The effect of heat stress on tomato pollen characteristics is associated with changes in carbohydrate concentration in the developing anthers E Pressman, MM Peet, DM Pharr Annals of botany 90 (5), 631-636, 2002 | 460 | 2002 |
Physiological factors limit fruit set of tomato (Lycopersicon esculentum Mill.) under chronic, mild heat stress S Sato, MM Peet, JF Thomas Plant, Cell & Environment 23 (7), 719-726, 2000 | 443 | 2000 |
Comparing heat stress effects on male‐fertile and male‐sterile tomatoes MM Peet, S Sato, RG Gardner Plant, cell & environment 21 (2), 225-231, 1998 | 371 | 1998 |
Determining critical pre‐and post‐anthesis periods and physiological processes in Lycopersicon esculentum Mill. exposed to moderately elevated temperatures S Sato, MM Peet, JF Thomas Journal of Experimental Botany 53 (371), 1187-1195, 2002 | 338 | 2002 |
Pollen grains of heat tolerant tomato cultivars retain higher carbohydrate concentration under heat stress conditions N Firon, R Shaked, MM Peet, DM Pharr, E Zamski, K Rosenfeld, L Althan, ... Scientia Horticulturae 109 (3), 212-217, 2006 | 286 | 2006 |
Response of ovule development and post-pollen production processes in male-sterile tomatoes to chronic, sub-acute high temperature stress MM Peet, DH Willits, R Gardner Journal of experimental botany 48 (1), 101-111, 1997 | 286 | 1997 |
Acclimation to High CO2 in Monoecious Cucumbers II. Carbon Exchange Rates, Enzyme Activities, and Starch and Nutrient Concentrations MM Peet, SC Huber, DT Patterson Plant Physiology 80 (1), 63-67, 1986 | 262 | 1986 |
Tomato JM Kinet, MM Peet The physiology of vegetable crops, 1997 | 261 | 1997 |
The effect of high temperature and high atmospheric CO2 on carbohydrate changes in bell pepper (Capsicum annuum) pollen in relation to its germination B Aloni, M Peet, M Pharr, L Karni Physiologia Plantarum 112 (4), 505-512, 2001 | 248 | 2001 |
Fruit cracking in tomato. MM Peet | 236 | 1992 |
Effects of High Atmospheric CO2 and Sink Size on Rates of Photosynthesis of a Soybean Cultivar JM Clough, MM Peet, PJ Kramer Plant Physiology 67 (5), 1007-1010, 1981 | 188 | 1981 |
Greenhouse tomato production. MM Peet, G Welles Tomatoes, 257-304, 2005 | 184 | 2005 |
Role of excess water in tomato fruit cracking MM Peet, DH Willits HortScience 30 (1), 65-68, 1995 | 141 | 1995 |
Grafting tomato with interspecific rootstock to manage diseases caused by Sclerotium rolfsii and southern root-knot nematode CL Rivard, S O'Connell, MM Peet, FJ Louws Plant disease 94 (8), 1015-1021, 2010 | 132 | 2010 |
Plant development and harvest yields of greenhouse tomatoes in six organic growing systems JFM Rippy, MM Peet, FJ Louws, PV Nelson, DB Orr, KA Sorensen HortScience 39 (2), 223-229, 2004 | 130 | 2004 |
Crop-water relations. ID Teare, MM Peet | 125 | 1983 |
High tunnel and field production of organic heirloom tomatoes: Yield, fruit quality, disease, and microclimate S O’Connell, C Rivard, MM Peet, C Harlow, F Louws HortScience 47 (9), 1283-1290, 2012 | 122 | 2012 |
Effect of night temperature on pollen characteristics, growth, and fruit set in tomato MM Peet, M Bartholemew Journal of the American Society for Horticultural Science 121 (3), 514-519, 1996 | 120 | 1996 |
Grafting Tomato to Manage Bacterial Wilt Caused by Ralstonia solanacearum in the Southeastern United States CL Rivard, S O'connell, MM Peet, RM Welker, FJ Louws Plant disease 96 (7), 973-978, 2012 | 119 | 2012 |
Measurement of chlorophyll fluorescence as a heat stress indicator in tomato: laboratory and greenhouse comparisons DH Willits, MM Peet Journal of the American Society for Horticultural Science 126 (2), 188-194, 2001 | 113 | 2001 |