Difference between revisions of "Team:Bordeaux/Problem"
Line 70: | Line 70: | ||
<br> <br> | <br> <br> | ||
<h6 align="justify"> Infection Mode of Downy Mildew</h6> | <h6 align="justify"> Infection Mode of Downy Mildew</h6> | ||
− | <p align="justify" style="text-indent: 3vw;"> Downy mildew requires a warm, moist, and humid environment to reproduce and infect the plant. Common symptoms include necrosis of the stem or shoot, discoloration, brown spotting and yellowish-green tips of the leaves and mycelium invasion of the grapes. </p> | + | <p align="justify" style="text-indent: 3vw;"> Downy mildew requires a warm, moist, and humid environment to reproduce and infect the plant. Generally, a correlation exists between low rainfall during the winter-spring period and slight epidemics, although an abundance of rain during the same period does not appear to be sufficient in the absence of at least two primary infection events (Baldacci, 1947). Mature oospores germinate best if their outer walls are ruptured, possibly as a result of a light freeze and sufficient humidity. The germination of oospores requires soil temperatures of 12 to 13°C (occasionally 11°C) and moisture. Common symptoms include necrosis of the stem or shoot, discoloration, brown spotting and yellowish-green tips of the leaves and mycelium invasion of the grapes.</p> |
<p align="justify"> In winter, <i> Plasmopara viticola </i> is present on dead leaves on the ground as oospores. They are inactive and do not produce any symptoms. When rain falls during spring, these eggs grow and release zoospores when the temperature exceeds 11 degrees. The zoospores will be able to spread and infect the plant's upper tissues through rainwater's splashes. </p> | <p align="justify"> In winter, <i> Plasmopara viticola </i> is present on dead leaves on the ground as oospores. They are inactive and do not produce any symptoms. When rain falls during spring, these eggs grow and release zoospores when the temperature exceeds 11 degrees. The zoospores will be able to spread and infect the plant's upper tissues through rainwater's splashes. </p> | ||
<p align="justify">The primary contamination begins by the emission of a filament through the stomatal area where the parasite begins to develop sinkers from which is formed the mycelial network. These sinkers help to feed <i>Plasmopara viticola </i> by stealing the plant's nutrients, which creates discolored and yellowish areas on the it's leaves called “oil stains”. After, on leaves bottom, conidiophores and conidia are formed. These symptoms cause damages to the leaves’ tissues and affect the plant’s photosynthetic ability, which slows down the maturity of the plant.</p> | <p align="justify">The primary contamination begins by the emission of a filament through the stomatal area where the parasite begins to develop sinkers from which is formed the mycelial network. These sinkers help to feed <i>Plasmopara viticola </i> by stealing the plant's nutrients, which creates discolored and yellowish areas on the it's leaves called “oil stains”. After, on leaves bottom, conidiophores and conidia are formed. These symptoms cause damages to the leaves’ tissues and affect the plant’s photosynthetic ability, which slows down the maturity of the plant.</p> |
Revision as of 12:29, 3 August 2015