Photosynthetic activity of ten national cocoa clones and their relationship to yield

Photosynthetic activity of ten national cocoa clones and their relationship to yield

Photosynthetic activity was evaluated in order to identify clones with good physiological performance and obtain relevant information on photosynthetic activity and its correlation with national cocoa production. The analysis included the photosynthesis rate (A), stomatic conductance (gs), water use...

全面介绍

Saved in:
书目详细资料
主要作者: Tezara Fernández, Wilmer Adelso (author)
其他作者: Valencia Caicedo, Enqui Euliquio (author), Reynel Chila, Víctor Hugo (author), Bolaños Ortega, Milton José (author), Blanco Flores, Héctor Alexander (author)
格式: article
语言:spa
出版: 2020
主题:
Fotosíntesis
fluorescencia
cacao
mazorca
uso de agua
producción
Photosynthesis
fluorescence
cocoa
pods
water use
production
在线阅读:https://revistasespam.espam.edu.ec/index.php/Revista_ESPAMCIENCIA/article/view/202
标签: 添加标签
没有标签, 成为第一个标记此记录!
实物特征
总结:Photosynthetic activity was evaluated in order to identify clones with good physiological performance and obtain relevant information on photosynthetic activity and its correlation with national cocoa production. The analysis included the photosynthesis rate (A), stomatic conductance (gs), water use efficiency (WU) and photochemical activity: quantum efficiency of PSII (FPSII), electron transport rate (J) and the production of cocoa pods and kernels from ten domestic cocoa clones grown in northern Esmeraldas. Differences in A, gs, J and FPSII were found among the clones; the highest A was observed in LDC 12, T8 and INIAP 484, as a result of high gs and J. There was a positive and significant correlation between J, potential photosynthesis (J/10) and cocoa production in the clones evaluated, suggesting that the higher A, as a result of higher photochemical activity in Ecuadorian cocoa, would contribute to a higher amount of photoassimilates, which could partially explain a higher production. The results indicate that the T8, T1, T11 and PMA 12 clones show a high photosynthetic performance, with a higher tolerance to diseases (lower index of diseased pods) and a higher production, so they could be recommended for the northern area of Esmeraldas; while the T13, INIAP 484, T23 and T24 clones work in the opposite direction, i.e. low production, low photochemical capacity and susceptibility to diseases (high index of diseased pods).

相似书籍