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Results:
1-7
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Results: 7
Authors:
KIRSCHBAUM MUF
MEDLYN BE
KING DA
PONGRACIC S
MURTY D
KEITH H
KHANNA PK
SNOWDON P
RAISON RJ
Citation: Muf. Kirschbaum et al., MODELING FOREST-GROWTH RESPONSE TO INCREASING CO2 CONCENTRATION IN RELATION TO VARIOUS FACTORS AFFECTING NUTRIENT SUPPLY, Global change biology, 4(1), 1998, pp. 23-41
Authors:
MEDLYN BE
Citation: Be. Medlyn, PHYSIOLOGICAL-BASIS OF THE LIGHT USE EFFICIENCY MODEL, Tree physiology, 18(3), 1998, pp. 167-176
Authors:
DEWAR RC
MEDLYN BE
MCMURTRIE RE
Citation: Rc. Dewar et al., A MECHANISTIC ANALYSIS OF LIGHT AND CARBON USE EFFICIENCIES, Plant, cell and environment, 21(6), 1998, pp. 573-588
Authors:
MEDLYN BE
DEWAR RC
Citation: Be. Medlyn et Rc. Dewar, A MODEL OF THE LONG-TERM RESPONSE OF CARBON ALLOCATION AND PRODUCTIVITY OF FORESTS TO INCREASED CO2 CONCENTRATION AND NITROGEN DEPOSITION, Global change biology, 2(4), 1996, pp. 367-376
Authors:
MEDLYN BE
Citation: Be. Medlyn, INTERACTIVE EFFECTS OF ATMOSPHERIC CARBON-DIOXIDE AND LEAF NITROGEN CONCENTRATION ON CANOPY LIGHT USE EFFICIENCY - A MODELING ANALYSIS, Tree physiology, 16(1-2), 1996, pp. 201-209
Authors:
MEDLYN BE
Citation: Be. Medlyn, THE OPTIMAL ALLOCATION OF NITROGEN WITHIN THE C-3 PHOTOSYNTHETIC SYSTEM AT ELEVATED CO2, Australian journal of plant physiology, 23(5), 1996, pp. 593-603
Authors:
KIRSCHBAUM MUF
KING DA
COMINS HN
MCMURTRIE RE
MEDLYN BE
PONGRACIC S
MURTY D
KEITH H
RAISON RJ
KHANNA PK
SHERIFF DW
Citation: Muf. Kirschbaum et al., MODELING FOREST RESPONSE TO INCREASING CO2 CONCENTRATION UNDER NUTRIENT-LIMITED CONDITIONS, Plant, cell and environment, 17(10), 1994, pp. 1081-1099
Risultati:
1-7
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