Nacobbus

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Nacobbus
Nacobbus aberrans.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Nematoda
Class: Secernentea
Order: Tylenchida
Family: Pratylenchidae
Subfamily: Nacobbinae
Chitwood in Chitwood & Chitwood, 1950
Genus: Nacobbus
Thorne & Allen, 1944
Species

Nacobbus is a genus of plant-parasitic nematodes. [1] Prevalent in North and South America, the genus Nacobbus threatens crops such as tomato, potato, quinoa and sugarbeet. They can cause so much damage that they are considered to be of quarantine importance. The morphology and biology of Nacobbus is not all that well known, although it is possible that the host—in this case, a specific crop—influences how the morphological characteristics of these nematodes are expressed. [2]

Contents

Taxonomy

Two type species of Nacobbus, Nacobbus aberrans and Nacobbus dorsalis , were identified in 1944 by Thorne and Allen along with two additional possible species, N. batatiformis and N. serendipiticus. [3] In 1970, Sher classified N. batatiformis and N. serendipiticus under the species Nacobbus aberrans. N. aberrans and N. dorsalis were concluded to be the only two species of Nacobbus and were differentiated by morphological characteristics. Today, the classification of Nacobbus into these two species is generally accepted as accurate. However, recent studies focused on morphology and host-range suggest that this classification may need to be reevaluated. Proper classification of the genus is crucial in order to most effectively manage and quarantine them.[ citation needed ]

Life cycle

In terms of feeding strategy, Nacobbus is classified as a false root-knot nematode because it is both migratory endoparasitic and sedentary endoparasitic. [4] It is the only known nematode to do so; all others employ either one strategy or the other. In Nacobbus, each strategy is employed at different stages in the life cycle. [5] Immature males and females are migratory whereas mature females are sedentary. The life cycle of Nacobbus begins when they hatch from eggs in the soil and migrate through roots and soil until mature, causing necrotic lesions. Then, mature females form a feeding site called a syncytium, which is composed of plant material and formed in healthy root tissue. There the females produce eggs and lay them in the soil to hatch.[ citation needed ]

Related Research Articles

<span class="mw-page-title-main">Root-knot nematode</span> Genus of parasitic worms

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<i>Meloidogyne incognita</i> Nematode worm, plant disease, many hosts

Meloidogyne incognita, also known as the southern root-nematode or cotton root-knot nematode is a plant-parasitic roundworm in the family Heteroderidae. This nematode is one of the four most common species worldwide and has numerous hosts. It typically incites large, usually irregular galls on roots as a result of parasitism.

Belonolaimus longicaudatus is a common parasite of grasses and other plant crops and products. It is the most destructive nematode pest of turf grass, and it also attacks a wide range of fruit, vegetable, and fiber crops such as citrus, cotton, ornamentals, and forage. The sting nematode is a migratory ectoparasite of roots. It is well established in many golf courses and presents a problem in turf management. The sting nematode is only present in very sandy soils. It cannot reproduce in heavier or clay soils.

<i>Rotylenchulus reniformis</i> Species of roundworm

Rotylenchulus reniformis, the reniform nematode, is a species of parasitic nematode of plants with a worldwide distribution in the tropical and subtropical regions.

<i>Aphelenchoides ritzemabosi</i> Plant pathogenic nematode

Aphelenchoides ritzemabosi is a plant pathogenic nematode. It was first scientifically described in 1890 in England. This nematode has a wide host range. Among the most important species affected are Chrysanthemums and strawberries. A. ritzemabosi is a migratory foliar feeding nematode. It can feed both ectoparasitically and endoparasitically, with the later causing the most significant damage. When adequate moisture is present, this nematode enters the leaves and feeds from inside the tissue. Typical damage is characterized by necrotic zones between the veins of the leaves. Its lifecycle is short; only ten days from egg to mature adult. A single female can lay as many as 3,500 eggs. This pest can be difficult to control. Host plant resistance, hot water treatments, and predatory mites are recommended.

Pratylenchus brachyurus is a plant parasitic nematode.

Ditylenchus destructor is a plant pathogenic nematode commonly known as the potato rot nematode. Other common names include the iris nematode, the potato tuber eelworm and the potato tuber nematode. It is an endoparasitic, migratory nematode commonly found in areas such as the United States, Europe, central Asia and Southern Africa.

Hirschmanniella oryzae, i.e. rice root nematode (RRN), is among the major pests of rice and is the most common plant-parasitic nematode found on irrigated rice. Recent modifications in cultivation practices have led to a substantial increase in rice production, which has been accompanied by heightened levels of RRN. The proportional increases in RRN with rice production can be explained by the nematode's impeccable adaptation towards constantly flooded conditions in which irrigated rice is often being grown.

