Linking Fruit Ca Uptake Capacity to Fruit Growth and Pedicel Anatomy, a Cros- Species Study
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Date
2018-05-09Author
Song, Wenpei
Yi, Junwen
Kurniadinata, Odit
Wang, Huicong
Huang, Xuming
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Show full item recordAbstract
Calcium (Ca) in flesh fruits is important for quality formation and maintenance. Most
studies on fruit Ca focus on one species. This study attempted to understand some
universal relations to fruit Ca uptake across species. Calcium contents in fruit tissues
were analyzed in different fruits, including three cultivars of litchi, two cultivars each of
grape and citrus, and one cultivar each of loquat, apple, pear, Indian jujube, and longan.
In situ Ca distribution was revealed with electron probe and xylem functionality visualized
by dye tracing. Fruit Ca uptake rate and activity were calculated and correlated with
fruit growth and pedicel anatomy. The results showed that fruit Ca uptake rate was
the highest in pomes (loquat, apple, and pear), followed by Indian jujube drupe, arillate
fruits (litchis and longan) and citrus, while grape berries were the lowest. Fruit Ca uptake
rate showed a strong positive correlation to growth rate. However, Ca uptake activity,
reflecting Ca uptake rate relative to growth, was the highest in arillate fruits and loquat
and lowest in grape berries, and had a poor correlation with fruit growth rate. In all fruits,
Ca concentration in the pedicel was higher than in the fruit, and they displayed a good
positive correlation. In the pedicel, Ca was most abundant in the phloem. Dye tracing
showed that xylem function loss occurred with maturation in all species/varieties. Apple
had the poorest xylem functionality with the least development of secondary xylem, but
its Ca uptake rate was among the highest. Vessel density, size and area in the pedicel
showed no correlation with fruit Ca uptake rate. It is concluded that: (1) fruit growth
may be a key determinant of Ca uptake; (2) the universal pattern of Ca being higher
in the pedicel than in the fruit indicates existence of a pedicel-fruit “bottleneck” effect
in Ca transport across species; (3) xylem functionality loss with fruit maturation is also
a universal event; (4) in the pedicel, Ca is more distributed in the phloem; (5) vessel
morphology in the pedicel is not rate-limiting for fruit Ca uptake; (6) phloem pathway
might contribute to fruit Ca uptake.
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