Annals of Botany

AOBPreview originally published online on January 4, 2007
Annals of Botany 2007 99(2):265-273; doi:10.1093/aob/mcl253

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A Model Explaining Genotypic and Ontogenetic Variation of Leaf Photosynthetic Rate in Rice (Oryza sativa) Based on Leaf Nitrogen Content and Stomatal Conductance

Akihiro Ohsumi^1,*, Akihiro Hamasaki¹, Hiroshi Nakagawa², Hiroe Yoshida¹, Tatsuhiko Shiraiwa¹ and Takeshi Horie¹

¹ Division of Agronomy, Graduate School of Agriculture, Kyoto University, Sakyo, Kyoto 606-8502, Japan
² Ishikawa Prefectural University, Ishikawa 921-8836, Japan

^* For correspondence. E-mail osumia{at}kais.kyoto-u.ac.jp

Received: 1 August 2006    Returned for revision: 30 August 2006    Accepted: 16 October 2006    Published electronically: 4 January 2007

BACKGROUNDS AND AIMS: Identification of physiological traits associated with leaf photosynthetic rate (P_n) is important for improving potential productivity of rice (Oryza sativa). The objectives of this study were to develop a model which can explain genotypic variation and ontogenetic change of P_n in rice under optimal conditions as a function of leaf nitrogen content per unit area (N) and stomatal conductance (g_s), and to quantify the effects of interaction between N and g_s on the variation of P_n.

METHODS: P_n, N and g_s were measured at different developmental stages for the topmost fully expanded leaves in ten rice genotypes with diverse backgrounds grown in pots (2002) and in the field (2001 and 2002). A model of P_n that accounts for carboxylation and CO₂ diffusion processes, and assumes that the ratio of internal conductance to g_s is constant, was constructed, and its goodness of fit was examined.

KEY RESULTS: Considerable genotypic differences in P_n were evident for rice throughout development in both the pot and field experiments. The genotypic variation of P_n was correlated with that of g_s at a given stage, and the change of P_n with plant development was closely related to the change of N. The variation of g_s among genotypes was independent of that of N. The model explained well the variation in P_n of the ten genotypes grown under different conditions at different developmental stages.

CONCLUSIONS: The response of P_n to increased N differs with g_s, and the increase in P_n of genotypes with low g_s is smaller than that of genotypes with high g_s. Therefore, simultaneous improvements of these two traits are essential for an effective breeding of rice genotypes with increased P_n.

Key words: Model, leaf photosynthesis, genotypic and ontogenetic variation, rice (Oryza sativa), leaf nitrogen content, stomatal conductance, internal conductance

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