Integrated Use of Endothall and a Fungal Pathogen for Management of the Submersed Aquatic Macrophyte Hydrilla verticillata<sup>1</sup>

Shearer, Judy F.; Nelson, Linda S.

doi:10.1614/0890-037x(2002)016[0224:iuoeaa]2.0.co;2

Cited by 22 publications

(25 citation statements)

References 5 publications

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“…O hábito perene de crescimento, a profundidade de colonização, a facilidade de propagação por segmentos de plantas e o próprio ambiente aquático, levando à diluição de agentes de controle, são problemas a serem enfrentados. No entanto, o hábito perene e a formação de grandes colonizações as tornam alvos ideais para a adoção de medidas de controle biológico (Shearer, 1996). Este mesmo autor destaca o controle biológico como a medida mais viável para esse tipo de vegetação.…”

Section: Introductionunclassified

Influência do fotoperíodo e da temperatura na intensidade de doença causada por Fusarium graminearum em Egeria densa e E. najas

2005

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Section: Introductionunclassified

Influência do fotoperíodo e da temperatura na intensidade de doença causada por Fusarium graminearum em Egeria densa e E. najas

2005

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“…Shearer and Nelson (2002) evaluated co-application of M. terrestris with the herbicide endothall to improve control of hydrilla (Hydrilla verticillata) and also to minimize injury to non-target vegetation. At high treatment levels, both the pathogen and the herbicide have been reported to cause disease or injury to other plants (Shearer and Nelson, 2002;Shearer and Jackson, 2006). When used together, however, greater than 90% control was achieved in mesocosm studies, even with reduced rates of endothall and M. terrestris.…”

Section: Compatibility Of Bioherbicides With Other Management Practicesmentioning

confidence: 99%

“…When used together, however, greater than 90% control was achieved in mesocosm studies, even with reduced rates of endothall and M. terrestris. Non-target plant injury still occurred, but the researchers suggested that this integrated control offered a means of effective hydrilla control while altering the dosage of bioherbicide and chemical herbicide to protect desirable vegetation (Shearer and Nelson, 2002).…”

Section: Compatibility Of Bioherbicides With Other Management Practicesmentioning

confidence: 99%

Bioherbicides for weed control.

Weaver¹,

Lyn²,

Boyette³

et al. 2007

Non-Chemical Weed Management: Principles, Concepts and Technology

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This chapter focuses on the use of plant pathogens as bioherbicides (e.g. mycoherbicides) for weed control. The application technology of bioherbicides is discussed, as well as their compatibility with other weed management practices. Through a pragmatic understanding of economic constraints and safety, the intelligent use of formulation and deployment methods, and with genetic engineering, the pathogen discoveries of the past might be harnessed as the bioherbicides of the future.

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“…Within 8 days, hydrilla tissues were completely colonized by the pathogen. Subsequent hydrilla collections in Texas resulted in the isolation of a very aggressive strain of M. terrestris that demonstrated excellent potential for hydrilla control alone or in combination with chemical herbicides (Netherland and Shearer 1996;Shearer 1997Shearer , 1998Nelson, Shearer, and Netherland 1998;Shearer and Nelson 2002).…”

Section: Introductionmentioning

confidence: 99%

The impact of temperature on the production and fitness of microsclerotia of the fungal bioherbicideMycoleptodiscus terrestris

Jackson

Dunlap

Shearer

et al. 2011

Biocontrol Science and Technology

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The impact of growth temperature was evaluated for the fungal plant pathogen Mycoleptodiscus terrestris over a range of temperatures (20Á368C). The effect of temperature on biomass accumulation, colony forming units (cfu), and microsclerotia production was determined. Culture temperatures of 24Á308C produced significantly higher biomass accumulations and 20Á248C resulted in a significantly higher cfu. The growth of M. terrestris was greatly reduced at temperatures above 308C and was absent at 368C. The highest microsclerotia concentrations were produced over a wide range of temperatures (20Á308C). These data suggest that a growth temperature of 248C would optimize the parameters evaluated in this study. In addition to growth parameters, we also evaluated the desiccation tolerance and storage stability of air-dried microsclerotial preparations from these cultures during storage at 48C. During 5 months storage, there was no significant difference in viability for air-dried microsclerotial preparations from cultures grown at 20Á308C (!72% hyphal germination) or in conidia production (sporogenic germination) for air-dried preparations from cultures grown at 20Á328C. When the effect of temperature on germination by air-dried microsclerotial preparations was evaluated, data showed that temperatures of 22Á308C were optimal for hyphal and sporogenic germination. Air-dried microsclerotial preparations did not germinate hyphally at 368C or sporogenically at 20, 32, 34, or 368C. These data show that temperature does impact the growth and germination of M. terrestris and suggest that water temperature may be a critical environmental consideration for the application of air-dried M. terrestris preparations for use in controlling hydrilla.

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Integrated Use of Endothall and a Fungal Pathogen for Management of the Submersed Aquatic Macrophyte Hydrilla verticillata¹

Cited by 22 publications

References 5 publications

Influência do fotoperíodo e da temperatura na intensidade de doença causada por Fusarium graminearum em Egeria densa e E. najas

Influência do fotoperíodo e da temperatura na intensidade de doença causada por Fusarium graminearum em Egeria densa e E. najas

Bioherbicides for weed control.

The impact of temperature on the production and fitness of microsclerotia of the fungal bioherbicideMycoleptodiscus terrestris

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Integrated Use of Endothall and a Fungal Pathogen for Management of the Submersed Aquatic Macrophyte Hydrilla verticillata1

Cited by 22 publications

References 5 publications

Influência do fotoperíodo e da temperatura na intensidade de doença causada por Fusarium graminearum em Egeria densa e E. najas

Influência do fotoperíodo e da temperatura na intensidade de doença causada por Fusarium graminearum em Egeria densa e E. najas

Bioherbicides for weed control.

The impact of temperature on the production and fitness of microsclerotia of the fungal bioherbicideMycoleptodiscus terrestris

Contact Info

Product

Resources

About

Integrated Use of Endothall and a Fungal Pathogen for Management of the Submersed Aquatic Macrophyte Hydrilla verticillata¹