Full TGIF Record for: 124641 |
| DOI: | 10.1094/PDIS-91-5-0565 |
| Web URL: | 
Last checked 11/29/2007
Requires: Adobe Acrobat.
Access conditions: Document is within a limited-access website. |
| Author(s): | Kaminski, John E.; Dernoeden, Peter H.; Fidanza, Michael A. |
| Author Affiliation: | Kaminski: Department of Plant Science, University of Connecticut, Storrs, Connecticut; Dernoeden: Department of Plant Science and Landscape Architecture, University of Maryland, College Park, Maryland; Fidanza: Berks Campus, Pennsylvania State University, Reading, Pennsylvania |
| Title: | Environmental monitoring and exploratory development of a predictive model for dead spot of creeping bentgrass |
| Section: | Research
Records with this section |
| Source: | Plant Disease. Vol. 91, No. 5, May 2007, p. 565-573. |
| # of Pages: | 9 |
| Publishing Information: | St. Paul, MN: American Phytopathological Society |
| Keywords: | Environmental monitoring; Disease forecasting; Agrostis palustris; Ophiosphaerella agrostis; Spore germination; Soil temperature; Models |
| Abstract: | "Dead spot of creeping bentgrass is incited by Ophiosphaerella agrostis. The objectives of this 3- year field study were to: (i) elucidate environmental conditions associated with the expression of dead spot symptoms, (ii) develop a model to assist in predicting the appearance of dead spot symptoms and epidemics in creeping bentgrass, and (iii) elucidate the association between ascospore release and the appearance of new dead spot symptoms. Environmental parameters measured included relative humidity (RH), air (AT) and soil (ST) temperatures, solar irradiance (SOL), precipitation and irrigation (RAIN), and leaf wetness duration (LWD). Dead spot symptoms generally did not occur at temperatures (air or soil) below 15°C. Two descriptive models were developed that predicted the appearance of dead spot symptoms with an accuracy of 74 to 80%. Between 1 May and 31 October 2000 to 2002,
the appearance of new dead spot infection centers was most accurately predicted (80%) by the single parameter of STMean > 20°C. In years with severe levels of dead spot, the occurrence of major infection events was predicted on 37 of 40 days (93%). A combination of elevated air (ATMax > 27°C) and soil (STMean > 18°C) temperatures, low relative humidity (RHMean < 80%), shortened periods of leaf wetness (LWD < 14 h), and high levels of solar radiation (SOLMean > 230 W m-2) were associated with the development of major dead spot epidemics. Ascospore discharge and the appearance of new infection centers occurred in a cyclic pattern that peaked about every 12 days. New infection centers appeared 3 to 10 days after the release of a large number of ascospores." |
| Language: | English |
| References: | 27 |
| Note: | Tables |
| Note: | Graphs |
| | ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Kaminski, J. E., P. H. Dernoeden, and M. A. Fidanza. 2007. Environmental monitoring and exploratory development of a predictive model for dead spot of creeping bentgrass. Plant Dis. 91(5):p. 565-573. |
| | Fastlink to access this record outside TGIF: http://www.lib.msu.edu/cgi-bin/flink.pl?recno=124641 |
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| | DOI: 10.1094/PDIS-91-5-0565 |
| | Web URL:
Last checked 11/29/2007
Requires: Adobe Acrobat.
Access conditions: Document is within a limited-access website. |
| | MSU: SB 599 .P95 |
| | Available from TIC Sequential File: X |