''Paratylenchus hamatus'', the fig pin nematode, is a species of migratory plant

endoparasite Parasitism is a close relationship between species, where one organism, the parasite, lives on or inside another organism, the host, causing it some harm, and is adapted structurally to this way of life. The entomologist E. O. Wilson has ...

s, that causes lesions on

plant root In vascular plants, the roots are the organs of a plant that are modified to provide anchorage for the plant and take in water and nutrients into the plant body, which allows plants to grow taller and faster. They are most often below the sur ...

s resulting in symptoms of

chlorosis In botany, chlorosis is a condition in which leaves produce insufficient chlorophyll. As chlorophyll is responsible for the green color of leaves, chlorotic leaves are pale, yellow, or yellow-white. The affected plant has little or no ability to ...

, wilting and ultimately yield losses. "''Paratylenchus Hamatus''." University of California Davis, 27 Dec. 2013. Web. 21 Oct. 2014.
/ref> 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.
/ref> 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."Vegetable Crop Pest Management." NEMATODE MANAGEMENT Ch.8 (n.d.): 86. Michigan State Integrated Pest Management. Web. 11 Nov. 2014.
/ref> 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.Allen, M. W., and G. Thorne. "''Paratylenchus hamatus N.sp'', and ''Xiphinema Index N.sp.'', Two Nematodes Associated with Fig Roots, with a Note on ''Paratylenchus'' Anceps Cobb. - CAB Direct." Proceedings of the Helminthological Society of Washington 17.1 (1950): 27-35.

Hosts and Symptoms

''Paratylenchus spp.'' nematodes have a wide variety of hosts with a recorded 25 different plants it is able to infect.Plant Pathogens; the plant parasitic nematodes. KS Singh and K Sitaramaiah. International Science Publisher. New York p. 242-43. ''Paratylenchus hamatus'' feeds on the roots of

fig tree ''Ficus'' ( or ) is a genus of about 850 species of woody trees, shrubs, vines, epiphytes and hemiepiphytes in the family Moraceae. Collectively known as fig trees or figs, they are native throughout the tropics with a few species extending int ...

celery Celery (''Apium graveolens'') is a marshland plant in the family Apiaceae that has been cultivated as a vegetable since antiquity. Celery has a long fibrous stalk tapering into leaves. Depending on location and cultivar, either its stalks, lea ...

, grapes, and

peach The peach (''Prunus persica'') is a deciduous tree first domesticated and cultivated in Zhejiang province of Eastern China. It bears edible juicy fruits with various characteristics, most called peaches and others (the glossy-skinned, non-fu ...

es."Nematode Host Range Results." Nemaplex. University of California Davis, n.d. Web. 21 Oct. 2014.
/ref> ''P. hamatus'' has also been documented to cause patchy areas of chlorosis and wilting in

lentils The lentil (''Lens culinaris'' or ''Lens esculenta'') is an edible legume. It is an annual plant known for its lens-shaped seeds. It is about tall, and the seeds grow in pods, usually with two seeds in each. As a food crop, the largest produ ...

, resulting in up to 40% yield loss. Symptoms appear in patches or clusters and plants show a slow and general decline in growth and vigor. Common symptoms of infection are that of other root nematodes; stunted growth of the plant as well as the roots, chlorosis, leaf drop, reduced plant weight or yield, and undersized fruit are all symptoms which may be seen. These symptoms are universal across the different plant species it infects. Shallow localized lesions on the roots can be seen at feeding sites.Ingham, R., and K. Merrifield. 1996. "A Guide to Nematode Biology and Management in Mint." Integrated Plant Protection Center, Oregon State University. Corvallis. Pub 996. 38p. No signs are present with the exception of the nematodes themselves and their eggs, which are not visible to the naked eye.

Diagnosis

The disease is diagnosed through the above ground symptoms and examination of the roots and soil for ''P. hamatus''. If the symptoms of wilting and chlorosis present in scattered groups or clusters, then the soil and root samples should be screened for ''P. hamatus''. Since the nematodes are the only signs a pathologist must identify ''P. hamatus'' from morphological features such as their small size and stylet morphology to confirm their presence.Plant Nematodes; their bionomics and control. J Christie. Agricultural experiment station University of Florida. Gainesville 1959 p. 213-14. Another clue in diagnosis a ''P. hamatus'' infestation is to look at the amount of nematodes present in the soil sample. Because of their small size ''P. hamatus'' is found in extremely large numbers.

