High light decreases xylem contribution to fruit growth in tomato

Recently, contradicting evidence has been reported on the contribution of xylem and phloem influx into tomato fruits, urging the need for a better understanding of the mechanisms involved in fruit growth. So far, little research has been performed on quantifying the effect of light intensity on the...

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Bibliographic Details
Published in:Plant, cell and environment cell and environment, 2015-03, Vol.38 (3), p.487-498
Main Authors: HANSSENS, JOCHEN, DE SWAEF, TOM, STEPPE, KATHY
Format: Article
Language:English
Subjects:
dendrometers
flowering
Fruit - growth & development
Fruit - physiology
Fruit - radiation effects
fruits
girdling
heat field deformation (HFD) sensor
irradiance
Light
light intensity
Lycopersicon esculentum - growth & development
Lycopersicon esculentum - physiology
Lycopersicon esculentum - radiation effects
mechanistic modelling
phloem
Phloem - growth & development
Phloem - physiology
Phloem - radiation effects
photosynthesis
Photosynthesis - radiation effects
Plant Stems - growth & development
Plant Stems - physiology
Plant Stems - radiation effects
Plant Transpiration - radiation effects
shade
Solanum lycopersicum
Solanum lycopersicum L
tomatoes
transpiration
Water - physiology
water flux
water potential
water status
xylem
Xylem - growth & development
Xylem - physiology
Xylem - radiation effects
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Summary:Recently, contradicting evidence has been reported on the contribution of xylem and phloem influx into tomato fruits, urging the need for a better understanding of the mechanisms involved in fruit growth. So far, little research has been performed on quantifying the effect of light intensity on the different contributors to the fruit water balance. However, as light intensity affects both transpiration and photosynthesis, it might be expected to induce important changes in the fruit water balance. In this study, tomato plants (Solanum lycopersicum L.) were grown in light and shade conditions and the fruit water balance was studied by measuring fruit growth of girdled and intact fruits with linear variable displacement transducers combined with a model‐based approach. Results indicated that the relative xylem contribution significantly increased when shading lowered light intensity. This resulted from both a higher xylem influx and a lower phloem influx during the daytime. Plants from the shade treatment were able to maintain a stronger gradient in total water potential between stem and fruits during daytime, thereby promoting xylem influx. It appeared that the xylem pathway was still functional at 35 days after anthesis and that relative xylem contribution was strongly affected by environmental conditions.
ISSN:0140-7791
1365-3040
DOI:10.1111/pce.12411