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1995 Journal Article A peanut simulation model: I. Model development and testingHammer, Graeme L., Sinclair, Thomas R., Boote, Kenneth J., Wright, Graeme C., Meinke, Holger and Bell, Mike J. (1995). A peanut simulation model: I. Model development and testing. Agronomy Journal, 87 (6), 1085-1093. doi: 10.2134/agronj1995.00021962008700060009x |
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1995 Journal Article Effects of Continuous Cultivation On Ferrosols in Subtropical South-East Queensland .1. Site Characterization, Crop Yields and Soil Chemical StatusBell, MJ, Harch, GR and Bridge, BJ (1995). Effects of Continuous Cultivation On Ferrosols in Subtropical South-East Queensland .1. Site Characterization, Crop Yields and Soil Chemical Status. Australian Journal of Agricultural Research, 46 (1), 237-253. |
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1995 Journal Article Physiological characteristics of peanut cultivars adapted to varying night temperaturesBell, M.J., Tollenaar, M. and Michaels, T.E. (1995). Physiological characteristics of peanut cultivars adapted to varying night temperatures. Peanut Science, 22 (1) |
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1994 Journal Article Photosynthetic Response to Chilling in PeanutBell, MJ, Michaels, TE, McCullough, DE and Tollenaar, M (1994). Photosynthetic Response to Chilling in Peanut. Crop Science, 34 (4), 1014-1023. |
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1994 Journal Article Peanut Leaf Photosynthetic Activity in Cool Field EnvironmentsBell, MJ, Gillespie, TJ, Roy, RC, Michaels, TE and Tollenaar, M (1994). Peanut Leaf Photosynthetic Activity in Cool Field Environments. Crop Science, 34 (4), 1023-1029. |
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1994 Journal Article Importance of Variation in Chilling Tolerance for Peanut Genotypic Adaptation to Cool, Short-Season EnvironmentsBell, MJ, Roy, RC, Tollenaar, M and Michaels, TE (1994). Importance of Variation in Chilling Tolerance for Peanut Genotypic Adaptation to Cool, Short-Season Environments. Crop Science, 34 (4), 1030-1039. |
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1994 Journal Article The N-2-Fixing Capacity of Peanut Cultivars with Differing Assimilate Partitioning CharacteristicsBell, MJ, Wright, GC, Suryantini and Peoples, MB (1994). The N-2-Fixing Capacity of Peanut Cultivars with Differing Assimilate Partitioning Characteristics. Australian Journal of Agricultural Research, 45 (7), 1455-1468. doi: 10.1071/AR9941455 |
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1994 Journal Article Effect of Cropping On the Physical Fertility of KrasnozemsBridge, BJ and Bell, MJ (1994). Effect of Cropping On the Physical Fertility of Krasnozems. Australian Journal of Soil Research, 32 (6), 1253-1273. doi: 10.1071/SR9941253 |
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1993 Journal Article Environmental and Agronomic Effects On the Growth of 4 Peanut Cultivars in a Subtropical Environment .2. Dry-Matter PartitioningBell, MJ, Wright, GC and Harch, G (1993). Environmental and Agronomic Effects On the Growth of 4 Peanut Cultivars in a Subtropical Environment .2. Dry-Matter Partitioning. Experimental Agriculture, 29 (4), 491-501. doi: 10.1017/S0014479700021190 |
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1993 Journal Article Leaf nitrogen content and minimum temperature interactions affect radiation-use efficiency in peanutWright, Graeme C., Bell, Michael J. and Hammer, Graeme L. (1993). Leaf nitrogen content and minimum temperature interactions affect radiation-use efficiency in peanut. Crop Science, 33 (3), 476-481. doi: 10.2135/cropsci1993.0011183X003300030012x |
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1993 Journal Article Environmental and agronomic effects on the growth of four peanut cultivars in a subtropical environment. 1.Dry matter accumulation and radiation use efficiencyBell, M.J., Wright, G.C. and Harch, G.R. (1993). Environmental and agronomic effects on the growth of four peanut cultivars in a subtropical environment. 1.Dry matter accumulation and radiation use efficiency. Experimental Agriculture, 29 (4), 473-490. doi: 10.1017/s0014479700021189 |
