Introduction
''Pratylenchus brachyurus'', like many other plant-parasitic nematodes, are microscopic worms that can be damaging to many agricultural crops. Across the world, many billions of dollars each year are lost due to the damaging abilities of nematodes on cash crops. ''P. brachyurus'' is a migratory endoparasite that enters the roots and moves throughout the root tissue while completing its life cycle.History
Under the old classification system based on morphology, these nematodes were under the Class Adenophorea. This changed in 2004 when a new classification system was presented by De Ley and Blaxter using SSU rDNA for comparison between different species of nematodes. Using this new system, De Ley and Blaxter placed ''P. brachyurus'' in the Class Chromadorea, Order Rhabditida. In 1929 Godfrey first described ''P. brachyurus'' as the main cause for pineapple-root disease and called them ''Tylenchus brachyurus''. He also discussed several other nematodes which were all later put into the genus ''Pratylenchus''. In 1934, Filipjev proposed the genus ''Pratylenchus''. This proposed new genus name came with some challenges because the International Code of Zoological Nomenclature states that the new genus name must come with a statement as to why you want to change the name. It must also give reasons differentiating the new genus plus give the name of the type species. In 1936 the new genus name was universally accepted.Description
This nematode is a migratory endoparasite that ranges from about 0.4 to 0.5 mm long and has a lip region that is angular and offset from the body. It is generally low and flat and has two distinct annules. ''P. brachyurus'' has a short strong stylet about 20 um long and large round basal knobs. It also has a short ventral overlap of the esophagus. The females have lateral fields marked by four incisures. Males are very rare and have one single outstretched testis.Distribution and economic importance
''Pratylenchus'' are second only behind ''Reproduction and life cycle
These nematodes have the general nematode life cycle with four juvenile stages keeping their vermiform shape throughout the entire life cycle except the egg stage. Any of the stages, except the egg and J1 which molts inside the egg, can infect the root. The nematodes get inside the roots and move throughout the root laying eggs individually in the root cortex and maybe a few in the soil. This particular species of ''Pratylenchus'' reproduces by parthenogenesis. The males of this species have not been found very often.Host-parasite relationships
''P. brachyurus'' can infest a wide range of crops. Peanuts, pineapple, soybeans, sugar cane, tomatoes, citrus, and cotton are just a few of the crops it can infest. With such a wide range of hosts, ''P. brachyurus'' is an important nematode for scientist to study and try to develop a resistant variety of its host plants. The problem with ''P. brachyurus'' is that not too much is known about it and many of the reports available contradict each other. In 2001 in Nematropica, it was stated that the host range of these nematodes has not been determined meaning thatManagement
Many different methods to control nematodes have been tried over the years. Some have proven more successful and others have not. Some of these methods include nematicides, cover crops, crop rotation, genetically modified plants and seed treatments. In soybeans, Essex is a tolerant cultivar whereas Forrest is sensitive. Essex has a higher yield in fields that are infested with the nematode. The plots in this study by Koenning were treated with aldicarb, carbofuran, and fenamiphos and had less nematodes 40 days post planting then the areas that were not treated. The plots that were planted with Forrest which is the sensitive cultivar and treated with carbofuran had a higher yield than untreated control plots. Damage threshold levels have not been well established but using fumigated plots has shown significant increases in yield. In Brazil, many crops are planted under the no tillage planting system. This typically causes of buildup of polyphagous species of nematodes like ''P. brachyurus''. If a no till system is being used, planting cover crops that would decrease the density of the nematodes may be needed. The problem with that is there is contradictory information regarding ''P. brachyurus'' and which plants are poor or good hosts. Due to this very same reason, farmers would have to be very careful in choosing a crop rotation schedule as well. In 1992 Vast demonstrated that arbuscular mycorrhizal fungi could enhanced the plant’s resistance to nematodes by being a physical barrier.Vaast P, Zasoski RJ (1992) Effect of VA-Mycorhizae and nitrogen sources on rhizsphere soil characteristics, growth and nutrient acquisition of coffee seedlings (Coffea arabica L.) Plant and Soil 147:31-39. This would be something that could be used as a seed treatment to protect the newly emerging seedlings from being infested. As with many other nematodes that cause crop loss, we need to continue to move forward in the study of these nematodes. Many of the managements tools used are very contradictory in studies and no good management strategy has been established. This nematode is so widespread and has such a wide range of hosts that several different management strategies will have to be developed based on the specific crop and area. Hopefully one day we will be able to develop a gene that can be put into plants to defend them against these nematodes as well as many other different types of nematodes.References
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