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AuthorRasouli, Fatemeh
AuthorBabla, Mohammad
AuthorLi, Lihua
AuthorLiang, Weiguang
AuthorYong, Miing Tiem
AuthorAhmed, Talaat
AuthorTissue, David
AuthorHuda, Samsul
AuthorChen, Zhong Hua
Available date2024-07-10T10:59:02Z
Publication Date2022-12-22
Publication NameHorticulturae
Identifierhttp://dx.doi.org/10.3390/horticulturae9010019
CitationRasouli, F., Babla, M., Li, L., Liang, W., Yong, M. T., Ahmed, T., ... & Chen, Z. H. (2022). Physiological and yield performance is partially linked to water use efficiency of eggplant genotypes in a high-tech glasshouse. Horticulturae, 9(1), 19.
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85146776567&origin=inward
URIhttp://hdl.handle.net/10576/56576
AbstractEggplant (Solanum melongena L.) has become an increasingly common vegetable grown in glasshouses. This study emphasized on the physiological traits and productivity of three eggplant cultivars (Longa, Lydia, and Tracey) in a high-tech glasshouse to determine the genotypic differences of agronomical, morphological, and physiological responses. The physiological parameters as well as the productivity of these eggplant cultivars were evaluated. The results showed that Tracey had significantly higher leaf growth than Longa and Lydia. Longa exhibited significantly higher values of net CO2 assimilation (A), stomatal conductance (gs), and transpiration rate (Tr) than Tracey, whereas Tracey showed significantly larger gs, Tr, and intracellular CO2 concentration (Ci) than Lydia. Tracey showed a significantly higher number of flowers per node compared to the two other varieties, but the number of fruits did not statistically differ among cultivars. Tracy produced the highest yield (fruit weight and fruit yield per m2) due to the significantly higher leaf length and leaf expansion rate despite the lowest level of A among the three cultivars. Interestingly, the higher yield of Tracey translated into better water use efficiency (WUE) in the agronomic term, but its intrinsic WUE (A/gs) was the lowest among the three cultivars. However, significant correlations between photosynthetic parameters and WUE were only found in certain stages of eggplant growth. Therefore, further research work with an emphasis on the source and sink partitioning of a large number of eggplant genotypes is required to investigate the varietal performance of greenhouse eggplants. Then, the information can be translated into protected cropping to set up the growth benchmark for large-scale sustainable production of eggplants with better yield and less water consumption for the horticultural industry.
SponsorThis work was supported by Mexico’s National Technological Institute (TecNM) and sponsored by both Mexico’s National Council of Science and Technology (CONACYT) and the Secretariat of Public Education (SEP) through the PRODEP project (Programa para el Desarrollo Profesional Docente). The project was supported by Hort Innovation (VG17003; LP18000), CRC Future Food Systems (P2-016), and MME grant MME01-0826-190018 from the Qatar National Research Fund.
Languageen
PublisherMultidisciplinary Digital Publishing Institute (MDPI)
Subjectgenotypic variation
leaf gas exchange
protected cropping
Solanum melongena
sustainable production
water use efficiency
TitlePhysiological and Yield Performance Is Partially Linked to Water Use Efficiency of Eggplant Genotypes in a High-Tech Glasshouse
TypeArticle
Issue Number1
Volume Number9
ESSN2311-7524
dc.accessType Open Access


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