Dutch
Albanian
Arabic
Armenian
Azerbaijani
Belarusian
Bengali
Bosnian
Catalan
Czech
Danish
Deutsch
Dutch
English
Estonian
Finnish
Français
Greek
Haitian Creole
Hebrew
Hindi
Hungarian
Icelandic
Indonesian
Irish
Italian
Japanese
Korean
Latvian
Lithuanian
Macedonian
Mongolian
Norwegian
Persian
Polish
Portuguese
Romanian
Russian
Serbian
Slovak
Slovenian
Spanish
Swahili
Swedish
Turkish
Ukrainian
Vietnamese
Български
中文(简体)
中文(繁體)
Plant Disease 2008-Mar

Evaluation of Disease Thresholds and Predictors for Managing Late Blight in Celery.

Alleen geregistreerde gebruikers kunnen artikelen vertalen
Log in Schrijf in
De link wordt op het klembord opgeslagen
R Bounds
M Hausbeck

Sleutelwoorden

Abstract

Late blight of celery, incited by Septoria apiicola, results in necrotic lesions on leaves and petioles and reduces yield when it occurs on marketable petioles. Michigan celery growers typically begin applying fungicides 1 to 3 weeks after transplanting and reapply fungicides at 7- to 10-day intervals to manage late blight. Using disease thresholds or predictors to prompt fungicide sprays may reduce the number of applications needed for effective disease control. Weekly treatments of azoxystrobin alternated with chlorothalonil were initiated early (1 week after transplanting), preventively (4 weeks after transplanting), or when disease symptoms were detected at a trace, 5%, or 10% level on 'Dutchess' celery plants in 2003 and 2004. The early and preventive programs were equally effective in preventing petiole blight and yield loss. The preventive program required three fewer applications, at a savings of up to $134/ha, when compared with an early fungicide program initiated 1 week after transplanting. Delaying the initial fungicide application until disease symptoms were detected resulted in high disease levels at harvest that were often similar to untreated control plants. Additional field trials were established in 2004 and 2005 at a research farm where S. apiicola inoculum was applied and at a commercial field where early blight, caused by Cercospora apii, developed from naturally occurring inoculum. A fungicide program that alternated chlorothalonil with azoxystrobin was initiated preventively and reapplied weekly or according to the Septoria predictor or TOM-CAST 10-disease severity value (DSV) and was compared with the standard, weekly application program initiated early. Combining the use of preventive initial applications with the Septoria predictor or TOM-CAST 10-DSV reduced the number of sprays by two to six while providing disease control that was comparable with the standard weekly fungicide program initiated early. These programs reduced fungicide expenditures by $71 to $213/ha compared with the weekly fungicide program initiated early.

Word lid van onze
facebookpagina

De meest complete database met geneeskrachtige kruiden, ondersteund door de wetenschap

  • Werkt in 55 talen
  • Kruidengeneesmiddelen gesteund door de wetenschap
  • Kruidenherkenning door beeld
  • Interactieve GPS-kaart - tag kruiden op locatie (binnenkort beschikbaar)
  • Lees wetenschappelijke publicaties met betrekking tot uw zoekopdracht
  • Zoek medicinale kruiden op hun effecten
  • Organiseer uw interesses en blijf op de hoogte van nieuwsonderzoek, klinische onderzoeken en patenten

Typ een symptoom of een ziekte en lees over kruiden die kunnen helpen, typ een kruid en zie ziekten en symptomen waartegen het wordt gebruikt.
* Alle informatie is gebaseerd op gepubliceerd wetenschappelijk onderzoek

Google Play badgeApp Store badge