Contributions of root uptake and remobilization to grain zinc accumulation in wheat depending on post-anthesis zinc availability and nitrogen nutrition

• Published in: Plant and soil Vol. 361; no. 1-2; pp. 177 - 187
• Main Authors: Kutman, Umit Baris, Kutman, Bahar Yildiz, Ceylan, Yasemin, Ova, Emir Ali, Cakmak, Ismail
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Dordrecht Springer 01.12.2012; Springer Netherlands; Springer Nature B.V
• Subjects: Accumulation; Agronomy. Soil science and plant productions; Analysis; Animal, plant and microbial ecology; Biological and medical sciences; Biomedical and Life Sciences; Crop production; Crop science; durum wheat; Ecology; filling period; Flowering; Fundamental and applied biological sciences. Psychology; General agronomy. Plant production; Grain; grain yield; Grains; Harvesting; Life Sciences; Nitrogen; nutrient solutions; Nutrient sources; Nutrition; Plant growth; Plant Physiology; Plant roots; Plant Sciences; Plants; Regular Article; roots; Soil Science & Conservation; Soil-plant relationships. Soil fertility; Soil-plant relationships. Soil fertility. Fertilization. Amendments; Straw; tillering; Triticum aestivum; Wheat; Wheat soils; Zinc; Zinc compounds; Post-anthesis; Nitrogen; Remobilization; Wheat; Uptake; Zinc; Monocotyledones; Accumulation; Triticum; Absorption; Gramineae; Angiospermae; Developmental stage; C3-Type; Non metal; Availability; Vegetals; Grains; Nutrition; Root; Group VA element; Group IIB metal; Vegetative apparatus; Spermatophyta; Soil plant relation; Contribution; Fructification
• ISSN: 0032-079X; 1573-5036
• DOI: 10.1007/s11104-012-1300-x

Background and aims Whether root Zn uptake during grain filling or remobilization from pre-anthesis Zn stores contributes more to grain Zn in wheat is subject to an on-going debate. This study investigated the effects of N nutrition and post-anthesis Zn availability on the relative importance of these sources. Methods Durum wheat plants were grown in nutrient solution containing adequate Zn (0.5 μM) and three different N levels (0.5; 1.5; 4.5 mM). One third of the plants were harvested when they reached anthesis. One half of the remaining plants were grown to maturity with adequate Zn, whereas the Zn supply to the other half was discontinued at anthesis. Roots, straw and grains were harvested separately and analyzed for Zn and N. Results Depending on the N supply, Zn remobilization from pre-anthesis sources provided almost all of grain Zn when the Zn supply was withheld at anthesis; otherwise up to 100 % of grain Zn could be accounted for by Zn taken up post-anthesis. By promoting tillering and grain yield and extending the grain filling, higher N supply favored the contribution of Zn uptake to grain Zn accumulation. Conclusion Remobilization is critical for grain Zn accumulation when Zn availability is restricted during grain filling. However, where root uptake can continue, concurrent Zn uptake during grain development, favored by higher N supply, overshadows net remobilization.