Prevalence of Rice Root Nematode in the Farmer Rice Fields as Influenced by Edaphic Factors

Summary The rice root-knot nematode, Meloidogyne graminicola, is a serious pathogen of rice production worldwide. In Vietnam, scientific information on the rice root-knot nematode is limited. In this circumstance, our study aimed to investigate the characteristics of M. graminicola from rice fields in southern Vietnam and to evaluate the reaction of 20 rice varieties to this soil-borne pathogen in a glasshouse experiment. Ten populations of root-knot nematode collected from rice fields at different geographical regions in the Mekong Delta were identified as M. graminicola based on the perineal configuration of females and species-specific molecular markers. The morphological, morphometric and molecular characteristics of ten nematode isolates were defined, and the variations observed between these isolates were not significantly different. The pathogenicity of these isolates was examined in the susceptible Indica rice, Oryza sativa ‘IR64’, with a reproduction factor ranging from 18.1 to 37.8. Of the 20 Indica rice varieties tested in response to the nematode population MG-PN08, the ‘Tetep’ variety showed moderate resistance to the nematode (reproductive factor = 11.7; galling index = 2.4), while others were ranked at levels ranging from moderately susceptible to highly susceptible. The life cycle of M. graminicola in ‘Tetep’ root is 28 days compared to 21 in ‘IR64’. ‘Tetep’-nematode interaction at the histological and molecular levels needs further investigation to develop new rice varieties resistant to rice root-knot nematode.

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Incidence and Characterization of Rice Root Nematodes, Hirschmanniella mucronata, from Rice Fields in Pathum Thani Province, Thailand

Trends in Sciences ◽

10.48048/tis.2021.486 ◽

2021 ◽

Vol 18 (22) ◽

pp. 486

Author(s):

Natthidech Beesa ◽

Anongnuch Sasnarukkit ◽

Kansiree Jindapunnapat ◽

Buncha Chinnasri ◽

Thanunchanok Chairin

Keyword(s):

Molecular Characterization ◽

Phylogenetic Trees ◽

Nematode Species ◽

Rice Fields ◽

Rice Root ◽

Parasitic Nematodes ◽

28S Rrna ◽

Rice Cultivars ◽

Control And Management

The rice root nematodes, Hirschmanniella oryzae and H. mucronata, are serious and widespread threats to global rice production, especially in tropical and subtropical zones. Reliable and efficient identification of these nematodes is vital to nematode control and management. In this current study, 36 soil or rice root samples were collected from rice fields located in Pathum Thani province and used for nematode extraction. The results demonstrated that Hirschmanniella sp. was found in all paddy fields, especially in Muang District, where RD47 rice cultivars were grown at soil pH of 5.9. Molecular identification based on the analysis of 28S rRNA and 18S-ITS1-1.58S genes revealed 98 – 99 % similarity to H. mucronata, and its phylogenetic trees were grouped with H. mucronata from Cambodia and Philippines. Likewise, the morphometric characterization revealed remarkable features of H. mucronata with long body (1,639 - 2,329 µm), long stylet (24 - 27 µm) and an obvious mucron at the end of terminus. Therefore, the main rice root nematode species found in Pathum Thani’s rice fields were H. mucronata. HIGHLIGHTS The rice root nematodes, Hirschmanniella, are presented the predominant plant-parasitic nematodes in rice cultivated areas of Pathum Thani province, Thailand Population densities of Hirschmanniella are encountered in rice roots than in soil, especially in RD47 rice cultivars grown in Muang District Both of morphological and molecular characterization illustrating the species of rice root nematodes were mucronate This is a first description on the molecular characterization of mucronata from rice fields in Thailand GRAPHICAL ABSTRACT

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Distribution of parasitic nematodes in Kenyan rice fields and their relation to edaphic factors, rainfall and temperature

Tropical Plant Pathology ◽

10.1007/s40858-017-0194-9 ◽

2017 ◽

Vol 43 (2) ◽

pp. 128-137 ◽

Cited By ~ 4

Author(s):

John Namu ◽

Hannah Karuri ◽

Amos Alakonya ◽

Justin Nyaga ◽

Editah Njeri

Keyword(s):

Rice Fields ◽

Parasitic Nematodes ◽

Edaphic Factors

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Pathogenicity of the rice root nematode,Hirschmanniella oryzaeto rice plants in relation to nematode reproduction, plant growth, grain yield and biochemical changes

Archives of Phytopathology and Plant Protection ◽

10.1080/03235408.2012.726869 ◽

2012 ◽

Vol 45 (19) ◽

pp. 2324-2334 ◽

Cited By ~ 1

Author(s):

Nagwa A. Abd-Elbary ◽

M.F.M. Eissa ◽

M.M.A. Youssef

Keyword(s):

Plant Growth ◽

Grain Yield ◽

Biochemical Changes ◽

Rice Root ◽

Nematode Reproduction ◽

Rice Plants ◽

Rice Root Nematode

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Feeding behaviour of the predatory nematodes Laimydorus baldus and Discolaimus major (Nematoda: Dorylaimida)

Nematology ◽

10.1163/1568541054192207 ◽

2005 ◽

Vol 7 (1) ◽

pp. 11-20 ◽

Cited By ~ 12

Author(s):

Anwar L. Bilgrami ◽

Randy Gaugler

Keyword(s):

Feeding Behaviour ◽

Prey Density ◽

Predation Rate ◽

Rice Root ◽

Feeding Site ◽

Feeding Sites ◽

Laboratory Conditions ◽

Feeding Duration ◽

Feeding Activities ◽

Rice Root Nematode

Abstract Feeding activities of the predatory nematodes Laimydorus baldus and Discolaimus major were studied under laboratory conditions in relation to temperature (5–40°C), prey density (25–250 individuals), predator starvation (0–12 days) and prey incubation (4–24 h) using the rice root nematode, Hirschmanniella oryzae, as prey. Prey search duration, rate of predation, and the number and duration of predators feeding and aggregating at feeding sites were studied. Discolaimus major killed more prey, and fed and aggregated longer than L. baldus. Predator activities at the feeding site were optimal at 30°C. Predators starved for 6 days required the briefest prey search duration, and remained aggregated at the feeding site for a longer duration. Predators were increasingly efficient at search prey as prey density increased. Prey search and feeding durations were shortest when prey nematodes were incubated between 8–16 h. Predation rate was optimal when prey were incubated for 16 h. Prey search and killing abilities of L. baldus and D. major were governed by temperature, prey density, starvation and prey incubation, and depended upon feeding duration, number of predators feeding and aggregating at the feeding sites.

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