Idupulapati Rao
Idupulapati Rao
CIAT (International Center for Tropical Agriculture)
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Carbon storage by introduced deep-rooted grasses in the South American savannas
MJ Fisher, IM Rao, MA Ayarza, CE Lascano, JI Sanz, RJ Thomas, ...
Nature 371 (6494), 236-238, 1994
Influence of Phosphorus Nutrition on Growth and Carbon Partitioning in Glycine max
AL Fredeen, IM Rao, N Terry
Plant physiology 89 (1), 225-230, 1989
Phenotyping common beans for adaptation to drought
SE Beebe, IM Rao, MW Blair, JA Acosta-Gallegos
Frontiers in physiology 4, 35, 2013
Scope and strategies for regulation of nitrification in agricultural systems—challenges and opportunities
GV Subbarao, O Ito, KL Sahrawat, WL Berry, K Nakahara, T Ishikawa, ...
Critical reviews in plant sciences 25 (4), 303-335, 2006
Evidence for biological nitrification inhibition in Brachiaria pastures
GV Subbarao, K Nakahara, MP Hurtado, H Ono, DE Moreta, AF Salcedo, ...
Proceedings of the National Academy of Sciences 106 (41), 17302-17307, 2009
Selection for drought resistance in common bean also improves yield in phosphorus limited and favorable environments
SE Beebe, IM Rao, C Cajiao, M Grajales
Crop Science 48 (2), 582-592, 2008
Strategies for improving phosphorus acquisition efficiency of crop plants
L Ramaekers, R Remans, IM Rao, MW Blair, J Vanderleyden
Field Crops Research 117 (2-3), 169-176, 2010
Phosphorus transformations in an Oxisol under contrasting land-use systems: the role of the soil microbial biomass
A Oberson, DK Friesen, IM Rao, S Bühler, E Frossard
Plant and Soil 237 (2), 197-210, 2001
Leaf phosphate status, photosynthesis, and carbon partitioning in sugar beet: I. Changes in growth, gas exchange, and Calvin cycle enzymes
IM Rao, N Terry
Plant Physiology 90 (3), 814-819, 1989
Biological nitrification inhibition (BNI)—is it a widespread phenomenon?
GV Subbarao, M Rondon, O Ito, T Ishikawa, IM Rao, K Nakahara, ...
Plant and Soil 294 (1), 5-18, 2007
Effects of phosphorus nutrition on photosynthesis in Glycine max (L.) Merr.
AL Fredeen, TK Raab, IM Rao, N Terry
Planta 181 (3), 399-405, 1990
Secretion of phytase from the roots of several plant species under phosphorus-deficient conditions
M Li, M Osaki, I Madhusudana Rao, T Tadano
Plant and soil 195 (1), 161-169, 1997
Selection and breeding for acid-soil tolerance in crops
IM Rao, RS Zeigler, R Vera, S Sarkarung
BioScience 43 (7), 454-465, 1993
Abiotic stress responses in legumes: strategies used to cope with environmental challenges
SS Araujo, S Beebe, M Crespi, B Delbreil, EM Gonzalez, V Gruber, ...
Critical Reviews in Plant Sciences 34 (1-3), 237-280, 2015
Genetic improvement of common beans and the challenges of climate change
S Beebe, J Ramirez, A Jarvis, IM Rao, G Mosquera, JM Bueno, MW Blair
Crop adaptation to climate change, 356-369, 2011
Physiological and genetic analysis of root responsiveness to auxin-producing plant growth-promoting bacteria in common bean (Phaseolus vulgaris L.)
R Remans, S Beebe, M Blair, G Manrique, E Tovar, I Rao, ...
Plant and soil 302 (1), 149-161, 2008
The high level of aluminum resistance in signalgrass is not associated with known mechanisms of external aluminum detoxification in root apices
P Wenzl, GM Patino, AL Chaves, JE Mayer, IM Rao
Plant Physiology 125 (3), 1473-1484, 2001
JW Miles, CB Do Valle, IM Rao, VPB Euclides
Warm‐season (C4) grasses 45, 745-783, 2004
Role of physiology in improving crop adaptation to abiotic stresses in the tropics: The case of common bean and tropical forages
IM Rao
Handbook of plant and crop physiology, 605-636, 2001
Phosphorus acquisition and cycling in crop and pasture systems in low fertility tropical soils
DK Friesen, IM Rao, RJ Thomas, A Oberson, JI Sanz
Plant and soil 196 (2), 289-294, 1997
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