Root-knot nematode (RKN) which comes from Meloidogyne species is an obligate, parasitic nematode which can be found in varieties of plants, considered as a host to that particular nematode. Their potential host range encompasses more than 3000 plant species. The presence of RKN in the crops becomes one of the major problems nowadays because they cause great agriculture loss. Among the many genera of nematodes having some economic impact, Meloidogyne spp. are responsible for a large part of the annual 100 billion dollar losses attributed to nematode damage. This review discussed on mechanism of infection of RKN, the presence of RKN in different kind of crops, and the importance of an intergrated approach used in Meloidogyne spp. management strategies. Meloidogyne spp. management strategies.
Hydrogen peroxide (H2O2) is a broad-range chemical catalyst that is receiving rapidly increasing attention recently due to its role as a signaling molecule in various plant physiological and biochemical processes. A study was carried out to investigate the effects of H2O2 on the plant physiology, root growth, mineral nutrient accumulation, root anatomy, and nematode control of Ficus deltoidea, a slow growing shade tolerant and nematode susceptible medicinal plant. H2O2 at 0 (control), 15, 30, 60, and 90 mM was injected into the root zone of plants weekly. The results showed that the treatment of H2O2 enhanced the accumulation of pigments, photosynthetic characteristics, and quantum yield (Fv/Fm) of F. deltoidea. H2O2 at a 90 mM treatment significantly increased seedling height, leaf number, syconium number, biomass yield, relative water content, leaf dry matter, leaf moisture, and live line fuel moisture of the plant by 1.35-, 3.02-, 3.60-, 5.13-, 1.21-, 1.12-, 1.79- and 1.06-fold, respectively, over the control plant. In addition, root growth, which includes root crown diameter, root length, root volume, root tips, number of roots and root biomass, also exhibited the highest values with an application of 90 mM of H2O2. Heavy metals arsenic (As+) and antimony (Sb+) content in the leaves decreased by 4.08-and 1.63-fold, respectively, in the 60 mM H2O2 treated plant when compared to the control plant. In addition, 90 mM H2O2 was the best treatment for magnesium (Mg2+), calcium (Ca2+), and sodium (Na+) mineral accumulation in the syconium of F. deltoidea. Treatments with 60 mM H2O2 increased magnesium (Mg2+), calcium (Ca2+), and potassium (K+) content in leaves by 14%, 19%, and 15%, respectively, over the control plant. In the study of controlling root-knot nematode, both control and 15 mM treatments produced many root galls, whereas, 60 mM H2O2 treatment produced fewer tiny root galls and 90 mM of H2O2 showed no root gall formation. H2O2 treatments reduced root gall size, root/shoot ratio, and increased the shoot biomass of plants. The treated root developed an epidermal suberin, root periderm, resin duct, cortex, druses, and a well-developed vascular system compared to the control plants. Furthermore, no nematodes were observed in the roots of treated plants with 30–90 mM H2O2. The study concluded that injections of 60–90 mM H2O2 to the root zone weekly improved plant physiology, increased mineral accumulation, root growth and development, reduced root gall formation, improved root cellular structure, and controlled root-knot nematode of F. deltoidea plants.
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