Yun-Fei Du scite author profile

Field experiments were conducted on wheat to study the effects of foliar-applied iodine(I) alone, Zn (zinc) alone, and a micronutrient cocktail solution containing I, Zn, Se (selenium), and Fe (iron) on grain yield and grain concentrations of micronutrients. Plants were grown over 2 years in China, India, Mexico, Pakistan, South Africa, and Turkey. Grain-Zn was increased from 28.6 mg kg −1 to 46.0 mg −1 kg with Zn-spray and 47.1 mg −1 kg with micronutrient cocktail spray. Foliar-applied I and micronutrient cocktail increased grain I from 24 μg kg −1 to 361 μg kg −1 and 249 μg kg −1 , respectively. Micronutrient cocktail also increased grain-Se from 90 μg kg −1 to 338 μg kg −1 in all countries. Average increase in grain-Fe by micronutrient cocktail solution was about 12%. The results obtained demonstrated that foliar application of a cocktail micronutrient solution represents an effective strategy to biofortify wheat simultaneously with Zn, I, Se and partly with Fe without yield trade-off in wheat.

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Environmental impacts of pepper (Capsicum annuum L) production affected by nutrient management: A case study in southwest China

Wang

Zou

Zhang

et al. 2018

Journal of Cleaner Production

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The role of phosphorus supply in maximizing the leaf area, photosynthetic rate, coordinated to grain yield of summer maize

Zhang

Chen

Liu

et al. 2018

Field Crops Research

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Physiological and developmental traits associated with the grain yield of winter wheat as affected by phosphorus fertilizer management

Chen

Zhang

Liang

et al. 2019

Sci Rep

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Although researchers have determined that attaining high grain yields of winter wheat depends on the spike number and the shoot biomass, a quantitative understanding of how phosphorus (P) nutrition affects spike formation, leaf expansion and photosynthesis is still lacking. A 3-year field experiment with wheat with six P application rates (0, 25, 50, 100, 200, and 400 kg P ha−1) was conducted to investigate this issue. Stem development and mortality, photosynthetic parameters, dry matter accumulation, and P concentration in whole shoots and in single tillers were studied at key growth stages for this purpose. The results indicated that spike number contributed the most to grain yield of all the yield components in a high-yielding (>8 t/ha) winter wheat system. The main stem (MS) contributed 79% to the spike number and tiller 1 (T1) contributed 21%. The 2.7 g kg−1 tiller P concentration associated with 15 mg kg−1 soil Olsen-P at anthesis stage led to the maximal rate of productive T1s (64%). The critical shoot P concentration that resulted in an adequate product of Pn and LAI was identified as 2.1 g kg−1. The thresholds of shoot P concentration that led to the maximum productive ability of T1 and optimal canopy photosynthetic capacity at anthesis were very similar. In conclusion, the thresholds of soil available P and shoot P concentration in whole plants and in single organs (individual tillers) were established for optimal spike formation, canopy photosynthetic capacity, and dry matter accumulation. These thresholds could be useful in achieving high grain yields while avoiding excessive P fertilization.

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Yun-Fei Du

Simultaneous Biofortification of Wheat with Zinc, Iodine, Selenium, and Iron through Foliar Treatment of a Micronutrient Cocktail in Six Countries

Environmental impacts of pepper (Capsicum annuum L) production affected by nutrient management: A case study in southwest China

The role of phosphorus supply in maximizing the leaf area, photosynthetic rate, coordinated to grain yield of summer maize

Physiological and developmental traits associated with the grain yield of winter wheat as affected by phosphorus fertilizer management

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