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  • Journal Of Nematology


research-article | 16-April-2020

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

results in that system (Kandel et al., 2017; Beeman et al., 2019). Research is needed to evaluate fluopyram efficacy for managing PRKN in peanut production, particularly given the limited number of nematicides available for peanut production. Increasingly, effect of pesticides on non-target organisms is an important consideration. In particular, free-living nematodes are a major non-target group of concern when nematicides are applied because they are biologically very similar to the target plant

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

Journal of Nematology, Volume 52 , 1–10

research-article | 06-March-2021

Effects of fluopyram and azadirachtin integration with sunn hemp on nematode communities in zucchini, tomato and sweet potato in Hawaii

et al., 2019). In field trials, tomato yields were increased by 59% following multiple fluopyram applications (Ji et al., 2019). In other field trials on cucurbits, the reduction of M. hapla and M. javanica population densities by fluopyram was dependent on cropping season in Florida (Khanal and Desaeger, 2020). However, limited information is available on the non-target effects of fluopyram on free-living nematodes. Azadirachtin is a naturally occurring substance found in seed kernels of neem

Philip Waisen, Koon-Hui Wang, Jensen Uyeda, Roxana Y. Myers

Journal of Nematology, Volume 53 , 1–15

research-article | 30-November-2020

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

ratio. Free-living nematodes (FLN) also hold an integral position in decomposition (Neher, 2010; Yadav et al., 2018). These nematodes closely interact with soil microbes and contribute either directly or indirectly to N mineralization through accelerated turnover of microbial cells, modification of the microbial community, and addition of new substrates, thereby increasing the availability of N (Mekonen et al., 2017; Sultana and Bohra, 2012; Yadav et al., 2018). In the soil food web, the

Samuel Maina, Hannah Karuri, Rossa Nyoike Ng’endo

Journal of Nematology, Volume 53 , 1–12

Article | 05-December-2017

The Mesostigmatid Mite Protogamasellus mica, an Effective Predator of Free-Living and Plant-Parasitic Nematodes

small quantities of defaunated soil. These results show that P. mica multiplies rapidly when nematodes are available as a food source and has the capacity to play a role in regulating populations of both plant-parasitic and free-living nematodes. Future research should focus on understanding the crop and soil management practices required to enable this mite and other predatory species to thrive.


Journal of Nematology, Volume 49 , ISSUE 3, 327–333

Article | 21-July-2017

A Third New Species of Aporcelinus Andrassy, 2009 (Dorylaimida, Aporcelaimidae) from Vietnam, with the First SEM Study of a Representative of the Genus


Journal of Nematology, Volume 48 , ISSUE 2, 104–108

research-article | 30-November-2020

Meloidogyne incognita management by nematicides in tomato production

production, but may not be apparent in confined greenhouse or lab tests. In addition, field evaluation of SRKN management by fluopyram relative to fumigants and carbamate nematicides is needed, as these products serve as a historical standard. In addition to nematicide efficacy against target plant-parasitic nematodes, minimizing impacts on non-target organisms, such as free-living nematodes, is increasingly valued. Free-living nematodes may contribute to productive soil by providing services such as

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

Journal of Nematology, Volume 53 , 1–12

research-article | 30-November-2019

Biological control of Meloidogyne spp. in glasshouse-grown chrysanthemum

J. R. De Long, M. A. Streminska, A. Persijn, H. M. I. Huisman, C. van der Salm

Journal of Nematology, Volume 52 , 1–12

research-article | 30-November-2020

Cultivation of Caenorhabditis elegans on new cheap monoxenic media without peptone

Caenorhabditis species, although many are also found in rotting vegetation (Felix et al., 2013; Ferrari et al., 2017; Stevens et al., 2019) while a few are associated with specific hosts (e.g., C. inopinata, C. drosophilae, C. angaria, and C. bovis) (Kanzaki et al., 2018; Kiontke, 1997; Stevens et al., 2020; Sudhaus et al., 2011). Recently, there has been increased interest in biodiversity sampling of free-living nematodes, especially those in the Caenorhabditis (Crombie et al., 2019; Dolgin et al., 2008

Tho Son Le, T. T. Hang Nguyen, Bui Thi Mai Huong, H. Gam Nguyen, B. Hong Ha, Van Sang Nguyen, Minh Hung Nguyen, Huy-Hoang Nguyen, John Wang

Journal of Nematology, Volume 53 , 1–23

research-article | 30-November-2018

Swine manure application enriches the soil food web in corn and soybean production

management of plant-parasitic nematodes is necessary to optimize crop productivity (Grabau and Chen, 2016a, 2016b) and non-parasitic, free-living nematodes contribute to and are sensitive indicators of soil fertility and ecology (Bongers, 1990; Ferris et al., 2001). In particular, soybean cyst nematode (Heterodera glycines) is the major yield-limiting pest in soybean production (Koenning and Wrather, 2010). Additional strategies to manage this pest are needed because management relies on a narrow set of

Zane J. Grabau, Yong Bao, Jeffrey A. Vetsch, Senyu Chen

Journal of Nematology, Volume 51 , 1–14

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