Effect of Zinc
Application on Cadmium Uptake of Maize Grown in Zinc Deficient Soil

Adiloglu, A.; Adiloğlu, Sevinç; Gönülsüz, E.; Öner, Nureddin

doi:10.3923/pjbs.2005.10.12

Cited by 7 publications

(3 citation statements)

References 11 publications

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“…It was also noted that Zn increased shoot Cd concentration at higher Cd supply, probably due to the enhancement of Cd translocation from roots to shoots. Similar results have been shown for maize plants (Adiloglu et al, 2005). Köleli et al (2004) reported that in wheat plants grown on Zn-deficient soil Cd toxicity in the shoot was alleviated by Zn treatment, but this was not accompanied by a corresponding decrease in shoot concentrations of Cd.…”

Section: Factors Alleviating CD Toxicity In Plantssupporting

confidence: 86%

Functions and toxicity of cadmium in plants: recent advances and future prospects

Tran¹,

Попова²

2013

Turkish Journal of Botany

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Section: Factors Alleviating CD Toxicity In Plantssupporting

confidence: 86%

Functions and toxicity of cadmium in plants: recent advances and future prospects

Tran¹,

Попова²

2013

Turkish Journal of Botany

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“…Hart et al, (2002) found in durum and bread wheat that decreases in Cd uptake by roots with increasing Zn treatment is possibly due to a competition between Zn and Cd for uptake. Cadmium toxicity in plants become more severe under Zn deficient condition and this effect was not related to increasing Cd concentration in plant (Adiloglu et al, 2005). It is important to mention that the zinc and iron are in antagonistic relations, and high level of iron in the soil reduces the absorption of other metals by plants (Goletić, 2005).…”

Section: Discussionmentioning

confidence: 99%

THE EFFECT OF SOIL SELENIUM FERTILIZATION TREATMENT ON THE CONTENT OF SOME IONS (Cd, Fe, Zn and Se) AND YIELD OF TWO CORN HYBRIDS

Filipović

Vujević

Ivanković

et al. 2016

RŠF

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UDK 631.8(497.6 Čapljina) The concentration and form of some metals and metalloids in soil is governed by many chemical and physical properties of soil as pH, redox, Fe, Al ions and soil composition. The paper studied presents influence of chemical soil properties, environment conditions and selenium fertilization rate applied on ions status of zinc, cadmium, selenium and iron in soil and plant material, as well as specific adsorption of these ions in two different maize hybrids. The study was conducted at the farm Vita-Vi Višići (Čapljina). The experiment design was a completely randomized design with two hybrids, four different fertilization treatments in four replications. The experimental area was implemented standard agricultural management practices of preparation, tillage, fertilization, application of protective agents. Hybrid NP Pako is selected in order to achieve a high yield, and M34 hybrid for quality yield. The test results and statistical analysis revealed no significant difference in the yield of hybrids combined with different fertilization treatments. Accumulation of selenium, zinc, cadmium and iron in upper ground plant part of maize was not affected by fertilization treatments or selected hybrid. The highest yield was achieved by hybrid M34 Pioneer of 37.6 t ha- 1and the highest yield was obtained in application of third fertilization treatment 20 kg NaSeO4ha-1, but without statistically significant differences comparing to other hybrid or applied treatments. The highest content of selenium in the plant was found in hybrid NP PAKO 0.06 mg Se kg-1 of dry matter of maize applying the fourth liquid fertilization treatment (20 kg Na2SeO4ha-1) but also without statistically significant difference comparing to other hybrid or fertilization treatment. Content of zinc, cadmium and iron in soil or plant material had not shown significant differences due to the applied fertilization or used maize hybrids, but some fluctuations were observed. Selenium fertilization did not have a limiting effect on the formation of the yield and tested elements, but its mobility and availability in soil and plant depends also on other factors as soil properties and climatic conditions of growing season.

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“…When applied in the soils, Zn is less available to plants because it is adsorbed on hydroxides (particularly those of iron) and carbonate surfaces [40]. Zinc interacts with N [41] and K [42] positively in plants. In the present study, the application of Zn in soil and to foliage might have interacted positively with S, producing an increase in the concentration of the nutrient.…”

Section: Nutrient Concentration Of Sweet Potatomentioning

confidence: 99%

Improving the Productivity and Nutritional Values of Sweet Potato (Ipomoea batatas L.) with a Combination of Soil and Foliar Zinc

Abu Md Mostafizar Rahman,

Shukor Juraimi,

Karim

et al. 2024

Curr. Appl. Sci. Technol.

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Sweet potato (Ipomoea batatas L.) is an important crop and is a staple food in many countries across the globe; since they are a good source of nutrients including zinc (Zn). Zn is essential for plant growth and development, and a zinc deficiency can significantly impact crop productivity as well as the nutritional quality of the produce. The value of enrichment with Zn in many crops by applying Zn either to foliar or soil through agronomic biofortification has been investigated, but this information is still unavailable for sweet potatoes. Therefore, the current study aimed to evaluate the effect of soil and foliar Zn applications on yield, biochemical traits, and nutrient concentrations of different sweet potato genotypes. The study was conducted using a split-plot design with treatments of two doses (0 and 2.5 kg Zn ha-1) of soil application and four doses (0, 15, 30, and 45 ppm) of foliar application of Zn on five sweet potato genotypes (SP-2, SP-14, SP-15, SP-16, SP-20). It was observed that growth and yield performance as well as nutrient concentrations in the tubers of sweet potatoes were greatly influenced by Zn application method and genotype. An increasing rate of foliar Zn, with or without soil-applied Zn, showed an increasing trend in amino acid, β-carotene, flavonoid, and phenolic content. The foliar Zn application had a more obvious effect on most of the examined traits than the soil Zn application and except for a few characteristics (dry matter and amino acids), most traits responded up to the foliar application of 15 ppm Zn, and thereafter no increase was seen with further increments of foliar Zn application.

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Effect of Zinc Application on Cadmium Uptake of Maize Grown in Zinc Deficient Soil

Cited by 7 publications

References 11 publications

Functions and toxicity of cadmium in plants: recent advances and future prospects

Functions and toxicity of cadmium in plants: recent advances and future prospects

THE EFFECT OF SOIL SELENIUM FERTILIZATION TREATMENT ON THE CONTENT OF SOME IONS (Cd, Fe, Zn and Se) AND YIELD OF TWO CORN HYBRIDS

Improving the Productivity and Nutritional Values of Sweet Potato (Ipomoea batatas L.) with a Combination of Soil and Foliar Zinc

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