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  • Journal Of Nematology


research-article | 30-November-2018

Fluensulfone and 1,3-dichloroprene for plant-parasitic nematode management in potato production

growing season, so management of this nematode is an important strategy for CRS management (Perez et al., 2000). There are relatively few nematode management options for potato producers in Northeast Florida. Sting and stubby-root nematodes have wide host ranges making it difficult to manage these nematodes with crop rotation or cover cropping (Crow et al., 2000a, 2001). Production constraints for Northeast Florida potato producers – such as specialized equipment, the need for high-value rotation

Zane J. Grabau, Joseph W. Noling, Pablo A. Navia Gine

Journal of Nematology, Volume 51 , 1–12

research-article | 30-November-2020

Evaluation of a new chemical nematicide, fluazaindolizine (ReklemelTM active), for plant-parasitic nematode management in bermudagrass

reductions in root biomass, water uptake, and nutrient absorption. With the high potential for significant damage to turf by plant-parasitic nematodes, timely management is extremely important, especially on highly maintained turfgrass. The primary strategy for nematode management is through a limited number of chemical nematicides. Since its registration in 1973, fenamiphos (Nemacur, Bayer CropScience, St. Louis, MO) has dominated the turfgrass industry as the most frequently used nematicide (Keigwin

Will L. Groover, Kathy S. Lawrence

Journal of Nematology, Volume 53 , 1–14

Article | 24-July-2017

Methyl Bromide Alternatives for Control of Root-knot Nematode (Meloidogyne spp.) in Tomato Production in Florida

terms of root-knot nematode management, were the combinations 1,3-D-chloropicrin, chloropicrin-proprietary solvent ,and 1,3-D-metam sodium. Sprayed or injected metam sodium generally provided only short-term nematode management and by harvest nematode infection was not different from the nontreated control. Drip-applied metam sodium gave good nematode management under high nematode pressure, but needs further verification to establish (i) the importance of soil moisture and temperature on treatment


Journal of Nematology, Volume 49 , ISSUE 2, 140–149

research-article | 30-November-2019

Compatibility of fluazaindolizine and oxamyl with Pasteuria penetrans on spore attachment to juveniles of Meloidogyne javanica and M. incognita

Eleni Nasiou, Tim Thoden, Iro V. Pardavella, Emmanuel A. Tzortzakakis

Journal of Nematology, Volume 52 , 1–7

research-article | 30-November-2018

Nitrogen inputs and irrigation frequency influence population dynamics of Mesocriconema xenoplax under grapevines

Thomas Forge, Kirsten Hannam, Denise Neilsen, Gerry Neilsen

Journal of Nematology, Volume 51 , 1–6

research-article | 30-November-2019

Potential impacts of the ring nematode, Mesocriconema xenoplax, on grapevines in British Columbia: a microplot study

Thomas Forge, Rosanne Smit, Denise Neilsen, Gerry Neilsen

Journal of Nematology, Volume 52 , 1–7

research-article | 23-April-2020

Plant-parasitic nematodes associated with the root zone of hop cultivars planted in a Florida field soil

Tristan T. Watson, Marco Suarez, Zhanao Deng, Johan A. Desaeger

Journal of Nematology, Volume 52 , 1–10

research-article | 30-November-2020

Volatile compounds as potential bio-fumigants against plant-parasitic nematodes – a mini review

. Effects of VCs on plants, and soilborne pathogens such as bacteria and fungi have been reviewed elsewhere (Kai et al., 2009, 2016; Schulz-Bohm et al., 2017). Here, we summarize the recent studies of VCs that focused on PPNs as well as the challenges and knowledge gaps that remain in the future application of VCs as potential bio-fumigants for nematode management in the field. What are volatile compounds? Volatile compounds (VCs) are typically small, lipophilic, odorous, and low molecular mass

Hung Xuan Bui, Johan A. Desaeger

journal of nematology, Volume 53 , 1–12

research-article | 30-November-2020

Integrative taxonomy, distribution, and host associations of Geocenamus brevidens and Quinisulcius capitatus from southern Alberta, Canada

. capitatus with other stunt nematode species. The results of this study will lay the foundation for assessing the damage potential of these species on potato production so as to benefit growers and researchers involved in nematode management programs. Materials and methods Nematode isolation and morphological studies Nematodes were isolated from soil samples using the modified Cobb sieving and flotation-centrifugation method (Jenkins, 1964). For morphometric studies, nematodes were killed and fixed in

Maria Munawar, Dmytro P. Yevtushenko, Pablo Castillo

Journal of Nematology, Volume 53 , 1–17

research-article | 30-November-2019

Nematicidal effect of cruciferous bio-fumigants against the root-knot nematode, Meloidogyne incognita infesting okra

potential use of cruciferous bio-fumigants for nematode management and need to be validated by future trials in farmers field conditions, as well as different combinations of bio-agents with cruciferous bio-fumigants should also be tested to verify a potential synergism among different practices. The experimental study indicated that cruciferous bio-fumigants have provided a satisfactory nematode suppression, confirming previous findings of some researchers (Haroutunian, 2013). In cruciferous bio

J.A. Patil, Anil Kumar, Saroj Yadav, K.K. Verma

Journal of Nematology, Volume 52 , 1–7

Research Article | 26-September-2018

Oat, Wheat, and Sorghum Genotype Reactions to Meloidogyne incognita and Meloidogyne javanica

Meloidogyne spp. are the most economically important species of plant-pathogenic nematodes. Plant resistance and crop rotation are the main nematode management methods. Thus, the objective was to evaluate the resistance of seven wheat genotypes, five oat genotypes, ten sorghum hybrids, and three sorghum–sudangrass genotypes to Meloidogyne incognita and Meloidogyne javanica. The crops were sowed in pots with an auto-claved substrate. A single plant/pot was left after thinning. The soil was


Journal of Nematology, Volume 49 , ISSUE 4, 386–389

research-article | 30-November-2019

New reduced-risk agricultural nematicides - rationale and review

primary nematode management tool in the production of many high-value crops. Soil fumigation is convenient, as it gives growers weed, soil disease, and nematode control all at once. Also, fumigants are often the only nematicides available to growers, with many crops not having a single registered nematicide available until recently. The recent entry of safer and more selective nematicide alternatives is welcome news for growers, but questions remain about their efficacy and adoptability. Their

Johan Desaeger, Catherine Wram, Inga Zasada

Journal of Nematology, Volume 52 , 1–16

Article | 24-July-2017

Grafting and Paladin Pic-21 for Nematode and Weed Management in Vegetable Production

nutsedge (Cyperus rotundus L.), density at or below 1/m row. Grafting commercial scions onto M. incognita-resistant rootstocks has potential for nematode management combined with soil treatments or as a stand-alone component in crop production systems.


Journal of Nematology, Volume 48 , ISSUE 4, 231–240

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