Your search keyword '"Noland TL"' showing total 5 results

1. Vegetation stress detection through chlorophyll a + b estimation and fluorescence effects on hyperspectral imagery.

Author

Zarco-Tejada PJ, Miller JR, Mohammed GH, Noland TL, and Sampson PH

Subjects

Acer, Chlorophyll A, Environmental Pollutants adverse effects, Fluorescence, Reference Values, Spacecraft, Spectrum Analysis, Chlorophyll analysis, Environmental Monitoring methods, Models, Theoretical, Plant Leaves chemistry

Abstract

Physical principles applied to remote sensing data are key to successfully quantifying vegetation physiological condition from the study of the light interaction with the canopy under observation. We used the fluorescence-reflectance-transmittance (FRT) and PROSPECT leaf models to simulate reflectance as a function of leaf biochemical and fluorescence variables. A series of laboratory measurements of spectral reflectance at leaf and canopy levels and a modeling study were conducted, demonstrating that effects of chlorophyll fluorescence (CF) can be detected by remote sensing. The coupled FRT and PROSPECT model enabled CF and chlorophyll a + b (Ca + b) content to be estimated by inversion. Laboratory measurements of leaf reflectance (r) and transmittance (t) from leaves with constant Ca + b allowed the study of CF effects on specific fluorescence-sensitive indices calculated in the Photosystem I (PS-I) and Photosystem II (PS-II) optical region, such as the curvature index [CUR; (R675.R690)/R2(683)]. Dark-adapted and steady-state fluorescence measurements, such as the ratio of variable to maximal fluorescence (Fv/Fm), steady state maximal fluorescence (F'm), steady state fluorescence (Ft), and the effective quantum yield (delta F/F'm) are accurately estimated by inverting the FRT-PROSPECT model. A double peak in the derivative reflectance (DR) was related to increased CF and Ca + b concentration. These results were consistent with imagery collected with a compact airborne spectrographic imager (CASI) sensor from sites of sugar maple (Acer saccharum Marshall) of high and low stress conditions, showing a double peak on canopy derivative reflectance in the red-edge spectral region. We developed a derivative chlorophyll index (DCI; calculated as D705/D722), a function of the combined effects of CF and Ca + b content, and used it to detect vegetation stress.

Published

2002

2. Temperature effects on seed imbibition and leakage mediated by viscosity and membranes.

Author

Murphy JB and Noland TL

Abstract

The possible involvement of membranes and water viscosity in the temperature effects on imbibition and solute leakage of radish (Raphanus sativa var. Early Scarlet Globe) seeds and excised sugar pine (Pinus lambertiana Dougl.) embryos was evaluated. In these two seed materials, the temperature effect on initial rates of imbibition and solute leakage could be accounted for primarily by changes in water viscosity, the relationship being approximately linear. It appears that membranes are involved both in water uptake and solute leakage. Heat-killed radish seeds and sugar pine embryos exhibited significantly higher rates of imbibition and solute leakage than did viable ones. In addition, sugar pine embryos exhibited an abrupt change in rates of imbibition and solute leakage between 15 and 20 degrees C, resulting in abnormally high water uptake and solute leakage above this temperature.

Published

1982

3. A method for quantification of the level of somatic embryogenesis among Norway spruce callus lines.

Author

Becwar MR, Noland TL, and Wann SR

Abstract

A method for quantitative determination of the level of somatic embryogenesis in Norway spruce embryogenic callus is described. Embryogenic callus was dispersed in liquid by agitation and plated in a thin layer of medium containing 0.6% low melting point agarose. The number of embedded somatic embryos per mg of callus ranged from 0.2 to 1.5 among 11 embryogenic callus lines surveyed. Each callus line was derived from an individual immature embryo explant. Further development occurred as somatic embryos grew out of the agarose layer. This method was useful for identifying highly embryogenic callus lines among phenotypically similar lines, and should be useful for quantitatively determining the effect of medium and growth regulator modifications on somatic embryo density and developmental capacity.

Published

1987

4. Temperature effects on oxidative metabolism of dormant sugar pine seeds.

Author

Murphy JB and Noland TL

Abstract

When dormant sugar pine (Pinus lambertiana L.) seeds were imbibed at 5 degrees C, they showed a rapid increase in O(2) uptake, ATP level, and moisture content during the first 4 days. This was followed by a plateau phase until 60 days, after which a second significant increase in all three features occurred as dormancy was broken. During the plateau phase, conventional CN-sensitive respiration accounted for 74 to 79% of the total O(2) uptake. When dormant sugar pine seeds were imbibed at and maintained at 25 degrees C, a different pattern occurred. Water uptake was much more rapid during the first 4 days and no second increase occurred after 60 days because the seeds did not break dormancy. There was an initial burst of O(2) uptake and ATP formation, but these both declined abruptly after 24 to 48 hours. Levels about half those of seeds at 5 degrees C were maintained through the rest of a 90-day period. CN-sensitive respiration declined during imbibition at 25 degrees C, and accounted for only 55 to 61% of the total O(2) uptake. The inability of dormant sugar pine seeds to germinate at temperatures above about 17 degrees C may therefore result from initial temperature effects on membrane properties, leading to reduced O(2) uptake, reduced cytochrome oxidase electron transport activity, and lowered ATP levels.

Published

1982

5. Biochemical differences between embryogenic and nonembryogenic callus of Picea abies (L.) Karst.

Author

Wann SR, Johnson MA, Noland TL, and Carlson JA

Abstract

Both embryogenic and nonembryogenic calli of Picea abies (L.) Karst. were initiated from the hypocotyl region of immature embryos. The two callus phenotypes were manually separated and subsequently maintained independently, but under identical culture conditions. Biochemical analysis of the two phenotypes revealed significant differences in ethylene evolution rate and in concentrations of glutathione and total reductants. Due to the constancy of the genetic background, age and growth conditions of the two callus types, differences in the measured quantities are not likely to be traceable to the genetic origin of the callus and serve to highlight biochemical changes associated with somatic embryogenesis in Norway spruce.

Published

1987