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1995 Journal Article Growth and yield response of barley and chickpea to water stress under three environments in southeast Queensland. I. Light interception, crop growth and grain yieldThomas and Fukai, S. (1995). Growth and yield response of barley and chickpea to water stress under three environments in southeast Queensland. I. Light interception, crop growth and grain yield. Australian Journal of Agricultural Research, 46 (1), 17-33. doi: 10.1071/AR9950017 |
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1995 Journal Article Growth and yield response of barley and chickpea to water stress under three environments in southeast Queensland. II. Root growth and soil water extraction patternThomas, Fukai, S. and Hammer, G.L. (1995). Growth and yield response of barley and chickpea to water stress under three environments in southeast Queensland. II. Root growth and soil water extraction pattern. Australian Journal of Agricultural Research, 46 (1), 35-48. doi: 10.1071/AR9950035 |
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1995 Journal Article Growth and grain yield of contrasting rice cultivars grown under different conditions of water availabilityJearakongman, Suwat, Rajatasereekul, Satit, Naklang, Kunnika, Romyen, Panya, Fukai, Shu, Skulkhu, Ekasith, Jumpaket, Baley and Nathabutr, Keson (1995). Growth and grain yield of contrasting rice cultivars grown under different conditions of water availability. Field Crops Research, 44 (2-3), 139-150. doi: 10.1016/0378-4290(95)00050-X |
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1995 Journal Article Growth and yield response of barley and chickpea to water stress under three environments in southeast Queensland. III. Water use efficiency, transpiration efficiency and soil evaporationThomas and Fukai, S. (1995). Growth and yield response of barley and chickpea to water stress under three environments in southeast Queensland. III. Water use efficiency, transpiration efficiency and soil evaporation. Australian Journal of Agricultural Research, 46 (1), 49-60. doi: 10.1071/AR9950049 |
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1995 Journal Article Development of drought-resistant cultivars using physiomorphological traits in riceFukai S. and Cooper M. (1995). Development of drought-resistant cultivars using physiomorphological traits in rice. Field Crops Research, 40 (2), 67-86. doi: 10.1016/0378-4290(94)00096-U |
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1994 Journal Article Effect of timing and severity of water deficit on four diverse rice cultivars II. Physiological responses to soil water deficitLilley J.M. and Fukai S. (1994). Effect of timing and severity of water deficit on four diverse rice cultivars II. Physiological responses to soil water deficit. Field Crops Research, 37 (3), 215-223. doi: 10.1016/0378-4290(94)90100-7 |
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1994 Journal Article Effect of timing and severity of water deficit on four diverse rice cultivars I. Rooting pattern and soil water extractionLilley J.M. and Fukai S. (1994). Effect of timing and severity of water deficit on four diverse rice cultivars I. Rooting pattern and soil water extraction. Field Crops Research, 37 (3), 205-213. doi: 10.1016/0378-4290(94)90099-X |
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1994 Journal Article Effect of timing and severity of water deficit on four diverse rice cultivars III. Phenological development, crop growth and grain yieldLilley J.M. and Fukai S. (1994). Effect of timing and severity of water deficit on four diverse rice cultivars III. Phenological development, crop growth and grain yield. Field Crops Research, 37 (3), 225-234. doi: 10.1016/0378-4290(94)90101-5 |
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1993 Journal Article Water extraction by grain sorghum in a sub-humid environment. II. Extraction in relation to root growthRobertson, M.J., Fukai, S. and Hammer, G.L. (1993). Water extraction by grain sorghum in a sub-humid environment. II. Extraction in relation to root growth. Field Crops Research, 33 (1-2), 99-112. doi: 10.1016/0378-4290(93)90096-6 |
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1993 Journal Article Modelling root growth of grain sorghum using the CERES approachRobertson, M.J., Fukai, S., Hammer, G.L. and Ludlow, M.M. (1993). Modelling root growth of grain sorghum using the CERES approach. Field Crops Research, 33 (1-2), 113-130. doi: 10.1016/0378-4290(93)90097-7 |
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1993 Journal Article Water extraction by grain sorghum in a sub-humid environment. I. Analysis of the water extraction patternRobertson, M. J., Fukai, S. and Hammer, G. L. (1993). Water extraction by grain sorghum in a sub-humid environment. I. Analysis of the water extraction pattern. Field Crops Research, 33 (1-2), 81-97. doi: 10.1016/0378-4290(93)90095-5 |
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1993 Journal Article Adaptive research for intercropping: steps towards the transfer of intercrop research findings to farmers' fieldsFukai, S. and Midmore, D. J. (1993). Adaptive research for intercropping: steps towards the transfer of intercrop research findings to farmers' fields. Field Crops Research, 34 (3-4), 459-467. doi: 10.1016/0378-4290(93)90126-8 |
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1993 Journal Article Processes determining intercrop productivity and yields of component cropsFukai, S. and Trenbath, B. R. (1993). Processes determining intercrop productivity and yields of component crops. Field Crops Research, 34 (3-4), 247-271. doi: 10.1016/0378-4290(93)90117-6 |
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1993 Journal Article Intercropping - bases of productivityFukai, S. (1993). Intercropping - bases of productivity. Field Crops Research, 34 (3-4), 239-245. doi: 10.1016/0378-4290(93)90116-5 |
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1993 Journal Article Radiation interception and growth of maize/cowpea intercrop as affected by maize plant density and cowpea cultivarWatiki, J. M., Fukai, S., Banda, J. A. and Keating, B. A. (1993). Radiation interception and growth of maize/cowpea intercrop as affected by maize plant density and cowpea cultivar. Field Crops Research, 35 (2), 123-133. doi: 10.1016/0378-4290(93)90145-D |
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1992 Journal Article Agronomic modification of competition between cassava and pigeonpea in intercroppingCenpukdee, U. and Fukai, S. (1992). Agronomic modification of competition between cassava and pigeonpea in intercropping. Field Crops Research, 30 (1-2), 131-146. doi: 10.1016/0378-4290(92)90062-E |
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1992 Journal Article Cassava/legume intercropping with contrasting cassava cultivars. 1. Competition between component crops under three intercropping conditionsCenpukdee, U. and Fukai, S. (1992). Cassava/legume intercropping with contrasting cassava cultivars. 1. Competition between component crops under three intercropping conditions. Field Crops Research, 29 (2), 113-133. doi: 10.1016/0378-4290(92)90082-K |
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1992 Journal Article Cassava/legume intercropping with contrasting cassava cultivars. 2. Selection criteria for cassava genotypes in intercropping with two contrasting legume cropsCenpukdee U. and Fukai S. (1992). Cassava/legume intercropping with contrasting cassava cultivars. 2. Selection criteria for cassava genotypes in intercropping with two contrasting legume crops. Field Crops Research, 29 (2), 135-149. doi: 10.1016/0378-4290(92)90083-L |
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1992 Journal Article Genotypic Variation In Response to High Temperature at Flowering In Common Bean (Phaseolm Vulgaris L.)Agtunong, T. P., Redden, R., Mengge-Nang, M. A., Searle, C. and Fukai, S. (1992). Genotypic Variation In Response to High Temperature at Flowering In Common Bean (Phaseolm Vulgaris L.). Australian Journal of Experimental Agriculture, 32 (8), 1135-1140. doi: 10.1071/EA9921135 |
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1991 Journal Article Alternative methods of irrigation for rice production in tropical AustraliaBorrell, A. K., Fukai, S. and Garside, A.L. (1991). Alternative methods of irrigation for rice production in tropical Australia. International Rice Research Newsletter, 16 (3), 28-28. |