Meloidogyne brevicauda is a plant-parasitic nematode. It is also called tea root-knot nematode, mature tea nematode or Indian root-knot nematode. It is a member of the root-knot nematodes, which was identified by C. A. Loos in 1953 in Sri Lanka.

<i>Paratylenchus hamatus</i> Species of roundworm

Paratylenchus hamatus, the fig pin nematode, is a species of migratory plant endoparasites, that causes lesions on plant roots resulting in symptoms of chlorosis, wilting and ultimately yield losses. They move and feed on different parts of host tissue throughout their life cycle in order to find enough susceptible host tissue to survive and reproduce. A wide range of host plant species are susceptible to the fig pin nematode, including many valuable fruit and vegetable crops such as figs, carrots and celery. They are also commonly found associated with woody perennials in California. P. hamatus inhabits soils in both Europe and North America, and was originally isolated from fig in central California in 1950.

Xiphinema americanum, the American dagger nematode, is a species of plant pathogenic nematodes. It is one of many species that belongs to the genus Xiphinema. It was first described by N. A. Cobb in 1913, who found it on both sides of the United States on the roots of grass, corn, and citrus trees. Not only is Xiphinema americanum known to vector plant viruses, but also X. americanum has been referred to as "the most destructive plant parasitic nematode in America", and one of the four major nematode pests in the Southeastern United States.

Mesocriconema xenoplax is a species of plant parasitic nematodes. Nematodes of this particular species are collectively called ring nematodes.

<i>Anguina agrostis</i> Species of roundworm

Anguina agrostis is a plant pathogenic nematode.

Heterodera sacchari, the sugarcane cyst nematode, mitotic parthenogenic sedentary endoparasitic nematode. This plant-parasitic nematode infects the roots of sugarcane, and the female nematode eventually becomes a thick-walled cyst filled with eggs. Aboveground symptoms are species specific and are similar to those caused by other Heterodera species. Symptoms include: stunted and chlorotic plants, and reduced root growth. Seedlings may be killed in heavily infested soils.

<i>Pratylenchus</i> Genus of roundworms

Pratylenchus is a genus of nematodes known commonly as lesion nematodes. They are parasitic on plants and are responsible for root lesion disease on many taxa of host plants in temperate regions around the world. Lesion nematodes are migratory endoparasites that feed and reproduce in the root and move around, unlike the cyst or root-knot nematodes, which may stay in one place. They usually only feed on the cortex of the root. Species are distinguished primarily by the morphology of the stylets.

Globodera tabacum, commonly known as a tobacco cyst nematode, is a plant parasitic nematode that mainly infests the tobacco plant, but also plants in family Solanaceae.

Hoplolaimus galeatus is a plant pathogenic nematode.

Heterodera zeae, the corn cyst nematode (CCN), is a plant parasitic nematode that feeds on Zea mays (maize/corn). The CCN has a limited economic impact worldwide due to its high soil temperature requirements.

Globodera ellingtonae is one of the potato cyst nematodes and was recently recognized as a new species in the United States. This triggered a quarantine of the fields where it was isolated to prevent the spread of this nematode to other fields.

Trichodoridae is a family of terrestrial root feeding nematodes, being one of two that constitute suborder Triplonchida. They are economically important plant parasites and virus vectors.

References

  1. Singh SK, Hodda M, Ash GJ (2013). "Plant-parasitic nematodes of potential phytosanitary importance, their main hosts and reported yield losses". EPPO Bulletin. 43 (2): 334–374. doi:10.1111/epp.12050.
  2. Lax P, Doucet ME, Di Rienzo JA (2006). "Morphometric comparative study among isolates of Nacobbus aberrans (Thorne, 1935) Thorne & Allen, 1944 from Argentina". Journal of Nematode Morphology and Systematics. 9 (2): 83–93.
  3. Manzanilla-López R (2010). "Speciation within Nacobbus: consilience or controversy?". Nematology. 12 (3): 321–334. doi:10.1163/138855409X12584547412734.
  4. Eves-van den Akker S, Lilley CJ, Danchin EG, Rancurel C, Cock PJ, Urwin PE, Jones JT (August 2014). "The transcriptome of Nacobbus aberrans reveals insights into the evolution of sedentary endoparasitism in plant-parasitic nematodes". Genome Biology and Evolution. 6 (9): 2181–94. doi: 10.1093/gbe/evu171 . PMC   4202313 . PMID   25123114.
  5. Vovlas N, Nico AI, De Luca F, De Giorgi C, Castillo P (March 2007). "Diagnosis and Molecular Variability of an Argentinean Population of Nacobbus aberrans with Some Observations on Histopathology in Tomato". Journal of Nematology. 39 (1): 17–26. PMC   2586475 . PMID   19259470.
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