2023
DOI: 10.31018/jans.v15i1.4183
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Impact of rhizobium inoculation and boron application on morphological alterations and biochemical triggers in pea (Pisum sativum L.)

Abstract: Rhizobium is a bacterial culture that enhances the speed of biological nitrogen fixation in association with root nodules in pulse crops while boron act as a catalyst for cell division hence the size of nodules and sugar translocation in the plant. An experiment was conducted by considering rhizobium as a seed inoculant and boron as a soil applicant in two peas (Pisum sativum L.) varieties Arkel and Azad Pea-3 to know the morphological alterations in plant height (cm), fresh and dry weight g plant-1), number o… Show more

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“…A similar effect was also noted in the studies of Zaj ąc et al [29], where the size of the leaf surface of peas in the variant of seed treatment with Nitragin increased in the phase of flowering by 7.6% compared to the control. In the study of Khiangte et al [30], the inoculation of pea seeds with Rhizobium increased the number of leaves on the plants by 15.4% compared to the control.…”
Section: Discussionmentioning
confidence: 94%
“…A similar effect was also noted in the studies of Zaj ąc et al [29], where the size of the leaf surface of peas in the variant of seed treatment with Nitragin increased in the phase of flowering by 7.6% compared to the control. In the study of Khiangte et al [30], the inoculation of pea seeds with Rhizobium increased the number of leaves on the plants by 15.4% compared to the control.…”
Section: Discussionmentioning
confidence: 94%