Optimization of plant density and nitrogen regimes to mitigate lodging risk in wheat

Optimization of plant density and nitrogen regimes to mitigate lodging risk in wheat

Influences of planting density and nitrogen rate have been investigated frequently in targeted wheat (Triticum aestivum L.) research. Few studies have investigated interactions between these inputs. The objective was to determine the combine effect of N and seeding rates on culm morph‐physiological...

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Bibliographic Details
Published in:Agronomy journal Vol. 112; no. 4; pp. 2535 - 2551
Main Authors: Khan, Aaqil, Ahmad, Akhlaq, Ali, Waqar, Hussain, Sajad, Ajayo, Babatope Samuel, Raza, Muhammad Ali, Kamran, Muhammad, Te, Xiao, al Amin, Noor, Ali, Siyad, Iqbal, Nasir, Khan, Imran, Sattar, Muhammad Tayyab, Ali, Asif, Wu, Yushan, Yang, Wenyu
Format: Journal Article
Language:English
Published: 01-07-2020
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Summary:Influences of planting density and nitrogen rate have been investigated frequently in targeted wheat (Triticum aestivum L.) research. Few studies have investigated interactions between these inputs. The objective was to determine the combine effect of N and seeding rates on culm morph‐physiological traits for lodging tolerance and grain yield. The experiment used a split‐split randomized block design using two wheat varieties ‘AnNong0711’ and ‘YanNong19’, split by four seeding (180, 240, 300, and 375 × 104 ha−1) and four N rates (0, 180, 240, and 300 kg ha−1). Lodging traits of plant height, culm height center of gravity, and internode length, increased (p < .05) however, stem diameter, wall thickness, and stem breaking strength decreased with increasing N and seeding rate. Stem breaking strength was negatively correlated with culm height center of gravity (r = −.869, p = .01), internode length (r = −.872, p < .01), and lignin (r = −.746, p < .01) but positively correlated with internode diameter (r = .715, p < .05) and wall thickness (r = .696, p < .05). Culm lodging index and cellulose showed positive correlation (r = .807 and .913 respectively) with lignin. Compared to YanNong19, AnNong0711 showed higher grain yield and culm lodging index of 9 and 20.49%, respectively. For improved grain yield, 180 plants m−2 was optimal in surface combinations with 210 kg N ha−1 for AnNong0711 and 200 kg N ha−1 for YanNong19. These combinations of seeding and N rates could successfully mitigate lodging and improve grain yield.
Bibliography:Correction added on May 19, 2020 after first online publication: the affiliation and address of the author Akhlaq Ahmad were updated
ISSN:0002-1962
1435-0645
DOI:10.1002/agj2.20211