Leaf senescence in a non-yellowing mutant of Festuca pratensisimplications of the stay-green mutation for photosynthesis, growth and nutrition

Awduron Sefydliadau
Math Erthygl
Iaith wreiddiolSaesneg
Tudalennau (o-i)1007-1018
CyfnodolynPlant, Cell and Environment
Cyfrol20
Rhif y cyfnodolyn8
Dangosyddion eitem ddigidol (DOIs)
StatwsCyhoeddwyd - Awst 1997
Cysylltiadau
Cysylltiad parhaol
Gweld graff cysylltiadau
Fformatau enwi

Crynodeb

Mutation of the nuclear gene sid disables chlorophyll degradation during leaf senescence in the pasture grass Festuca pratensis. This study investigated the effect of the mutation on photosynthesis and on leaf and whole plant growth under a range of nitrogen regimes. When plants were cultivated in a static hydroponic system, the chlorophyll content of fourth leaves of the stay-green mutant Bf993 remained virtually unchanged from full expansion to complete senescence, while tissue of the wild-type (cv. Rossa) became completely yellow. The retention of chlorophyll in Bf993 was not associated with maintenance of photosynthetic activity as shown by rates of light-saturated CO2 fixation and apparent quantum efficiency. Higher levels of total N in senescing leaves of Bf993 than in Rossa indicated reduced nitrogen remobilization in the mutant. When using a range of [NH4NO3], dry matter production and tillering Mere lower for Bf993 at all but the highest [NH4NO3, which was supra-optimal for the wild type. In contrast to the static system, where fluctuations in N supply occurred, growth and [NO3−] uptake were similar in mutant and wild type when [NO3−] was continuously maintained by a flowing solution culture system. The results are discussed in relation to the role of N supply and the effect of the stay-green mutation on N recycling.

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