Anatomical and Physiological Responses of Citrus Trees to Varying Boron Availability Are Dependent on Rootstock

Mesquita, Geisa Lima; Zambrosi, Fernando César Bachiega; Tanaka, Francisco André Ossamu; Boaretto, Rodrigo Marcelli; Quaggio, J. A.; Ribeiro, Rafael Vasconcelos; Mattos, Dirceu

doi:10.3389/fpls.2016.00224

Cited by 58 publications

(44 citation statements)

References 42 publications

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“…v.78, n.1, e20180387, 2021 High doses of B applied as calcium borate and boric acid did not result in high concentrations of foliar B as has been found in other works with doses of B above 300 mg L -1 (Quaggio et al, 2010;Ullah et al, 2012;Khan et al, 2015). A low concentration of B in the leaves (40 mg kg -1 of B) was observed when the lowest dose in this study was applied and, compared to the maximum DM reached with 295 mg L -1 of B, reflected a decrease in DM (18 %), characterized as a nutritional deficiency by Mesquita et al (2016). At the highest dose of B tested, no significant nutrient toxicity was observed, represented by just a 5 % decrease in the DM of the aerial part.…”

Section: Discussionsupporting

confidence: 85%

“…This is likely explained by the medium concentration of B (97 mg kg -1 ) seen in the leaves. Excess B might reduce up to 50 % DM of citrus trees, associated with a decreased net assimilation rate of CO 2 and leaf transpiration when leaf B concentration > 300 mg kg -1 (Quaggio et al, 2003;Mesquita et al, 2016;Simón-Grao et al, 2018), a limit considered toxic to citrus seedlings based on Mattos Jr. et al (1995).…”

Section: Discussionmentioning

confidence: 99%

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Efficiency of foliar application of sparingly soluble sources of boron and zinc in citrus

Macedo

Júnior

Jacobassi

et al. 2021

Sci. agric. (Piracicaba, Braz.)

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This study evaluated leaf supply of zinc (Zn) and boron (B) using either soluble or sparingly soluble fertilizers in young sweet orange trees. Three experiments were set up in a greenhouse to compare two sources and four doses (control, low, adequate and high) of fertilizers as follows: (i) Experiment I (B): boric acid and calcium borate; (ii) Experiment II (Zn): Zn sulfate and Zn oxide; and (iii) Experiment III (B + Zn): boric acid + Zn Sulfate and Zn Borate. The sparingly soluble sources were effective in increasing the Zn and B leaf concentration. Dry matter of the aerial part increased 18 % with B applications in adequate concentration independent of the B fertilizer sources. In contrast, trees did not grow well with applications of adequate concentration of Zn as Zn Sulfate or high Zn concentration as Zn borate. Superoxide dismutase activity in leaves increased with applications of low concentration of Zn as Zn oxide and decreased with high concentration of Zn from either source. Polyphenol oxidase activity increased with application of adequate concentration of B as boric acid and high concentration of B as calcium borate. Furthermore, the upper concentrations of Zn were toxic in orange trees when the source was Zn sulfate. Increases in plant growth without damage to leaf tissue and positive responses of key enzymes of orange trees in a range of nutrient concentration applications demonstrated the practical use of sparingly soluble fertilizers to supplying B and Zn foliarily to plants.

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Section: Discussionsupporting

confidence: 85%

Section: Discussionmentioning

confidence: 99%

Efficiency of foliar application of sparingly soluble sources of boron and zinc in citrus

Macedo

Júnior

Jacobassi

et al. 2021

Sci. agric. (Piracicaba, Braz.)

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“…For example, inoculated plants treated with Mn 0.5% or Mn 1% exhibited the absence of injuries to sclerenchyma fibres and an improved structural organization of xylem and phloem vessels compared to inoculated Mn 0% plants. Indeed, the structural damage observed in the mesophyll of these Mn 0% plants has been linked to hampered movement of water and solutes in leaf tissues and subsequent impairments in overall plant performance (Mesquita et al ., ; Zambrosi et al ., ).…”

Section: Discussionmentioning

confidence: 99%

“…To investigate the structure of the mesophyll, a subgroup of these fixed samples was immersed in liquid nitrogen and fragmented with a blade as described by Mesquita et al . (). Subsequently, all samples were dehydrated in an acetone series of increasing concentration (30%, 50%, 70%, 90% and 100% (three times)) and dried until the critical point.…”

Section: Methodsmentioning

confidence: 97%

“…Tissue samples (approximately 20 mm 2 ) from the middle third of the leaves were cut during the morning from three different plants per treatment, fixed in Karnovsky solution and postfixed for 1 h with 1% osmium tetroxide in 0.05 M cacodylate. To investigate the structure of the mesophyll, a subgroup of these fixed samples was immersed in liquid nitrogen and fragmented with a blade as described by Mesquita et al (2016). Subsequently, all samples were dehydrated in an acetone series of increasing concentration (30%, 50%, 70%, 90% and 100% (three times)) and dried until the critical point.…”

Section: Scanning Electron Microscopy (Sem)mentioning

confidence: 99%

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Foliar application of manganese increases sugarcane resistance to orange rust

et al. 2019

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Orange rust (Puccinia kuehnii) is a serious disease compromising the sustainability of sugarcane (Saccharum spp.) production. The objective of this research was to study whether supplemental manganese (Mn) supplied through foliar sprays ameliorates negative effects of orange rust on sugarcane and, if so, to reveal the underlying mechanisms. The experiment was conducted using a sugarcane variety susceptible to the disease; a single spray of Mn at 5 g L−1 (Mn0.5%) or 10 g L−1 (Mn1%), plus a control (Mn0%) was performed before pathogen inoculation. Symptom severity, antioxidant metabolism, lignin deposition and anatomical organization were evaluated. Photosynthesis was also measured in newly expanded leaves and plants were harvested to estimate growth responses. The percentage diseased leaf area was reduced from 15% under Mn0% to 2.2% and 0.9% under Mn0.5% and Mn1%, respectively. This decrease was accompanied by increases in biomass production in the plants. Scanning and light microscopy images revealed that Mn treatment caused direct damage to the fungal spores and improved lignin deposition in the mesophyll. In the presence of the disease, Mn‐sprayed leaves exhibited lower levels of oxidative stress, in addition to improved structural organization of xylem and phloem vessels compared to the untreated control. The negative effects of orange rust on gas exchange and photochemistry were also ameliorated by Mn application. The results give insight into the mechanisms underlying augmented sugarcane resistance to orange rust under supplementary foliar Mn spray and contribute to the development of sustainable crop production systems by offering alternatives for reduction of disease damage.

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Split application of nutrients improve growth and yield of Huanglongbing‐affected citrus trees

Atta

Morgan

Mahmoud

2021

Soil Science Soc of Amer J

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 Split application of ground applied essential nutrients increase the availability of nutrients and decrease higher nutrient requirements. Split application of essential nutrients improves the availability and uptake of nutrients for adversely affected HLB-induced root density citrus trees, thus decrease leaching and reduce downstream ecosystems. The availability of essential nutrients increases vegetative growth. Vegetative growth improves fruit yield and quality.

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Anatomical and Physiological Responses of Citrus Trees to Varying Boron Availability Are Dependent on Rootstock

Cited by 58 publications

References 42 publications

Efficiency of foliar application of sparingly soluble sources of boron and zinc in citrus

Efficiency of foliar application of sparingly soluble sources of boron and zinc in citrus

Foliar application of manganese increases sugarcane resistance to orange rust

Split application of nutrients improve growth and yield of Huanglongbing‐affected citrus trees

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