Description and molecular phylogeny of a new and one known needle nematode of the genus Paralongidorus (Nematoda: Longidoridae) from grapevine in Portugal

A new and a known longidorid nematode, Paralongidorus lusitanicus n. sp. and Paralongidorus plesioepimikis, are described and illustrated from populations extracted from soil associated with grapevine (Vitis vinifera L.) from Escaroupim and Pó (central-Western Portugal), respectively. The new needle nematode P. lusitanicus n. sp. is characterised by a very large body size (8072–12,022 μm), an expanded and rounded lip region, ca 30 μm wide, with a clear constriction followed by a depression posterior to the amphidial aperture, amphidial fovea very large (11.0–19.0 μm), stirrup-shaped, with conspicuous slit-like aperture as shown in scanning electron microscopy studies, a very long and flexible odontostyle (180.0–223.0 μm), guiding ring located at 28.0–41.5 μm from anterior end, vulva anterior to the mid-body (34–41%), a dorsally convex-conoid tail with rounded terminus (29–42 μm long), bearing two or three pairs of caudal pores and males common (ratio 1:1.6 females) with spicules ca 80 μm long. Morphological and morphometric traits for P. plesioepimikis fit well with the original description, and is reported for the first time in Portugal. Integrative diagnosis of both species was completed with molecular data obtained using D2-D3 expansion segments of 28S rDNA, ITS1-rDNA and partial 18S–rDNA. The phylogenetic relationships of these species with other Paralongidorus spp. using these three molecular markers indicated that P. lusitanicus n. sp. clustered together with other Paralongidorus spp. forming a sister clade with P. plesioepimikis, both of them sharing a large body, long odontostyle, an anteriorly located vulva and an expanded and rounded lip region with a clear constriction followed by a depression posterior to the amphidial aperture

Estudio de los mecanismos de interacción entre Meloidogyne artiellia y Fusarium oxysporum f.sp. ciceris en genotipos de garbanzo

La Fusariosis Vascular del garbanzo (FVG), causada por el hongo anamorfo Fusarium oxysporum Schlechtend.:Fr. f. sp. ciceris (Padwick) Matuo & Sato, es una de las enfermedades más importantes y uno de los factores limitantes del cultivo en todo el mundo. La estrategia más práctica y económicamente eficiente para el control de la enfermedad es la utilización de cultivares resistentes. Sin embargo, la resistencia se ve amenazada por: (i) la existencia de ocho razas patogénicas, e (ii) interacciones por infecciones múltiples entre nematodos fitoparásitos y el genotipo resistente del huésped. Así, co-infecciones por F. oxysporum f. sp. ciceris y nematodos noduladores del género Meloidogyne (M. artiellia) en interacciones incompatibles a la FVG pueden resultar en la rotura de la resistencia al hongo. El objetivo finalista de esta Tesis Doctoral ha sido el determinar y analizar los posibles mecanismos relacionados con la pérdida/mantenimiento de la resistencia a FVG cuando las plantas están co-infectadas por ambos patógenos. Se han utilizado dos aproximaciones, una mediante técnicas proteómicas y otra mediante el estudio de la expresión de genes relacionados con la patogénesis. Así, la pérdida/mantenimiento de la resistencia a la FVG por la co-infección de M. artiellia y Foc-5 en líneas de garbanzo resistentes al hongo puede estar condicionada (entre otros posibles mecanismos) por una represión de genes de la ruta fenilpropanoide en fases tempranas de la interacción y por una expresión proteica diferencial en periodos posteriores de la interacción. Estas diferencias se pueden concretar principalmente en un mayor número de proteínas afectadas en la línea que pierde la resistencia a la co-infección por ambos patógenos (CA336.14.3.0) y una expresión/represión diferencial de diversas proteínas con una posible función defensiva [principalmente, quitinasa clase I, proteínas del metabolismo secundario, enzimas relacionados con el metabolismo de las Especies Reactivas de Oxígeno, proteínas de unión a nucleótidos y una proteína R]. Mientras que la expresión génica en los periodos iniciales de la interacción ha permitido observar cierta respuesta defensiva, siendo especialmente interesante en la línea CA336.14.3.0, donde se produjo una disminución de la transcripción de varios genes de la ruta fenilpropanoide (chalcona isomerasa, isoflavona 2'-hidroxilasa, isoflavona reductasa y Cyp81D9 en plantas inoculadas con M. artiellia

Editorial: Protecting Our Crops - Approaches for Plant Parasitic Nematode Control

