Leaf gas-exchange characteristics of four Japanese and four Dutch tomato cultivars grown in a greenhouse
2013; Elsevier BV; Volume: 156; Linguagem: Inglês
10.1016/j.scienta.2013.03.031
ISSN1879-1018
AutoresRyo Matsuda, Dong-Hyuk Ahn, Akimasa Nakano, Katsumi Suzuki, Masuyuki Takaichi,
Tópico(s)Plant responses to elevated CO2
ResumoModern Dutch tomato cultivars reportedly yield 1.2–1.6 times as much fresh fruit as Japanese cultivars. To analyze a factor potentially contributing to the yield difference, leaf gas-exchange characteristics were determined for four Japanese (‘Asabiyori 10’, ‘Momotaro York’, ‘Reiyo’ and ‘Renaissance’) and four Dutch (‘Dundee’, ‘Levanzo’, ‘Tomimaru Mucho’ and ‘Vinchy’) tomato cultivars and evaluated according to a C3 photosynthesis model. Plants were grown hydroponically with a high-wire system in a glass greenhouse, and leaf gas-exchange rates were measured at different photosynthetic photon flux and CO2 partial pressures with 130- to 140-d-old plants. Overall, Dutch cultivars generally had higher photosynthetic capacity than Japanese cultivars both under the light-limited and -saturated conditions, and both under the CO2-limited and -saturated conditions; thus, both capacities of ribulose-1,5-bisphosphate (RuBP) carboxylation and regeneration were relatively higher in Dutch cultivars. However, not all Dutch cultivars were superior than Japanese cultivars in terms of photosynthesis: although Dutch cultivars ‘Levanzo’ and ‘Tomimaru Mucho’ tended to have higher leaf photosynthetic capacity than Japanese cultivars ‘Asabiyori 10’ and ‘Renaissance’, Japanese cultivars ‘Momotaro York’ and ‘Reiyo’ and Dutch cultivars ‘Dundee’ and ‘Vinchy’ possessed comparable photosynthetic capacity. Thus, there is variation of photosynthetic capacity even within Dutch cultivars and within Japanese cultivars.
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