Premium
Impaired phytochrome‐mediated shade‐avoidance responses in the aurea mutant of tomato
Author(s) -
CASAL J. J.,
KENDRICK R. E.
Publication year - 1993
Publication title -
plant, cell and environment
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.646
H-Index - 200
eISSN - 1365-3040
pISSN - 0140-7791
DOI - 10.1111/j.1365-3040.1993.tb00489.x
Subject(s) - phytochrome , photoperiodism , mutant , far red , botany , biology , horticulture , shade avoidance , wild type , photosynthesis , canopy , shading , red light , gene , biochemistry , arabidopsis , art , visual arts
ABSTRACT Internode extension‐growth responses to neighbouring plants and to red to far‐red ratios (R:FR) were investigated in wild‐type (WT) and aurea ( au )‐mutant seedlings of tomato grown under natural radiation. The genomic location of the au mutant is not known, but one of its consequences is the reduced phytochrome level. In WT seedlings, internode growth was promoted by the presence of non‐shading neighbours reflecting far‐red light (FR), the shade of a tall canopy, FR provided as a supplement during the photoperiod, and FR pulses either provided at the end of the day or delayed into the dark period. Supplementary FR during the photoperiod also promoted growth in herbicide‐treated partially bleached WT seedlings. The au mutant showed higher background extension‐growth rates, but only responded to the most severe treatments: deep shade light and very low R:FR at the end of the day, i.e. au ‐mutant seedlings were less sensitive than WT seedlings to R:FR signals. Wild‐type seedlings were transferred from the glasshouse to a growth room and exposed to white light with two levels of phytochrome‐absorbable radiation but similar phytochrome photoequilibria and radiation for photosynthesis. The plants exposed to the lowest level showed a transient increase of internode extension growth rate and a simultaneous reduction of response to FR pulses, i.e. reproduced some of the features of au ‐mutant seedlings. Phytochrome itself could set the degree of response to Pfr during neighbour detection.