Impacts of drought and temperature stress on coffee physiology and production: a review FM DaMatta, JDC Ramalho Brazilian journal of plant physiology 18, 55-81, 2006 | 857 | 2006 |
Ecophysiology of coffee growth and production FM DaMatta, CP Ronchi, M Maestri, RS Barros Brazilian journal of plant physiology 19, 485-510, 2007 | 707 | 2007 |
Ecophysiological constraints on the production of shaded and unshaded coffee: a review FM DaMatta Field crops research 86 (2-3), 99-114, 2004 | 705 | 2004 |
Photochemical responses and oxidative stress in two clones of Coffea canephora under water deficit conditions ALS Lima, FM DaMatta, HA Pinheiro, MR Totola, ME Loureiro Environmental and experimental botany 47 (3), 239-247, 2002 | 502 | 2002 |
Impacts of climate changes on crop physiology and food quality FM DaMatta, A Grandis, BC Arenque, MS Buckeridge Food Research International 43 (7), 1814-1823, 2010 | 472 | 2010 |
Drought Tolerance is Associated with Rooting Depth and Stomatal Control of Water Use in Clones of Coffea canephora HA Pinheiro, FM DaMATTA, ARM Chaves, ME Loureiro, C Ducatti Annals of botany 96 (1), 101-108, 2005 | 343 | 2005 |
Silicon nutrition increases grain yield, which, in turn, exerts a feed‐forward stimulation of photosynthetic rates via enhanced mesophyll conductance and alters primary … KC Detmann, WL Araújo, SCV Martins, LMVP Sanglard, JV Reis, ... New Phytologist 196 (3), 752-762, 2012 | 335 | 2012 |
Drought tolerance in relation to protection against oxidative stress in clones of Coffea canephora subjected to long-term drought HA Pinheiro, FM DaMatta, ARM Chaves, EPB Fontes, ME Loureiro Plant science 167 (6), 1307-1314, 2004 | 298 | 2004 |
Antisense inhibition of the iron-sulphur subunit of succinate dehydrogenase enhances photosynthesis and growth in tomato via an organic acid–mediated effect on stomatal aperture WL Araujo, A Nunes-Nesi, S Osorio, B Usadel, D Fuentes, R Nagy, ... The Plant Cell 23 (2), 600-627, 2011 | 267 | 2011 |
Exploring drought tolerance in coffee: a physiological approach with some insights for plant breeding FM DaMatta Brazilian journal of plant physiology 16, 1-6, 2004 | 251 | 2004 |
Effects of long-term soil drought on photosynthesis and carbohydrate metabolism in mature robusta coffee (Coffea canephora Pierre var. kouillou) leaves SC Praxedes, FM DaMatta, ME Loureiro, MAG Ferrao, AT Cordeiro Environmental and experimental botany 56 (3), 263-273, 2006 | 239 | 2006 |
Physiological and agronomic performance of the coffee crop in the context of climate change and global warming: A review FM DaMatta, RT Avila, AA Cardoso, SCV Martins, JC Ramalho Journal of agricultural and food chemistry 66 (21), 5264-5274, 2018 | 232 | 2018 |
Long‐term elevated air [CO 2] strengthens photosynthetic functioning and mitigates the impact of supra‐optimal temperatures in tropical Coffea arabica and C. canephora species WP Rodrigues, MQ Martins, AS Fortunato, AP Rodrigues, JN Semedo, ... Global change biology 22 (1), 415-431, 2016 | 230 | 2016 |
Allometric models for non‐destructive leaf area estimation in coffee (Coffea arabica and Coffea canephora) WC Antunes, MF Pompelli, DM Carretero, FM DaMatta Annals of applied biology 153 (1), 33-40, 2008 | 228 | 2008 |
Drought tolerance of two field-grown clones of Coffea canephora FM DaMatta, ARM Chaves, HA Pinheiro, C Ducatti, ME Loureiro Plant science 164 (1), 111-117, 2003 | 228 | 2003 |
Arabidopsis and tobacco plants ectopically expressing the soybean antiquitin-like ALDH7 gene display enhanced tolerance to drought, salinity, and oxidative stress SM Rodrigues, MO Andrade, APS Gomes, FM DaMatta, ... Journal of experimental botany 57 (9), 1909-1918, 2006 | 210 | 2006 |
Seasonal changes in vegetative growth and photosynthesis of Arabica coffee trees EA Silva, FM DaMatta, C Ducatti, AJ Regazzi, RS Barros Field Crops Research 89 (2-3), 349-357, 2004 | 194 | 2004 |
Phenotypic plasticity in response to light in the coffee tree FS Matos, R Wolfgramm, FV Gonçalves, PC Cavatte, MC Ventrella, ... Environmental and experimental botany 67 (2), 421-427, 2009 | 187 | 2009 |
Why could the coffee crop endure climate change and global warming to a greater extent than previously estimated? FM DaMatta, E Rahn, P Läderach, R Ghini, JC Ramalho Climatic change 152, 167-178, 2019 | 186 | 2019 |
Protective Response Mechanisms to Heat Stress in Interaction with High [CO2] Conditions in Coffea spp. MQ Martins, WP Rodrigues, AS Fortunato, AE Leitão, AP Rodrigues, ... Frontiers in Plant Science 7, 947, 2016 | 166 | 2016 |