Distribution, Severity, and Spread of Armillaria Root Disease in Kenya Tea Plantations
J M Onsando,P M Wargo,S W Waudo +2 more
TLDR
In tea plantations derived from clonal cuttings, secondary disease spread from infected to healthy tea plants was more important resulting in large disease centers or gaps due to plant death and removal, and soil sanitation by thorough removal of roots of forest trees and prompt removal of infected tea bushes is the best available management practice.Abstract:
Surveys for Armillaria root disease severity were conducted over a 5-year period in small tea farms (0.5 to 1.0 ha) in the 12 tea-growing districts of Kenya. The disease occurred in all tea districts, but severity was greater in the districts east of the Rift Valley. Disease severity was associated with relative amounts of residual woody debris, especially roots, from trees and shrubs present when the land was converted to tea plantations. Excavation of tea bushes in disease centers showed that infection of tea bushes occurred primarily by mycelial growth from residual tree roots and from infected tea roots rather than from rhizomorphs. Rhizomorphs were scarce, and rarely involved in infection. They were confined mostly to the surface of the residual tree roots and were found growing freely in the soil in only one tea district. Rhizomorphs were more abundant in higher elevation plantations than in lower elevation plantations, where they occurred only on residual tree roots in the deeper, cooler, moister levels of the soil. Inoculum from residual tree debris in the soil was the most important source of infection in plantations of seed origin. Secondary spread from infected tea plants to healthy ones was limited and disease centers were small. In tea plantations derived from clonal cuttings, secondary disease spread from infected to healthy tea plants was more important resulting in large disease centers or gaps due to plant death and removal. Currently, soil sanitation by thorough removal of roots of forest trees and prompt removal of infected tea bushes is the best available management practice.read more
Citations
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Basal stem rot of oil palm (Elaeis guineensis); mode of root infection and lower stem invasion by Ganoderma boninense.
TL;DR: In this article, a reproducible infection of intact roots of oil palm (Elaeis guineensis) with Ganoderma boninense, the cause of basal stem rot, showed penetration followed by rapid longitudinal progression of hyphae and colonization of the lower stem.
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Effects of inoculum potential, shading and soil temperature on root infection of oil palm seedlings by the basal stem rot pathogen Ganoderma boninense
TL;DR: Using isolates differing in aggressiveness, infection via roots was confirmed and it was shown that large inoculum provided as Ganoderma-infested palm- or rubber-wood blocks is necessary for soil infection of seedlings after 6–8 months, suggesting G. boninense is a poor competitor and that roots must contact inoculum directly.
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Efficacy of soil solarization, Trichoderma harzianum, and coffee pulp amendment against Armillaria sp
TL;DR: Application of 20g of the wheat bran culture of the antagonist in every 1000cm(3) of soil surrounding the blocks of inoculum, following solarization for 5 week, caused total loss of Armillaria inoculum viability and was similar to 10 week of solarization without application of the antagonists.
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Characterization of Armillaria isolates from tea (Camellia sinensis) in Kenya
TL;DR: Two Armillaria species were present and they were different from A. heimii and morphological and molecular data strongly suggest that it could be a new Armillsaria species.
References
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The Climatic Requirements of the Tea Plant: A Review
TL;DR: An attempt is made to define quantitatively the climatic conditions needed to maintain growth rates at a high level of the tea plant.
Journal ArticleDOI
Effects of soil temperature and atmosphere on growth of Armillaria rhizomorphs
TL;DR: The dry weight of rhizomorphs produced by isolates of Armillaria from different parts of the world was usually maximal at 20° and minimal at temperatures below 10° or above 26° in sandy soil pH 4.5.