Ascospore discharge by Neofabraea populi, a cortical pathogen on Populus

Kurkela, Timo

doi:10.29203/ka.1997.322

Cited by 2 publications

(1 citation statement)

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“…Perhaps the patchiness serves to provide a steady stream of ascospores for capture of newly available substrate (newly dead leaf blades). Or perhaps we did not satisfactorily standardize our collected leaf samples; i.e., perhaps our blades were unexpectedly variable in state of decay and/ or in impact of environmental variables influencing asco-spore maturation and release such as rain, dew, tides, solar irradiation, invertebrate mycophagy (see Arseniuk et al, 1998;Graca et al, 2000;Ingold, 1971;Jailloux et al, 1999;Kurkela, 1997;Newell and Porter, 2000;Paulitz, 1996).…”

Section: Discussionmentioning

confidence: 99%

Measuring summer patterns of ascospore release by saltmarsh fungi

Newell

Zakel

2000

Mycoscience

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One potentially important type of flux from standing-decaying marshgrass is the production and release of ascospores. The most extensive measurements of ascospore release from the principal marshgrass (Spartina alterniflora, smooth cordgrass) of saltmarshes of the eastern coastal United States involved an arbitrary, weeklong period of wet incubation of leaf-blade samples. We examined the possibility that shorter incubations would yield higher estimates of hourly rates of ascospore release, testing wet incubations of 3 to 71 h, using standing-decaying leaf blades of smooth cordgrass from low on living shoots and high on dead shoots, incubations of 31 h appeared to be optimal. Species compositions of ascospores expelled from the two leaf types were distinctly different: high leaves yielded primarily a Mycosphaerella species or Phaeosphaeria halima; low leaves yielded primarily Phaeosphaeria spartinicola or the Mycosphaerella species. All of these species consistently exhibited high coefficients of variation (>100%) for their mean rates of release of ascospores. Only the Mycosphaerella species on high leaves gave evidence of a delayed onset of ascospore expulsion during incubation, and this evidence was equivocal. Grand mean rates of ascospore release for P. spartinicola and the Mycosphaerella species were, respectively, 106 and 238 spores cm -2 abaxial leaf area h-1.Key Words ascomycetes; ascospore-expulsion rate; marshgrass; Mycosphaerella; Phaeosphaeria.Flow to secondary production by ascomycetous fungi is the primary destiny of dead shoots of smooth cordgrass (Spartina alterniflora Loisel), the highly photosynthetically productive grass of eastern USA saltmarshes (Newell, 1996;Newell and Porter, 2000), prior to movement into the marsh's trophic relay (Kneib, 1997). Newell and Wasowski (1995) attempted to measure one form of ascomycetous production from smooth cordgrass, as rate of output of meiospores (ascospores). They recorded the rate of deposition of ascospores onto target coverslips for wetted, naturally-decaying leaf blades. They used one arbitrarily chosen standard incubation period (168 h) for the ascospore-releasing blades. Newell and Wasowski (1995) counted ascospores only for the two species of ascomycetes (Phaeosphaeria spartinicola Leuchtmann and Buergenerula spartinae Kohlm. & Gessner) that they detected by direct-microscopic enumeration as the major producers of mature ascomata in naturally decaying blades low on partially living shoots. It was subsequently discovered that a prominent ascospore-producing species in standing-decaying smoothcordgrass blades is Mycosphaerella sp. 2 (of Kohlmeyer and Kohlmeyer, 1979), which has smaller, more cryptic ascomata than the ascomata of P, spartinicola with which they are often mixed (Newell and Porter, 2000). We report here our attempt to improve interpretability of the ascospore-capture technique as used with saltmarsh grasses; the resultant data add to the currently meager Corresponding author. E-mail, newell(~uga.edu definition of the spatiotemporal patte...

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