Effects of some plant growth regulators on stem anatomy of radish seedlings grown under saline (NaCl) conditions

Çavuşoğlu, Kürşat; Kılıç, Semra; Kabar, Kudret

doi:10.17221/405-pse

Cited by 33 publications

(10 citation statements)

References 26 publications

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“…From all characters of physiology, morphology and anatomy for the C. arabica from three different habitats, this study indicates that, the C. arabica which grows in site one (high salinity) is characterized by increase in the leaf size, lobe number, thickening of epidermis, area of vascular bundles, chlorophyll a, b, cartenoid and prolein as adaptive characters for salinity stress; this agrees with the view of (Vijayan et al, 2008, Çavuşoğlu et al, 2008, Wu et al, 2010, Chookhampaeng, 2011, Ahmad et al, 2012, Kishor and Sreenivasulu, 2014). This study supports the use of C. arabica and these characters are used as an indicator of the salinity of the soil.…”

Section: Resultssupporting

confidence: 86%

“…These changes are physiological, morphological and anatomical (Shannon, 1997, Isla et al, 1998). It has been revealed from many studies that high salinity mostly causes anatomical alterations such as reduction of stomata number, leaf thickness, distance between vascular bundles and epidermis cell number (Shennan et al, 1987, Hwang and Chen, 1995, Kiliç et al, 2007, Çavuşoğlu et al, 2007, Vijayan et al, 2008, Çavuşoğlu et al, 2008). Other structural changes that occurred in salt stressed plants such as inhibition of differentiation, diameter and number of xylem vessels have also been recorded.…”

Section: Introductionmentioning

confidence: 99%

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Comparative morphological and anatomical characters of Cakile arabica from different habitat in eastern region of Saudi Arabia

Al-Taisan

Gabr

2017

Saudi Journal of Biological Sciences

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Morphological, anatomical and physiological plasticity was examined for from three different sites at the coastal part of the Arabian Gulf near Ad Dammam city in the eastern region of Saudi Arabia. Morphological investigation showed that the size and number of lobes of the leaves are increased in sites (I) which have high salt stress. Also anatomical investigation using a light microscope showed that the plant is adaptive for salt stress by increasing the thickening of the cuticle or epidermis layer and increase in the area of vascular bundles. Physiological studies showed that plant growing under high salt stress is characterized by increase content of electrical conductivity and increase in chlorophyll a, b, carotenoids and proline content in the plant tissues. This can be explained as an osmotic adjustment mechanism for the investigated species growing under high salinity stress.

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Section: Resultssupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Comparative morphological and anatomical characters of Cakile arabica from different habitat in eastern region of Saudi Arabia

Al-Taisan

Gabr

2017

Saudi Journal of Biological Sciences

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“…These results agree with the findings of Lu and Zhu (2006) , who reported that TRIA increased the activities of peroxidase (POD) in Glycine max under water stress. More recent studies also suggest that TRIA plays an important role in antioxidant protection under conditions of water stress ( Thind, 1991 ) and salt stress ( Çavuşoğlu et al, 2008 ; Perveen et al, 2011 ). TRIA is believed to play a significant role in inhibiting the lipid peroxidation of biological membranes by acting as an antioxidant compound ( Khan et al, 2009 ).…”

Section: Discussionmentioning

confidence: 99%

Triacontanol Reduces Transplanting Shock in Machine-Transplanted Rice by Improving the Growth and Antioxidant Systems

Li¹,

Zhong²,

Li³

et al. 2016

Front. Plant Sci.

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Machine transplantation results in serious transplant shock in seedlings and results in a longer recover stage, which negatively impacts the growth of low-position tillers and the yield of machine-transplanted rice. A barrel experiment was conducted to examine the effect of the foliar application of triacontanol (TRIA) on machine-transplanted rice during the recovery stage. TRIA (0, 1, 5, and 10 μM) was sprayed over leaves 2 days before transplanting. The chlorophyll content, sucrose content, oxidative damage, antioxidant enzyme levels, glutathione (GSH), and ascorbate (ASA) redox states, tiller dynamics and yield components of the plants were investigated. The results show that foliar-applied TRIA significantly alleviates the growth inhibition and oxidative damage caused by transplant shock. Furthermore, the application of TRIA increased the chlorophyll and sucrose contents of the plants. Importantly, TRIA not only significantly improved the activity of catalase (CAT) and guaiacol peroxidase (POD), demonstrating that POD can play an important role in scavenging H2O2 during the recovery stage, but it also enhanced the redox states of ASA and GSH by regulating the activities of enzymes involved in the ASA–GSH cycle, such as ascorbate peroxidase (APX) and glutathione reductase (GR). A dose of 10 μM TRIA was the most efficient in reducing the negative effects of transplant shock, increasing the panicles, grain filling, and grain yield per hill by 17.80, 5.86, and 16.49%, respectively. These results suggest that TRIA acts to reduce transplant shock in association with the regulation of the redox states of ASA and GSH and antioxidant enzymes and serves as an effective antioxidant to maintain photosynthetic capacity and promote the occurrence of low tillers.

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“…Root performance in acquiring water and nutrients is determined by the anatomy of the root, such as the size and number of xylem vessels, root cortex width, root hairs number, and suberin formation in the root (Acosta-Motos et al, 2017). Roots anatomy of many species have been reported to change by salinity, including orange (Mohammad, Shiraishi, & Ono, 1999), wheat (Akram, Akhtar, Javed, Wahid, & Rasul, 2002), radish (Çavuşğolu, Kılıç, & Kabar, 2008), lentil (Panuccio, Logoteta, De Lorenzo, & Muscolo, 2011), and finger millet (Krishnamurthy et al, 2014). The changes in root anatomy under salinity might determine the salinity tolerance level of the plant.…”

Section: Introductionmentioning

confidence: 99%

Different Root Anatomical Changes in Salt-tolerant and Salt-sensitive Foxtail Millet Genotypes

2019

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Effects of some plant growth regulators on stem anatomy of radish seedlings grown under saline (NaCl) conditions

Cited by 33 publications

References 26 publications

Comparative morphological and anatomical characters of Cakile arabica from different habitat in eastern region of Saudi Arabia

Comparative morphological and anatomical characters of Cakile arabica from different habitat in eastern region of Saudi Arabia

Triacontanol Reduces Transplanting Shock in Machine-Transplanted Rice by Improving the Growth and Antioxidant Systems

Different Root Anatomical Changes in Salt-tolerant and Salt-sensitive Foxtail Millet Genotypes

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