Sharon Maggard scite author profile

Twenty‐two cultivars of rice (Oryza sativa L.) from diverse origins were grown under greenhouse conditions and exposed to ultraviolet‐B radiation (UV‐B; 280‐320 nm) simulating a 5% reduction in stratospheric ozone in spring for the Philippines (14° N lat.) to evaluate growth and morphological responses to UV‐B. In comparison to controls that received no UV‐B, plants exposed to UV‐B exhibited significantly reduced dry matter production (total plant and shoot), shoot height, leaf blade length and total leaf area, increased number of tillers, and greater weight fractions in leaf blades and roots. For most cultivars, the relative effects of UV‐B on shoot morphology were greater than the effects on biomass production. The direction of the UV‐B effects were generally similar for all cultivars, however, there were significant differences among cultivars in the magnitude of the UV‐Binduced changes. Upland cultivars (IRAT104 and OS4) and two lowland cultivars commonly planted in the USA (Star Bonnet and Lemont) were found to be least affected by the UV‐B, whereas modern, high yielding, lowland cultivars developed in the Philippines (IR52, IR35546‐17‐33, and IR58) were found to be among the most sensitive to UV‐B. Our results indicate that in rice, as in other grasses, shoot morphology may be more responsive to solar UV‐B change than plant productivity. Intraspecific variation in morphological responses to UVB could contribute to differences among cultivars in susceptibility to UV‐B‐induced changes in competitive balance between rice and associated weeds of the rice agroecosystem.

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Uptake and photodegradation of 2,3,7,8-tetrachlorodibenzo-p-dioxin sorbed to grass foliage

McCrady¹,

Maggard²

1993

Environ. Sci. Technol.

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Carbohydrate use and assimilation by litter and soil fungi assessed by carbon isotopes and BIOLOG® assays

Hobbie

Watrud

Maggard³

et al. 2003

Soil Biology and Biochemistry

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Soil and litter organisms in Pacific northwest forests under different management practices

Donegan¹,

Watrud

Seidler

et al. 2001

Applied Soil Ecology

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Determination of viability within serotypes of a soil population of Rhizobium leguminosarum bv. trifolii

Bottomley

Maggard

1990

Appl Environ Microbiol

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Concern has been raised about the percentage of viable cells within soil rhizobia populations measured by the immunofluorescence direct count method. The purpose of this study was to evaluate a direct viable count technique which is based on the fact that viable bacteria in natural populations undergo cell elongation when they are exposed to a combination of substrate and the inhibitor of DNA gyrase, nalidixic acid. A soil extraction procedure was developed to recover a high proportion of soil bacteria (ca. 109/g of soil) in suspensions with an optical clarity suitable for accurate microscopic enumeration. After incubation for 16 to 20 h at 27°C in the presence of yeast extract (200 mg/liter) and nalidixic acid (10 mg/liter), between 65 and 74% of the bacteria in soil suspension became significantly elongated (.4.2 ,um). In contrast, .0.5% of the same population could be cultured, regardless of the medium composition, nutrient concentration, or incubation conditions. The direct viable count method was combined with immunofluorescence to compare the percent viability and kinetics of appearance of elongated cells within serotypes of a soil population of Rhizobium leguminosarum bv. trifolii. Although the majority of these organisms were viable, as observed by immunofluorescence, we obtained evidence that subpopulations within the soil rhizobia community were in different states of competence to respond to substrate. A consistently low percentage (<30%) of the population of serotype 23 was elongated even after 24 h of incubation and regardless of when the soil was sampled. Although the population densities of serotypes 6 and 36 were similar (0.8 x 106 to 2.0 x 106/g), the appearance of elongated cells of serotype 36 was consistently delayed relative to the appearance of elongated cells of serotype 6, and the maximum percentage of elongated cells of serotype 36 was less than that of serotype 6 when either a low substrate concentration (50 mg/liter) was used or the soil was air-dried before the bacteria were recovered. * Corresponding author. t Oregon State University Agricultural Experiment Station technical paper 8715.

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Sharon Maggard

Intraspecific Variation in Sensitivity to UV‐B Radiation in Rice

Uptake and photodegradation of 2,3,7,8-tetrachlorodibenzo-p-dioxin sorbed to grass foliage

Carbohydrate use and assimilation by litter and soil fungi assessed by carbon isotopes and BIOLOG® assays

Soil and litter organisms in Pacific northwest forests under different management practices

Determination of viability within serotypes of a soil population of Rhizobium leguminosarum bv. trifolii

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