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research-article | 30-November-2020

Free-living nematode assemblages associated with maize residues and their ecological significance

Development Team, 2019). Results Nematode composition and abundance Thirty free-living nematode genera assigned to four trophic levels were identified. The most predominant trophic guild in all decomposition plots in both seasons was bacterivores, followed by fungivores. We observed significant treatment effects (P < 0.05) on a total of 8 nematode genera (first season) and 13 genera (second season) (Tables 3 and  4, respectively). In the first season, there were 15 bacterivores, 4 fungivores, 3

Samuel Maina, Hannah Karuri, Rossa Nyoike Ng’endo

Journal of Nematology, Volume 53 , 1–12

research-article | 30-November-2020

Introduction to Pristionchus pacificus anatomy

Nathan E. Schroeder

Journal of Nematology, Volume 53 , 1–9

research-article | 30-November-2020

Meloidogyne incognita management by nematicides in tomato production

) and field experiments (Ntalli et al., 2018), oxamyl did tend to decrease free-living nematode abundances relative to untreated. Field testing on non-target effects of these nematicides, relative to each other, in tomato production would aid growers in deciding what chemistries to deploy, particularly when target efficacy of nematicides under consideration is similar. Based on these needs, the objectives of this research were to assess fluopyram, oxamyl, and 1,3-D for (1) SRKN management, and (2

Zane J. Grabau, Chang Liu, Rebeca Sandoval-Ruiz

Journal of Nematology, Volume 53 , 1–12

research-article | 16-April-2020

Nematicide efficacy at managing Meloidogyne arenaria and non-target effects on free-living nematodes in peanut production

-living nematodes in peanut production will help growers determine if a particular nematicide is a better choice for helping maintain these beneficial organisms. Given this information, the general objective of this research was to identify effective root-knot nematode management options in peanut production that minimize non-target effects on free-living nematodes. Our hypotheses were that nematicides would vary in their target and non-target effects and that free-living nematode trophic groups and

Zane J. Grabau, Mark D. Mauldin, Alemayehu Habteweld, Ethan T. Carter

Journal of Nematology, Volume 52 , 1–10

research-article | 30-November-2019

Influences of nitrogen inputs on nematode populations under highbush blueberry

. Root biomass was not correlated with population densities of any species of plant-parasitic nematode or free-living nematode parameter when correlations were conducted on the entire data set or on individual sample dates. Analyses of relationships across plots, using data averaged over sample dates, revealed a significant quadratic relationship (p = 0.003, r 2 = 0.43) between the logarithm of population densities of R. robustus and root biomass (Fig. 5). Plots with very low R. robustus population

Thomas Forge, David Ehret, Aime Messiga, Martine Dorais

Journal of Nematology, Volume 52 , 1–14

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