Availability of Mn, Zn and Fe in the rhizosphere

Rengel, Zed

doi:10.4067/s0718-95162015005000036

Cited by 214 publications

(224 citation statements)

References 80 publications

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“…However, micronutrient-deficient soils are widespread; many millions of hectares of arable land worldwide are deficient in one or more micronutrient elements (Rengel, 2015). Further compounding this is the low phosphorus (P) utilization efficiency of the cowpea (Emechebe, Singh, Leleji, Atokple, & Adu, 1991).…”

Section: Introductionmentioning

confidence: 99%

“…In addition, legumes store P as phytate (PA) which, together with inositol penta phosphate, is one of the main inhibitors of Zn absorption (Kaya, Küçükyumuk, & Erdal, 2009). For diffusion-supplied micronutrients, the uptake rate is governed by the soil nutrient supply, and fertilization with micronutrients (more so in case of Zn than Fe) can be effective in increasing the concentration of micronutrients at the soil-root interface (Rengel, 2015). There are growing concerns, however, that the emphasis on increasing cereal yields by the application of macronutrients alone may lead to deficiencies of micronutrients, mainly Fe and Zn, and also vitamins, in diets of the poor who rely on a cereal-based food supply (Graham & Welch, 1996).…”

Section: Introductionmentioning

confidence: 99%

“…This study and cowpea is also at the heart of the fight against micronutrient deficiency due to its ability to accumulate Fe and Zn in both grains and leaves (Mamiro, Mbwaga, Mamiro, Mwanri, & Kinabo, 2011).However, micronutrient-deficient soils are widespread; many millions of hectares of arable land worldwide are deficient in one or more micronutrient elements (Rengel, 2015). Further compounding this is the low phosphorus (P) utilization efficiency of the cowpea (Emechebe, Singh, Leleji, Atokple, & Adu, 1991).…”

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Iron and zinc levels in Vigna unguiculata (L.) Walp under varying phosphorus and fixed nitrogen treatment conditions

Ayeni

Ikwebe

Onyezili

2018

Food and Energy Security

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Using phosphate fertilizer (particularly at high levels) to improve the phosphorus (P) level of soils during the cultivation of legumes and other cereals unfortunately has negative effect on the levels of micronutrients like zinc (Zn) in grains. This study and cowpea is also at the heart of the fight against micronutrient deficiency due to its ability to accumulate Fe and Zn in both grains and leaves (Mamiro, Mbwaga, Mamiro, Mwanri, & Kinabo, 2011).However, micronutrient-deficient soils are widespread; many millions of hectares of arable land worldwide are deficient in one or more micronutrient elements (Rengel, 2015). Further compounding this is the low phosphorus (P) utilization efficiency of the cowpea (Emechebe, Singh, Leleji, Atokple, & Adu, 1991). In addition, legumes store P as phytate (PA) which, together with inositol penta phosphate, is one of the main inhibitors of Zn absorption (Kaya, Küçükyumuk, & Erdal, 2009). For diffusion-supplied micronutrients, the uptake rate is governed by the soil nutrient supply, and fertilization with micronutrients (more so in case of Zn than Fe) can be effective in increasing the concentration of micronutrients at the soil-root interface (Rengel, 2015). There are growing concerns, however, that the emphasis on increasing cereal yields by the application of macronutrients alone may lead to deficiencies of micronutrients, mainly Fe and Zn, and also vitamins, in diets of the poor who rely on a cereal-based food supply (Graham & Welch, 1996). It is common practice to use P fertilizer to improve the P level of the soil during the cultivation of legumes. Unfortunately, high level of phosphate fertilization of soil has been reported to have negative effect on the levels of Zn in sorghum (Buerkert, Haake, & Ruckwied, 1998) and other cereals. Earlier reports (Zhu, Smith, & Smith, 2001;Gianquinto, Abu-Rayyan, Tola, Piccotino, & Pezzarossa, 2000;Mandal & Mandal, 1990;Haldar & Mandal, 1981;Orabi, Mashadi, Abdallah, & Morsy, 1981;Takkar, Mann, Bansal, Randhawa, & Singh, 1975), and more recently Ova, Kutman, Ozturk, and Cakmak (2015) and Drissi, AïtHoussa, Bamouh, Coquant, and Benbella (2015) have all drawn negative correlations between P fertilization and Zn levels in various cereal (wheat and maize) and leguminous plants. Benvindo, Prado, Nóbrega, and Flores (2014) even reported a corresponding decrease in foliar Zn levels with increase in P levels.There is also the well-documented issue of arbuscular mycorrhizal fungi (AMF) that greatly enhance P uptake in low P soil. Although, P application reportedly and significantly increases grain and fodder yields, it decreases AMF colonization of cowpea roots (Saidou, Singh, Abaidoo, Iwuafor, & Sanginga, 2012). This inverse relationship between P fertilization and levels of micronutrients in crops is a source of concern, and as noted by Graham and Welch (1996), may lead to deficiencies of micronutrients, mainly Fe and Zn, and also vitamins, in diets of the poor who rely on a cereal-based food supply of these micronutrients. Also, as ...

