Burkholderia glumae

Burkholderia glumae is a Gram-negative soil bacterium.

Burkholderia glumae
Scientific classification
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Binomial name
Burkholderia glumae
(Kurita and Tabei 1967)
Urakami et al. 1994
Synonyms

Pseudomonas glumae Kurita and Tabei 1967

In rice

Symptoms of bacterial panicle blight include seedling blighting and sheath rot in addition to panicle blighting, which accounts for most of the damage from this disease. Affected panicles have blighted florets, which initially show white or light gray on the basal third with a dark-brown margin and eventually become straw-colored. The florets then turn dark with growth of fungi or bacteria on the surface. Extensive occurrence of upright panicles because of the failure of grain-filling and seed development is a typical phenomenon observed in a severely infested field. Prolonged high temperature during the growing season is an important environmental condition that promotes the development of bacterial panicle blight.

Severe epidemics of this disease, which caused up to 40 percent yield losses in some fields, occurred during the 1995, 1996, 1998, 2000 and, most recently, 2010 growing seasons, when record-high night temperatures were experienced. Suspected global warming could make bacterial panicle blight a greater threat to rice production in the future. Indeed, occurrence of bacterial panicle blight is increasing not only in the southern United States but in other rice growing countries of Central and South America and Asia.

The disease cycle of bacterial panicle blight is not fully understood in spite of the economic importance of the disease.

The bacterial pathogens are considered to be seed-borne, but they also survive in the soil. After germination of the seed, the bacteria appear to survive on the leaves and sheath and spread upward as the plant grows. Their infection of rice panicles occurs at flowering, if the bacterial population reaches a threshold level and environmental conditions are favorable. They may also be disseminated from severely diseased panicles to neighboring healthy plants, according to the observed spatial distribution patterns of the disease in infested rice fields. However, it is not clear if long-distance dissemination can occur via insect transmission.

Unfortunately, there are few effective control measures for this disease so far. Less nitrogen fertilization reduces disease severity but has not been successful. High temperatures at the vulnerable period can be avoided by early planting, but this cultural practice would become useless if hot weather comes early in the growing season. No pesticides are currently recommended or allowed for controlling this disease in the United States. Copper compounds are weakly effective but sometimes toxic to the plant. Oxolinic acid is useful for seed treatment, and a foliar spray of it is effective on infected plants, but this chemical is not commercially available in the United States.

The research goal on bacterial panicle blight is to develop effective disease control methods based on better understanding of the bacterial virulence mechanism and the rice defense system.

To achieve this goal, LSU AgCenter scientists are conducting several different areas of research. First, scientists are making efforts to develop new rice varieties and lines resistant to bacterial panicle blight through conventional breeding and line development processes. More than 15,000 lines are evaluated annually to select promising lines showing high levels of disease resistance to bacterial panicle blight and other good agronomic traits. The partial-resistant rice varieties and lines, such as Jupiter and LM-1, were developed from this program. Second, scientists are conducting genetic and molecular biological studies on the rice disease resistance to bacterial panicle blight. Genetic mapping to identify the rice genes associated with disease resistance is under way. In addition, the induction of a rice defense system by pretreatment of various chemical materials, which leads to enhanced disease resistance, is being studied. Finally, scientists are studying the molecular genetics and genomics of the major pathogen, B. glumae, to understand the mechanism underlying its bacterial pathogenesis in rice.

Genetic elements governing the production of virulence factors are being identified and characterized.

Authors Jong Hyun Ham, Assistant Professor, Department of Plant Pathology & Crop Physiology, LSU AgCenter, Baton Rouge, La.; and Donald E. Groth, Florence Avalon

Daggett Professor, Rice Research Station, Crowley, La.

References

    Further reading

    • Louisiana Agriculture Summer 2011, Vol. 54, No. 3 page 16 - 17 the potential devastation of bacterial panicle blight in rice.
    • Agrilife research, Texas. September 2010 Volume X Number 7 page 4-8
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