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Coffee rust is the most economically important coffee disease in the world, and in monetary value, coffee is the most important agricultural product in international trade. Even a small reduction in coffee yields or a modest increase in production costs caused by the rust has a huge impact on the coffee producers, the support services, and even the banking systems in those countries whose economies are absolutely dependent on coffee export (Arneson, 2000). | Coffee rust is the most economically important coffee disease in the world, and in monetary value, coffee is the most important agricultural product in international trade. Even a small reduction in coffee yields or a modest increase in production costs caused by the rust has a huge impact on the coffee producers, the support services, and even the banking systems in those countries whose economies are absolutely dependent on coffee export (Arneson, 2000). | ||
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The fungus responsible of the “coffee leaf disease” ''Hemileia vastatrix'' belongs to the class Basidiomycetes, the order Uredinales, and family Pucciniaceae. Even though it is capable of producing urediniospores and basidiospores, only the former infect the coffee plant while the latter have no known susceptible host. Urediniospores infect usually during rainy seasons, since germination requires a 24 to 48 hour continuous presence of free water (rain or heavy dew). Infection occurs over a wide range of temperature: from 15°C to 28°C with an optimum of 22°C, and only occurs through stomata on the underside of the leaf, so it does not form the pustules typical of many rusts. The infected leaves drop prematurely, which reduces photosynthetic capacity and weakens the plant, altogether reducing next season’s berry yield (as much as 10-fold) (Arneson, 2000). | The fungus responsible of the “coffee leaf disease” ''Hemileia vastatrix'' belongs to the class Basidiomycetes, the order Uredinales, and family Pucciniaceae. Even though it is capable of producing urediniospores and basidiospores, only the former infect the coffee plant while the latter have no known susceptible host. Urediniospores infect usually during rainy seasons, since germination requires a 24 to 48 hour continuous presence of free water (rain or heavy dew). Infection occurs over a wide range of temperature: from 15°C to 28°C with an optimum of 22°C, and only occurs through stomata on the underside of the leaf, so it does not form the pustules typical of many rusts. The infected leaves drop prematurely, which reduces photosynthetic capacity and weakens the plant, altogether reducing next season’s berry yield (as much as 10-fold) (Arneson, 2000). |
Revision as of 16:03, 29 June 2012
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The Problem
Coffee rust is the most economically important coffee disease in the world, and in monetary value, coffee is the most important agricultural product in international trade. Even a small reduction in coffee yields or a modest increase in production costs caused by the rust has a huge impact on the coffee producers, the support services, and even the banking systems in those countries whose economies are absolutely dependent on coffee export (Arneson, 2000).
The fungus responsible of the “coffee leaf disease” Hemileia vastatrix belongs to the class Basidiomycetes, the order Uredinales, and family Pucciniaceae. Even though it is capable of producing urediniospores and basidiospores, only the former infect the coffee plant while the latter have no known susceptible host. Urediniospores infect usually during rainy seasons, since germination requires a 24 to 48 hour continuous presence of free water (rain or heavy dew). Infection occurs over a wide range of temperature: from 15°C to 28°C with an optimum of 22°C, and only occurs through stomata on the underside of the leaf, so it does not form the pustules typical of many rusts. The infected leaves drop prematurely, which reduces photosynthetic capacity and weakens the plant, altogether reducing next season’s berry yield (as much as 10-fold) (Arneson, 2000).
Arneson, P. A. (2000). Coffee rust. The Plant Health Instructor. doi:10.1094/PHI-I-2000-0718-02