In agricultural history, the Green Revolution generated by the development of breeding technology, chemical fertilizers, and pesticides has enabled mass production of agricultural crops and solved many (but not all) hunger problems around the world (Pingali, 2012). Plants make up about 80% of the food we consume, while about 40% of food crops are lost by agricultural pests, including plant nematodes (FAO, 2019). The world population in 2021 is  7.8 billion and is estimated to reach 10 billion in 2050 (United Nations, 2019). The current proposition imposed on us is to develop methods to increase crop yield and quality while suppressing damage from pests and also reducing the impact on the natural environment. Plant-parasitic nematodes (PPNs) are one of the major constraints in agriculture. Damage caused by PPNs has been estimated from $US80 billion (Nicol et al., 2011) to$US157 billion per year (Abad et al., 2008). However, the full extent of nematode damage is likely underestimated as many growers, particularly in developing countries, are unaware of the presence of PPNs (Jones et al., 2013). This was assumed as nematodes are usually small-body-size, soil-borne pathogens, and the symptoms they cause are often non-specific (Jones et al., 2013). The damage caused by PPNs could be even worse in the future in the context of a growing world population under a Climate Change scenario and the removal or reduction in the use of some nematicides in many parts of the world. Set in the context of the 2020 International Year of Plant Health, this Research Topic “Protecting Our Crops - Approaches for Plant Parasitic Nematode Control” gives new insights into Integrative Approaches for Sustainable PPN Control. Many of the articles are excellent reviews of their specific topic, which could help in pointing out new research directions

PROTECTING OUR CROPS - APPROACHES FOR PLANT PARASITIC NEMATODE CONTROL

sem resum

Prevalence, incidence and molecular identification of root-knot nematodes of tomato in Pakistan

Tomato is a widely grown vegetable in Pakistan. However, its production is severely constrained by root knot nematodes (RKNs). Accurate identification of RKNs is essential for an appropriate control program. The current study evaluated the prevalence, incidence and diversity of RKNs of tomato crops grown in the Khyber Pakhtunkhwa Province and their identification using molecular tools. A field survey, including 30 commercial tomato fields, was conducted in ten major tomato growing areas of Swat and Malakand divisions during spring 2010. The overall prevalence and incidence in the study area was 83.3 and 52.0%, respectively. Three species of RKNs, Meloidogyne arenaria, M. incognita and M. javanica were found alone or in mixed populations. Disease incidence ranged from 10% in Malakandher to 100% and 90 to 100% in Jabban and Malakand, respectively. The greatest galling index (GI) (5.0) and egg mass index (EMI) (5.0) was recorded in samples from Jabban, whereas the lowest GI and EMI were recorded in samples from Malakandher and Peshawar. The population density of RKNs was highest in roots (633.0 eggs and second-stage juveniles) and soil (533.0 eggs and second-stage juveniles) samples of Jabban. DNA amplification with rDNA (D2A-D3B) and (194 to 195) primers amplified 750 and 720 bp products for M. arenaria, M. incognita and M. javanica, respectively. Amplification with sequence characterized amplified regions (SCAR) primers produced characteristic products of 420 bp for M. arenaria (Far/Rar), 1200 bp for M. incognita (Finc/Rinc), and 670 bp for M. javanica (Fjav/Rjav). DNA amplification of mtDNA with C2F3/1108 primers yielded a 1700 bp size product for all three species of RKNs in comparison with 520 and 750 bp for M. chitwoodi and enterolobii, respectively, which were utilized as control. Sequencing the 28S rDNA product generated with the D2A-D3B primers did not differentiate among the three Meloidogyne spp. from the study area.Key words: Meloidogyne, species identification, perineal pattern, sequence characterized amplified regions (SCAR) primers

Proteomic analysis of Cucumis Melo L. Phloem as an approach to study resistance to Bemisia Tabaci gen

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First report of root-knot nematode Meloidogyne hispanica infecting grapevines in southern Spain

Artículo open access.Some commercial vineyards producing the ‘Condado de Huelva’ wine denomination of origin in Almonte, Bonares, and Rociana (Huelva Province), southern Spain, showed general decline in sandy soils in 2009. Disease surveys revealed severe infections of grapevine rootstock Richter 110 feeder roots and heavy soil infestations by a root-knot nematode (Meloidogyne sp.).Peer Reviewe

Description and molecular phylogeny of one new and one known needle nematode of the genus Paralongidorus (Nematoda: Longidoridae) from grapevine in Portugal using integrative approach.

