light-emitting diodes as a radiation source for plants RJ Bula, RC Morrow, TW Tibbitts, DJ Barta, RW Ignatius, TS Martin HortScience 26 (2), 203-205, 1991 | 720 | 1991 |
| Evaluation of light emitting diode characteristics for a space-based plant irradiation source DJ Barta, TW Tibbitts, RJ Bula, RC Morrow Advances in Space Research 12 (5), 141-149, 1992 | 305 | 1992 |
| Marine LED lighting system and method TM Crabb, RC Morrow, JC Emmerich, M Gustafson US Patent 7,220,018, 2007 | 206 | 2007 |
| Method and apparatus for irradiation of plants using optoelectronic devices RW Ignatius, TS Martin, RJ Bula, RC Morrow, TW Tibbitts US Patent 5,012,609, 1991 | 167 | 1991 |
| LEDs: The future of greenhouse lighting! CA Mitchell, AJ Both, CM Bourget, JF Burr, C Kubota, RG Lopez, ... | 165 | 2012 |
| Comparison of intracanopy light-emitting diode towers and overhead high-pressure sodium lamps for supplemental lighting of greenhouse-grown tomatoes C Gomez, RC Morrow, CM Bourget, GD Massa, CA Mitchell HortTechnology 23 (1), 93-98, 2013 | 153 | 2013 |
| Light‐emitting diodes in horticulture CA Mitchell, MP Dzakovich, C Gomez, R Lopez, JF Burr, R Hernández, ... Horticultural Reviews: Volume 43, 1-88, 2015 | 137 | 2015 |
| Sprouting broccoli accumulate higher concentrations of nutritionally important metabolites under narrow-band light-emitting diode lighting DA Kopsell, CE Sams, TC Barickman, RC Morrow Journal of the American Society for Horticultural Science 139 (4), 469-477, 2014 | 136 | 2014 |
| Significant reduction in energy for plant-growth lighting in space using targeted LED lighting and spectral manipulation L Poulet, GD Massa, RC Morrow, CM Bourget, RM Wheeler, CA Mitchell Life Sciences in Space Research 2, 43-53, 2014 | 134 | 2014 |
| Plant-growth lighting for space life support: a review GD Massa, JC Emmerich, RC Morrow, CM Bourget, CA Mitchell Gravitational and space biology 19 (2), 19-30, 2006 | 128 | 2006 |
| VEG-01: Veggie hardware validation testing on the International Space Station GD Massa, NF Dufour, JA Carver, ME Hummerick, RM Wheeler, ... Open Agriculture 2 (1), 33-41, 2017 | 108 | 2017 |
| Growth chambers on the International Space Station for large plants GD Massa, RM Wheeler, RC Morrow, HG Levine VIII International Symposium on Light in Horticulture 1134, 215-222, 2016 | 104 | 2016 |
| Blue wavelengths from LED lighting increase nutritionally important metabolites in specialty crops DA Kopsell, CE Sams, RC Morrow HortScience 50 (9), 1285-1288, 2015 | 87 | 2015 |
| The ASTROCULTURETM flight experiment series, validating technologies for growing plants in space RC Morrow, RJ Bula, TW Tibbitts, WR Dinauer Advances in Space Research 14 (11), 29-37, 1994 | 71 | 1994 |
| Evidence for involvement of phytochrome in tumor development on plants RC Morrow, TW Tibbitts Plant physiology 88 (4), 1110-1114, 1988 | 67 | 1988 |
| Preliminary species and media selection for the Veggie space hardware G Massa, G Newsham, ME Hummerick, JL Caro, GW Stutte, RC Morrow, ... Gravitational and Space Research 1 (1), 95-106, 2013 | 50 | 2013 |
| Plant pillow preparation for the veggie plant growth system on the international space station GD Massa, G Newsham, ME Hummerick, RC Morrow, RM Wheeler Gravitational and Space Research 5 (1), 24-34, 2017 | 46 | 2017 |
| Marine LED lighting system and method TM Crabb, RC Morrow, JC Emmerich, M Gustafson US Patent 7,473,008, 2009 | 43 | 2009 |
| Plant response in the ASTROCULTURE™ flight experiment unit RC Morrow, NA Duffie, TW Tibbitts, RJ Bula, DJ Barta, DW Ming, ... SAE Technical Paper, 1995 | 43 | 1995 |