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1992 Journal Article Night temperature affects radiation-use efficiency in peanutBell, M. J., Wright, G. C. and Hammer, G. L. (1992). Night temperature affects radiation-use efficiency in peanut. Crop Science, 32 (6), 1329-1335. doi: 10.2135/cropsci1992.0011183X003200060005x |
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1992 Journal Article Plant-Population Studies On Peanut (Arachis-Hypogaea L) in Subtropical Australia .2. Water-Limited ConditionsWright, GC and Bell, MJ (1992). Plant-Population Studies On Peanut (Arachis-Hypogaea L) in Subtropical Australia .2. Water-Limited Conditions. Australian Journal of Experimental Agriculture, 32 (2), 189-196. doi: 10.1071/EA9920189 |
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1992 Journal Article Effect of Rotation and Inoculation with Bradyrhizobium On Nitrogen-Fixation and Yield of Peanut (Arachis-Hypogaea L, Cv Virginia Bunch)Peoples, MB, Bell, MJ and Bushby, Hva (1992). Effect of Rotation and Inoculation with Bradyrhizobium On Nitrogen-Fixation and Yield of Peanut (Arachis-Hypogaea L, Cv Virginia Bunch). Australian Journal of Agricultural Research, 43 (3), 595-607. doi: 10.1071/AR9920595 |
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1992 Journal Article Plant-Population Studies On Peanut (Arachis-Hypogaea L) in Subtropical Australia .3. Growth and Water-Use During a Terminal Drought StressWright, GC and Bell, MJ (1992). Plant-Population Studies On Peanut (Arachis-Hypogaea L) in Subtropical Australia .3. Growth and Water-Use During a Terminal Drought Stress. Australian Journal of Experimental Agriculture, 32 (2), 197-203. doi: 10.1071/EA9920197 |
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1991 Journal Article Cultivar and environmental effects on growth and development of peanuts (Arachis hypogaea L.). II. Reproductive developmentBell, MJ, Shorter, R and Mayer, R (1991). Cultivar and environmental effects on growth and development of peanuts (Arachis hypogaea L.). II. Reproductive development. Field Crops Research, 27 (1-2), 35-49. doi: 10.1016/0378-4290(91)90020-V |
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1991 Journal Article Cultivar and environmental effects on growth and development of peanuts (Arachis hypogaea L.). I. Emergence and floweringBell, MJ, Shorter, R and Mayer, R (1991). Cultivar and environmental effects on growth and development of peanuts (Arachis hypogaea L.). I. Emergence and flowering. Field Crops Research, 27 (1-2), 17-33. doi: 10.1016/0378-4290(91)90019-R |
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1991 Journal Article Plant population studies on peanut (Arachis hypogaea L.) in subtropical Australia. 1. Growth under fully irrigated conditionsBell, MJ, Harch, G and Wright, GC (1991). Plant population studies on peanut (Arachis hypogaea L.) in subtropical Australia. 1. Growth under fully irrigated conditions. Australian Journal of Experimental Agriculture, 31 (4), 535-543. doi: 10.1071/EA9910535 |
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1991 Journal Article Effects of photoperiod on reproductive development of peanut (Arachis hypogaea L.) in subtropical Australia. I. Field studiesBell, M.J. and Harch, G. (1991). Effects of photoperiod on reproductive development of peanut (Arachis hypogaea L.) in subtropical Australia. I. Field studies. Australian Journal of Agricultural Research, 42 (7), 1133-1149. doi: 10.1071/ar9911133 |
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1991 Journal Article Effects of photoperiod on reproductive development of peanut (Arachis hypogaea L.) in subtropical Australia. II. Temperature interactionsBell, M.J., Bagnall, D.J. and Harch, G. (1991). Effects of photoperiod on reproductive development of peanut (Arachis hypogaea L.) in subtropical Australia. II. Temperature interactions. Australian Journal of Agricultural Research, 42 (7), 1151-1161. doi: 10.1071/ar9911151 |
