Impacts of Root-Lesion Nematode (<i>Pratylenchus thornei</i>) on Plant Nutrition, Biomass, Grain Yield and Yield Components of Susceptible/Intolerant Wheat Cultivars Determined by Nematicide Applications

• Main Authors: John P. Thompson, Timothy G. Clewett
• Format: Article
• Language: English
• Published: MDPI AG 2021-02-01
• Series: Agronomy
• Subjects: root-lesion nematode; <i>Pratylenchus thornei</i>; N uptake; P uptake; nutrient deficiency; wheat development
• Online Access: https://www.mdpi.com/2073-4395/11/2/296

Field experiments testing rates of various nematicides, with and without NPZn fertiliser, were analysed to investigate how root-lesion nematode (<i>Pratylenchus thornei</i>) affects growth and yield components of susceptible/intolerant wheat cultivars in a subtropical environment. Plant response to nematode attack was assessed by regression and principal components analyses of various plant parameters at different crop development stages, in relation to different nematode population densities in the roots and root-zone soil. Reduction in <i>P. thornei</i> population densities by nematicides resulted in increased numbers of tillers, plant biomass, N and P concentrations and uptakes, numbers of spikes and kernels, and grain yield. Grain yield was strongly correlated with number of kernels, biomass and number of spikes, and negatively correlated with number of <i>P. thornei</i> in the root-zone soil at stem elongation. This study showed that <i>P. thornei</i> damage to roots decreased wheat yield through limiting N and P concentrations and uptakes in plant tops causing poor growth that commenced early and continued through the life of the crop. Genetic, environmental and management factors that reduce population densities of <i>P. thornei</i>, and decrease the impact of the nematodes starting in early crop growth, will greatly increase spike and kernel numbers and grain yield.