Assessing the predatory activity of Arthrobotrys oligosporus strain C-2197 as biocontrol of the root-knot nematode Meloidogyne spp.

Quevedo, Adela; Vera-Morales, Marcos; Espinoza-Lozano, Fernando; Castañeda-Ruíz, Rafael F.; Sosa, Daynet; Magdama, Freddy

doi:10.21931/rb/2021.06.01.22

Cited by 3 publications

(5 citation statements)

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“…Fungi that capture nematodes have a double function: controlling the populations of infective nematodes and also acting as biofertilizers when applied in soil, being able to solubilizing and mobilize some important nutrients [ 56 , 57 ]. The adhesive networks building fungus Duddingtonia flagrans have been shown to solubilize P both in laboratory [ 56 ] and in greenhouse conditions [ 2 ].…”

Section: Trapping Nematodes—predatory Fungimentioning

confidence: 99%

Nematophagous Fungi: A Review of Their Phosphorus Solubilization Potential

et al. 2023

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Nematophagous fungi (NF) are a group of diverse fungal genera that benefit plants. The aim of this review is to increase comprehension about the importance of nematophagous fungi and their role in phosphorus solubilization to favor its uptake in agricultural ecosystems. They use different mechanisms, such as acidification in the medium, organic acids production, and the secretion of enzymes and metabolites that promote the bioavailability of phosphorus for plants. This study summarizes the processes of solubilization, in addition to the mechanisms of action and use of NF on crops, evidencing the need to include innovative alternatives for the implementation of microbial resources in management plans. In addition, it provides information to help understand the effect of NF to make phosphorus available for plants, showing how these biological means promote phosphorus uptake, thus improving productivity and yield.

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Section: Trapping Nematodes—predatory Fungimentioning

confidence: 99%

Nematophagous Fungi: A Review of Their Phosphorus Solubilization Potential

et al. 2023

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“…Hence, the densities of NTFs in rhizospheres were slightly greater than those in root-free soil [ 106 ], and the response of root cells to NTF colonization may have significant implications for the performance of these organisms as plant-parasitic nematode biocontrol agents [ 112 ]. The presence of A. oligospora not only decreases the number of root-knot nematodes by the preying process but also promotes plant growth [ 19 ], such as A. oligospora C-2197 that exhibits root development and leaf area growth-promoting activities, as well as growth-promoting activity, on tomato plants [ 14 ]. These findings offer vivid examples of diverse predator–prey interactions in nature, playing a critical role in maintaining population composition and dynamics of both counterparts.…”

Section: The Interaction Among a Oligospora Nemat...mentioning

confidence: 99%

“…Both nematodes and NTFs have a wide range of species diversity in the soil ecosystem, and the majority of them exhibit sympatric distribution and close relationships with each other [ 12 ]. This peculiar feature of killing living nematodes by their natural life strategy makes NTFs the ideal alternative for the chemical control of parasitic nematodes [ 14 , 15 ], especially in the rhizosphere of plants, and, hence, their interactions exert a significant effect on agriculture and forestry [ 16 , 17 ].…”

Section: Introductionmentioning

confidence: 99%

“…Its efficient trapping ability has rendered A. oligospora an ideal candidate for the control of plant- and animal-parasitic nematodes. For instance, the ability of A. oligospora C-2197 to manage nematode populations provides a feasible concept for the management of tomato production in a greenhouse environment [ 14 ]. Moreover, A. oligospora (MRDS 300) is a promising biocontrol agent for Meloidogyne incognita [ 19 ].…”

Section: Introductionmentioning

confidence: 99%

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Recent Advances in Life History Transition with Nematode-Trapping Fungus Arthrobotrys oligospora and Its Application in Sustainable Agriculture

Wang

Rao

et al. 2023

Pathogens

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Parasitic nematodes cause great annual loss in the agricultural industry globally. Arthrobotrys oligospora is the most prevalent and common nematode-trapping fungus (NTF) in the environment and the candidate for the control of plant- and animal-parasitic nematodes. A. oligospora is also the first recognized and intensively studied NTF species. This review highlights the recent research advances of A. oligospora as a model to study the biological signals of the switch from saprophytism to predation and their sophisticated mechanisms for interacting with their invertebrate hosts, which is of vital importance for improving the engineering of this species as an effective biocontrol fungus. The application of A. oligospora in industry and agriculture, especially as biological control agents for sustainable purposes, was summarized, and we discussed the increasing role of A. oligospora in studying its sexual morph and genetic transformation in complementing biological control research.

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“…Algunos hongos de crecimiento lento pueden formar sus estructuras de captura sin estimulación externa (Cooke 1968). Otros de crecimiento acelerado como Arthrobostrys oligosporus es capaz de formar redes adhesivas cuando detecta a sus presas (Quevedo et al 2021), recibiendo e interpretando los ascarósidos producidos por los nematodos (Chen et al 2021), incluso siendo capaz de producir varios compuestos volátiles que son atractivos para los nematodos (Hsueh et al 2017). El hongo Drechslerella sp.…”

Section: Hongos Nematófagosunclassified

Mecanismos de captura, colonización y alimentación empleados por parásitos y predadores de nematodos

Vera-Morales

Castañeda-Ruíz

Sosa

et al. 2022

ECOS

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Mecanismos de captura, colonización y alimentación empleados por parásitos y predadores de nematodos. Los organismos del suelo tienen un papel fundamental en la estructura y ciclo de nutrientes en los ecosistemas; especialmente los nematodos que son abundantes y funcionalmente diversos. Debido a que algunos taxones de nematodos causan enfermedades a las plantas, la mayoría de los estudios tienen un enfoque agrícola, por tanto, es de relevancia ecológica conocer los diferentes grupos de organismos de suelo que los consumen o parasitan. El propósito de esta revisión es discutir sobre los mecanismos de captura, colonización o alimentación que ejercen los enemigos naturales de los nematodos, especialmente los predadores y parásitos, tales como bacterias, hongos, nematodos, microartrópodos y tardígrados. Algunas bacterias que se encuentran en la rizosfera sintetizan moléculas tóxicas que matan a los nematodos mientras que los hongos nematófagos pueden ser predadores, endoparásitos, parásitos de huevos, productores de toxinas y presentar dispositivos especiales para la captura de sus presas. Además, los nematodos predadores presentan tres mecanismos de alimentación: las especies del orden Mononchida cortan a sus presas o las consumen enteras, las del orden Diplogasterida cortan y succionan los contenidos y finalmente las de los ordenes Dorylaimida y Aphelenchida emplean un estilete para perforar y succionar. En el caso de los microartrópodos, los colémbolos emplean sus maxilares y los ácaros sus quelíceros para agarrar, triturar y masticar, mientras que los tardígrados pueden devorar nematodos enteros. Conocer las estrategias de los parásitos y predadores de nematodos complementa la investigación en patógenos de importancia agrícola y contribuye a la comprensión de la complejidad de las redes tróficas del suelo.

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Assessing the predatory activity of Arthrobotrys oligosporus strain C-2197 as biocontrol of the root-knot nematode Meloidogyne spp.

Cited by 3 publications

References 55 publications

Nematophagous Fungi: A Review of Their Phosphorus Solubilization Potential

Nematophagous Fungi: A Review of Their Phosphorus Solubilization Potential

Recent Advances in Life History Transition with Nematode-Trapping Fungus Arthrobotrys oligospora and Its Application in Sustainable Agriculture

Mecanismos de captura, colonización y alimentación empleados por parásitos y predadores de nematodos

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