Molybdenum‐induced effects on nitrogen uptake efficiency and recovery in wheat (Triticum aestivum L.) using 15N‐labeled nitrogen with different N forms and rates

Background: Molybdenum (Mo) is an essential microelement for higher plants and plays a significant role in nitrogen (N) metabolism, which includes nitrate reduction, assimilation, and efficient N acquisition. Its deficiency in soil may induce the reduction of N uptake and wheat yield. Aims: We aimed...

Full description

Saved in:
Bibliographic Details
Published in:Journal of plant nutrition and soil science 2021-12, Vol.184 (6), p.613-621
Main Authors: Moussa, Mohamed G., Hu, Chengxiao, Elyamine, Ali Mohamed, Ismael, Marwa A., Rana, Muhammad Shoaib, Imran, Muhammad, Syaifudin, Muhamad, Tan, Qiling, Marty, Charles, Sun, Xuecheng
Format: Article
Language:English
Subjects:
15N tracing
agronomic N efficiency
Ammonium molybdate
Ammonium nitrate
Crop yield
Cultivars
Efficiency
Fertilization
fertilizer 15N uptake
Fertilizers
greenhouses
metabolism
Molybdenum
Nitrate reduction
Nitrogen
Nitrogen isotopes
Organs
physiological N efficiency
phytomass
Plant biomass
plant nutrition
Recovery
Reduction
soil
soil N uptake
Soils
total nitrogen
Trace elements
Triticum aestivum
Wheat
Winter wheat
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Background: Molybdenum (Mo) is an essential microelement for higher plants and plays a significant role in nitrogen (N) metabolism, which includes nitrate reduction, assimilation, and efficient N acquisition. Its deficiency in soil may induce the reduction of N uptake and wheat yield. Aims: We aimed to explore the Mo‐induced effects on N uptake efficiency and recovery in Mo‐inefficient winter wheat cultivar using a 15N isotope tracer under different N forms (Nf) and N rates (Nr). Methods: The experiment was conducted in greenhouse conditions, and the treatments included three Nf in the form of 15NH4Cl as sole NH4+, Ca (15NO3)2 as sole NO3−, and 15NH415NO3) under two Nr [low (L) 0.05 and high (H) 0.25 g N kg–1 soil], with (+Mo) in form of [(NH4)6Mo7O24 ∙ 4H2O] and without (–Mo) Mo application. The plant biomass, Mo content, total N uptake, fertilizer 15N uptake, soil N uptake, as well as N uptake, agronomic and physiological efficiency were evaluated. Furthermore, the fertilizer 15N recovery in various wheat organs was also studied. Results: The results revealed that Mo application increased N uptake efficiency in wheat to 38.26%, 68.24%, and 71.53% when the plants are treated with low rates of NH4+, NO3−, and NH4NO3, respectively. While at a high N rate, N uptake efficiency increases to 46.26% and 45.34% in the case of NO3− and NH4NO3 treatments, respectively, and it was slightly reduced to 10.84% when plants were supplied with NH4+ form. Mo supply increased 15N recovery from fertilizer in grain organ under low N rate with all supplied Nf, that is, NH4+, NO3−, and NH4NO3, while at high N rate, Mo enhanced 15N recovery in grains organ in case of NO3− and NH4NO3 forms. Conclusion: This study shows that Mo fertilization may be a promising strategy to improve N uptake efficiency and recovery in wheat when nitrate is the main N form.  
ISSN:1436-8730
1522-2624
DOI:10.1002/jpln.202100040