A new and a known longidorid nematode, Paralongidorus lusitanicus n. sp. and Paralongidorus plesioepimikis, are described and illustrated from populations extracted from soil associated with grapevine (Vitis vinifera L.) from Escaroupim and Pó (central-Western Portugal), respectively. The new needle nematode P. lusitanicus n. sp. is characterised by a very large body size (8072–12,022 μm), an expanded and rounded lip region, ca 30 μm wide, with a clear constriction followed by a depression posterior to the amphidial aperture, amphidial fovea very large (11.0–19.0 μm), stirrupshaped, with conspicuous slit-like aperture as shown in scanning electron microscopy studies, a very long and flexible odontostyle (180.0–223.0 μm), guiding ring located at 28.0–41.5 μm from anterior end, vulva anterior to the mid-body (34–41%), a dorsally convex-conoid tail with rounded terminus (29–42 μm long), bearing two or three pairs of caudal pores and males common (ratio 1:1.6 females) with spicules ca 80 μm long. Morphological and morphometric traits for P. plesioepimikis fit well with the original description, and is reported for the first time in Portugal. Integrative diagnosis of both species was completed with molecular data obtained using D2-D3 expansion segments of 28S rDNA, ITS1-rDNA and partial 18S–rDNA. The phylogenetic relationships of these species with other Paralongidorus spp. using these three molecular markers indicated that P. lusitanicus n. sp. clustered together with other Paralongidorus spp. forming a sister clade with P. plesioepimikis, both of them sharing a large body, long odontostyle, an anteriorly located vulva and an expanded and rounded lip region with a clear constriction followed by a depression posterior to the amphidial apertur

Gene expression changes in diapause or quiescent potato cyst nematode, Globodera pallida, eggs after hydration or exposure to tomato root diffusate

The authors thank the Education Spanish Ministry for the grant provided for the first author under the "Ayudas para la movilidad postdoctoral en centros extranjeros'' scheme. The James Hutton Institute receives funding from the Scottish Government.Plant-parasitic nematodes (PPN) need to be adapted to survive in the absence of a suitable host or in hostile environmental conditions. Various forms of developmental arrest including hatching inhibition and dauer stages are used by PPN in order to survive these conditions and spread to other areas. Potato cyst nematodes (PCN) (Globodera pallida and G. rostochiensis) are frequently in an anhydrobiotic state, with unhatched nematode persisting for extended periods of time inside the cyst in the absence of the host. This paper shows fundamental changes in the response of quiescent and diapaused eggs of G. pallida to hydration and following exposure to tomato root diffusate (RD) using microarray gene expression analysis encompassing a broad set of genes. For the quiescent eggs, 547 genes showed differential expression following hydration vs. hydratation and RD (H-RD) treatment whereas 708 genes showed differential regulation for the diapaused eggs following these treatments. The comparison between hydrated quiescent and diapaused eggs showed marked differences, with 2,380 genes that were differentially regulated compared with 987 genes following H-RD. Hydrated quiescent and diapaused eggs were markedly different indicating differences in adaptation for long-term survival. Transport activity is highly up-regulated following H-RD and few genes were coincident between both kinds of eggs. With the quiescent eggs, the majority of genes were related to ion transport (mainly sodium), while the diapaused eggs showed a major diversity of transporters (amino acid transport, ion transport, acetylcholine or other molecules).Publisher PDFPeer reviewe

Description of the first-stage juveniles of Xiphinema cretense and X. herakliense - Distribution of Xiphinema and Longidorus species in olive orchards and grapevines in Crete, Greece

The occurrence of nematodes of the family Longidoridae was investigated in soil samples collected from cultivated and wild olives and grapevines in Crete. The first-stage juveniles of Xiphinema cretense and X. herakliense are described for the first time. The species X. israeliae, X. cretense, X. herakliense and Longidorus pseudoelongatus, previously recorded exclusively from olives in Crete, are herein reported in the rhizosphere of grapevines. Also L. iranicus is reported for the first time in cultivated olive, while X. italiae and L. closelongatus are reported for the first time in wild olive in Crete. Data on the occurrence of phytoparasitic nematode species in cultivated olives, wild olives and grapevines are updated with those previously published.This research was supported by grant KBBE 219262 ArimNET-ERANET FP7 2012-2015 Project PESTOLIVE ‘Contribution of olive history for the management of soilborne parasites in the Mediterranean basin’ from Hellenic Agricultural Organization-DEMETER and Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), grant AGR-136 from ‘Consejería de Economía, Innvovación y Ciencia’ from Junta de Andalucía, and Union Europea, Fondo Europeo de Desarrollo regional, “Una manera de hacer Europa”. I.G. Birmpilis and E. Nasiou were employed by the ARIMNET-PESTOL-IVE project.Peer reviewe