Life cycle

''Paratylenchus hamatus'' is a migratory endoparasite which means it retains its vermiform shape during its adult life. Because of their close association with host root systems, pin nematodes are easily spread from field to field through the transportation of already infected soil and plant parts. ''Paratylenchus spp.'' females generally lay eggs one at a time and can lay up to 4 eggs per day when feeding on host tissue. When eggs hatch 7 or 8 days after laying, the juvenile nematodes seek out plant roots to feed upon.Eck, J.A. 1970. The host-parasite relationship and control of ''Paratylenchus projectus'' on Iris germanica. M.S. Thesis, Oklahoma State university. Young, easily penetrated root tips appear to be the main food source for juveniles, which have smaller stylets compared to their adult counterparts. All pin nematodes feed on root epidermal cells and will migrate to a new feeding site once the nutrients have been depleted. As they feed and grow, juvenile pin nematodes will go through a series of four molts, growing a new stylet and outer cuticle each time. When the fourth juvenile stage (J4 or preadult) is reached, the nematodes may enter a survival stage in which they are resistant to unfavorable conditions such as low soil moisture, extreme temperatures, and lack of food.Rhoades, H.L. and M.B. Linford. 1961a. Biological studies on some members of the genus ''Paratylenchus''. Proceedings of the Helminthological Society of Washington. 28:51-59. The preadults can survive over 4 years when in this state despite not feeding, as their stylets are diminished and do not function properly. The survival stage is not produced in conditions that favor functions such as feeding and reproduction. After the final molt from the fourth juvenile stage, adult pin nematodes emerge. ''P. hamatus'' is a dioecious species, having both males and females. When the adult stage is reached, males mate with females to produce fertilized eggs. However, males are not always necessary for egg fertilization in pin nematodes. In a few species of ''Paratylenchus'', males are not common and it is possible for females to lay fertilized eggs without mating. Females tend to lay more eggs when feeding than when they are not feeding.

Environment

They are primarily located in North America and Europe in cooler environments with adequate moisture since they cannot move without the presence of water films in the soil. They can also be found in both cultivated and non-cultivated soil types, predominantly in the soil surrounding the roots of fig tree. They tend to be more of a problem in vineyards that have an ample supply of woody shrubs close together. However, these nematodes can persist in very adverse soil environmental conditions (decreases in nutrients, low moisture contents and temperature) in the J4 or pre-adult stage. ''Paratylenchus spp.'' have been shown to cause more damage in host root tissue when temperatures are around 20 °C and they prefer levels of pH around 6.5 for optimal reproduction. However, the pathogenicity of ''Paratylenchus spp.'' at pH levels lower than 6.5 is typically not altered.

Management

Fumigation Fumigation is a method of pest control or the removal of harmful micro-organisms by completely filling an area with gaseous pesticides—or fumigants—to suffocate or poison the pests within. It is used to control pests in buildings (s ...

with

1,2-dibromoethane 1,2-Dibromoethane, also known as ethylene dibromide (EDB), is an organobromine compound with the chemical formula . Although trace amounts occur naturally in the ocean, where it is formed probably by algae and kelp, it is mainly synthetic. It is a ...

can be an effective tool to reduce the number of ''Paratylenchus spp.'' in the soil, but the process typically kills most of the beneficial

soil fauna Soil biology is the study of microbial and faunal activity and ecology in soil. Soil life, soil biota, soil fauna, or edaphon is a collective term that encompasses all organisms that spend a significant portion of their life cycle within a soil ...

as well. This can have additional negative repercussions on the

soil health Soil health is a state of a soil meeting its range of ecosystem functions as appropriate to its environment. In more colloquial terms, the health of soil arises from favorable interactions of all soil components (living and non-living) that belong ...

. Fumigation would also kill the plants you are trying to cultivate, so the soil would need to be fumigated before the planting date.

Crop rotation Crop rotation is the practice of growing a series of different types of crops in the same area across a sequence of growing seasons. It reduces reliance on one set of nutrients, pest and weed pressure, and the probability of developing resistant ...

with small grains is also another management tool for ''Paratylenchus hamatus'' since they typically parasitize on fruit and vegetable crops. For post-planting control some non-fumigant nematicides can be used, but the effectiveness is not always consistent.

Importance

''P. hamatus'' has been shown to have different levels of effect on different crops. In California, ''P. hamatus'' is the most common pin nematode and has been seen to reduce crop yield of grapes in vineyards and fig farms by stunting plant growth and reducing fruit size. This ultimately results in loss of profits for local farmers. However, data from stone fruit farms in California show no damage to crops with populations of pin nematodes reaching 3000 nematodes/ 1 kg of soil.LaRue J. H. and R. S. Johnson. "Peaches, Plums, and Nectarines: Growing and Handling for Fresh Market". UCANR Publications, Jan 1, 1989. p. 141. There is also evidence that populations of pin nematodes around 500 nematodes/ 1 kg of soil work as antagonists for other more damaging nematodes producing healthier trees. So in that case they are not really detrimental to the plant, but possible indirectly beneficial. This not always the case however. For example, ''P. hamatus'' in mint caused losses of 25% - 36% when planted in soil with 8000 nematodes/ quart, which shows it does not play an antagonistic role. Overall, the disease severity of ''P. hamatus'' is variable and is specific to the species of plant that it is parasitizing on and the concentration at which it is found.

References

* {{Taxonbar, from=Q7136228 Tylenchida Agricultural pest nematodes Grape pest nematodes Mint diseases Nematodes described in 1950 Endoparasites