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Iron and zinc levels in Vigna unguiculata (L.) Walp under varying phosphorus and fixed nitrogen treatment conditions

Ayeni

Ikwebe

Onyezili

2018

Food and Energy Security

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“…It has been reported that basal Zn fertilizer may have a strong residual effect (Liu et al, 2004), but in some soils, Zn can be fixed and is therefore not utilized by the crop (Rengel, 2015).…”

Section: Introductionmentioning

confidence: 99%

Effects of zinc fertilizer rate and application method on photosynthetic characteristics and grain yield of summer maize

Liu

Gan

Rengel

et al. 2016

J. Soil Sci. Plant Nutr.

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The Zinc deficiency is a worldwide nutritional constraint for crop production in many types of soil, particularly in cereals growing in calcareous soil. Two field trials were conducted to study the effects of zinc fertilizer doses and application method on photosynthetic characteristics and grain yield of summer maize, from June to September . These results have important implications for guiding the rational application of Zn fertilizer and improving the grain yield of summer maize in Henan province.

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“…In such soils, CaCO 3 is a major component which buffers soil solution pH at 7.5−8.5, due to a high bicarbonate concentration (HCO 3 -) (Lindsay, 1995). It is generally thought that soil pH governs plant-availability of many soil microelements, including Fe, Zn and Mn, and distinct effects of the prevailing rhizosphere pH on the availability of these three micronutrients were found (Sarkar and Wyn Jones, 1982;Rengel, 2015). Ferric (Fe 3+ ) and ferrous (Fe 2+ ) activity in the soil solution decrease 1,000-fold and 100-fold, respectively, for each unit increase in soil pH (Lindsay, 1995).…”

Section: Introductionmentioning

confidence: 99%

Xylem sap mineral analyses as a rapid method for estimation plant-availability of Fe, Zn and Mn in carbonate soils: a case study in cucumber

Bityutskii

Yakkonen

Petrova

et al. 2017

J. Soil Sci. Plant Nutr.

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Low plant-availability of iron (Fe), zinc (Zn) and manganese (Mn) leads to micronutrient deficiency, causing significant yield reductions of crops throughout the world, especially in calcareous soils. This study was performed in order to evaluate the efficiency of xylem sap analysis in the determination of Fe, Zn and Mn availability in plants (Cucumis sativus L.) affected by calcium carbonate (CaCO 3 ) levels. A soil with six levels of CaCO 3 (0−10% DW) was used. We performed a combination approach, including analysis of the soil mobility of micronutrients using different extractants (water, DTPA-TEA and ammonium acetate), as well as xylem and shoot elemental analysis. Generally, application of CaCO 3 resulted in a pH increase of the bulk soil of 1.4−2.2 pH units; extractability of all micronutrients was significantly decreased 1.4−4.2 times, irrespective of the extracting solution. Xylem sap Fe, Zn and Mn concentrations were significantly correlated with the respective concentrations in the soil extracting solutions. By contrast, only shoot concentrations of Zn and Mn, but not of Fe, were linearly correlated with their extractable forms. With electrothermal atomic absorption spectrometry, changes in xylem sap concentrations of micronutrients were detected without preliminary mineralization of plant material, in contrast to shoot analysis. Our results demonstrate that xylem sap analysis offers the advantages of a simple characterization of multi-microelement availability in plants under CaCO 3 stress.

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Availability of Mn, Zn and Fe in the rhizosphere

Cited by 214 publications

References 80 publications

Iron and zinc levels in Vigna unguiculata (L.) Walp under varying phosphorus and fixed nitrogen treatment conditions

Iron and zinc levels in Vigna unguiculata (L.) Walp under varying phosphorus and fixed nitrogen treatment conditions

Effects of zinc fertilizer rate and application method on photosynthetic characteristics and grain yield of summer maize

Xylem sap mineral analyses as a rapid method for estimation plant-availability of Fe, Zn and Mn in carbonate soils: a case study in cucumber

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