Effect of pollen load, source and mixture on reproduction success of four cultivars of Citrullus lanatus (Thunb.) Matsumara and Nakai (cucurbitaceae)

Effect of pollen load, source and mixture on reproduction success of four cultivars of Citrullus lanatus (Thunb.) Matsumara and Nakai (cucurbitaceae)

•High or low pollen quantity decreases fertilization success of fruit and seed production.•All cultivars are self and cross compatible.•High level of inbreeding depression had been observed.•The cross pollination yield is higher than natural pollination and self pollination yield.•Higher proportion...

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Bibliographic Details
Published in:Scientia horticulturae Vol. 164; pp. 521 - 531
Main Authors: Koffi, Adjoumani, Beket Séverin, Bony, Guillaume, Koffi Kouamé, Bertin, Yao Koffi, Clémence, Kouonon Léonie, Sylvère, Yao Konan, Yao, Djè
Format: Journal Article
Language:English
Published: Elsevier B.V 17-12-2013
Subjects:
Citrullus lanatus
cross pollination
cultivars
fruits
inbreeding depression
mating systems
plant breeding
pollen
Pollen and self compatible
Pollination
seeds
self-pollination
Citrullus lanatus
Pollination
Pollen and self compatible
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Summary:•High or low pollen quantity decreases fertilization success of fruit and seed production.•All cultivars are self and cross compatible.•High level of inbreeding depression had been observed.•The cross pollination yield is higher than natural pollination and self pollination yield.•Higher proportion of cross pollen in the mixture increases yield. Citrullus lanatus is cultivated in Côte d’Ivoire for its edible kernels which are used as a soup thickener. There are four distinct cultivars (one Bebu and three Wlêwlê). A better understanding of the reproduction system for those annual monoecious cultivars may improve its production. We studied the impact of pollen load, pollen source and diversity on the yield of fruits and seeds. Various pollination treatments were applied during four growing seasons to assess pollen load, pollen source and diversity (cross pollination with single source, cross pollination with multiple sources, self pollination and natural pollination) and pollen mixture. Pollination and reproductive success were determined by a fertilization index and by assessing fruits and seeds production. The self-compatibility and inbreeding depression index were also evaluated. Higher or lower pollen quantity decreases fertilization success of fruits and seeds production while medium pollen load leads to optimal yield. All cultivars were self compatible and higher level of inbreeding depression had been observed. When cross pollinated, yield was higher than natural pollination and self pollination yield. With manual pollination, cross pollination with multiple sources produces more fruits and seeds resulting in increased yield. Pollen diversity also improves fruits and seeds production. Pollen mixture will increase yield if the proportion of cross pollen in the mixture is higher than self pollen proportion. In conclusion, fruits and seeds production of those local self compatible cultivars were influenced by the amount of pollen load, pollen source and diversity, and also by proportion of pollen type in the pollen mixture. These results are therefore necessary in order to predict the evolutionary trajectory of mating systems and to make plant breeding program.
Bibliography:http://dx.doi.org/10.1016/j.scienta.2013.10.007
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2013.10.007