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1

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Mean and inter-year variation of growing-season normalized difference vegetation index for the Sahel 1981-1989 (1991)

Los, S. O. ; Newcomb, W. W. ; Prince, S. D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Images are presented that show the mean and coefficient of variation of nine years (1981-1989) of NOAA AVHRR normalized difference vegetation index (NDVI) data for the growing season (July-October) in Africa, north of the equator. The variation in the growing season NDVI is represented by the coefficient of variation image that shows the large variation in the Sahelian growing season between years. It is concluded that these images illustrate some aspects of the perspective being brought to regional and continental scale processes by coarse resolution satellite sensors and the potential of these sensors to provide consistent, long-term datasets.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: International Journal of Remote Sensing (ISSN 0143-1161); 12; 1133-113

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2

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On the behaviour of a stressed cotton canopy in a direct air stream (1986)

Newcomb, W. W. ; Schutt, J. B.

In: Other Sources

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Publication Date: 2011-08-19

Description: Reflectance variations of a stressed cotton canopy were conducted in the presence of a fan-generated air stream to investigate the effects of air movement and the resulting temperature changes on remotely-sensed data. The initial drop in reflectance after application of the air stream was found to be greatest in the morning because leaf turgor was at a maximum, enabling leaves on the windward side of the canopy to assume surprisingly stable vertical positions. By afternoon, a reduction in leaf turgor was responsible for less stem displacement and consequently a reduction in light-trapping capability. However, reflectance oscillations were greater because the leaves had become sufficiently limp to flutter at the edges and about the petioles exposing both adaxial and abaxial surfaces to the incident light.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: International Journal of Remote Sensing (ISSN 0143-1161); 7; 1251-126

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3

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Directional reflectance distributions of a hardwood and pine forest canopy (1986)

Nelson, R. F. ; Schutt, J. B. ; Kimes, D. S. ; [et al.]

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Publication Date: 2011-08-19

Description: A hand-held radiometer with AVHRR bands 1 and 2 was used to measure the directional reflectance distributions for both a hardwood and a pine forest canopy from a helicopter platform; canopy characteristics were also measured on the ground. The reflectance distributions obtained are compared with the scattering behavior of agricultural and natural grassland canopies. In addition, the Kimes (1983) three-dimensional radiative transfer model is used to document the unique radiant transfers that occur in forest canopies in virtue of their geometric structure. Both the measurements and the model calculations show that dense forest canopy scattering is similar to that for crops and grasslands. Attention is given to the effects of sparse forest canopies.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: IEEE Transactions on Geoscience and Remote Sensing (ISSN 0196-2892); GE-24; 281-293

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4

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Monitoring vegetation using Nimbus-7 scanning mutichannel microwave radiometer's data (1987)

Choudhury, B. J. ; Newcomb, W. W. ; Tucker, C. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Field studies and radiative transfer model calculations have shown that brightness temperature at high microwave frequencies is strongly affected by vegetation. The daytime observations for six consecutive years (1979 to 1984) over the Sahara, Senegalese Sahel, Burkina Fasso (Upper Volta), and U.S. Southern Great Plains at 37 GHz frequency of the Sanning Multichannel Microwave Radiometer (SMMR) on board the Nimbus-7 satellite are analyzed, and a high correlation with the normalized difference vegetation index derived from the Advanced Very High Resolution Radiometer on board the NOAA-7 satellite is found. The SMMR data appear to provide a valuable new long-term global data set for monitoring vegetation. In particular, the differing responses of vegetation (for example, annual grasses versus woody plants) to drought and the stability of the desert/steppe boundary of northern Africa might be studied using the time series data.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: International Journal of Remote Sensing (ISSN 0143-1161); 8; 533-538

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5

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Laser-induced fluorescence of green plants. III - LIF spectral signatures of five major plant types (1985)

Newcomb, W. W. ; Chappelle, E. W. ; Wood, F. M., Jr. ; [et al.]

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Publication Date: 2011-08-19

Description: A technique amenable to remote sensing use which utilizes laser-induced fluorescence (LIF) properties of plants has been successfully used in the laboratory to identify five major plant types. These included herbaceous dicots, herbaceous monocots, conifers, hardwoods, and algae. Each of these plant types exhibited a characteristic LIF spectra when excited by a pulsed N2 laser emitting at 337 nm. Although monocots and dicots possess common fluorescence maxima at 440, 685, and 740 nm, they could be differentiated from one another by using the ratio of the square of the fluorescence intensity at 440 nm to the nonsquared intensity at 685 nm, i.e., (440)-squared/685. In all cases, monocots yielded a significantly higher ratio. Conifers have fluorescence maxima at 440, 525, and 740 nm but none at 685 nm. Hardwoods exhibited fluorescence at 440, 525, 685, and 740 nm. Algae had very low fluorescence at 440 nm, no fluorescence at 525 nm, and fluorescence maxima at 685 and 740 nm. For algae, the ratio of the fluorescence intensity at 685 nm to that at 740 nm was much greater than that for monocots, dicots, and hardwoods. The potential use of the LIF technique for individual species identification is suggested.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Applied Optics (ISSN 0003-6935); 24; 74-80

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6

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Spectral radiance errors in remote sensing ground studies due to nearby objects (1983)

Kimes, D. S. ; Newcomb, W. W. ; Kirchner, J. A.

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Publication Date: 2011-08-18

Description: Attention is given to the error that can occur in all radiometric measurements owing to the presence of nearby objects. When a researcher positions himself on the side of a target point opposite the sun, his body gives rise to two erroneous effects. First, it blocks a portion of the incoming diffuse sky radiance to the target point, and second, it reflects incoming diffuse and direct solar irradiance and ground exitance onto the target point. It is noted that the same phenomenon occurs for any nearby object, whether it be a field truck, a building structure, or a row of trees. This error deriving from nearby objects is often not recognized by researchers or is considered insignificant with no knowledge of its magnitude. The approach taken here is to mathematically model the radiant transfers that take place between the global irradiance, panel, or scene and the object and to report the magnitude of this error for various solar zenith angles, wavelengths, size and distances of objects (steradian blockage), and spectral reflectances of the scene and object. The scene, object, and panel are assumed to be Lambertian, and the object is always located on the side of the target point opposite the sun.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Applied Optics; 22; Jan. 1

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7

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Use of Landsat-derived temporal profiles for corn-soybean feature extraction and classification (1982)

Austin, W. W. ; Carnes, J. G. ; Badhwar, G. D.

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Publication Date: 2011-08-18

Description: A physical model is presented, which has been derived from multitemporal-multispectral data acquired by Landsat satellites to describe the behavior and new features that are crop specific. A feasibility study over 40 sites was performed to classify the segment pixels into those of corn, soybeans, and others using the new features and a linear classifier. Results agree well with other existing methods, and it is shown the multitemporal-multispectral scanner data can be transformed into two parameters that are closely related to the target of interest and thus can be used in classification. The approach is less time intensive than other techniques and requires labeling of only pure pixels.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Remote Sensing of Environment; 12; Mar. 198

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8

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Directional reflectance factor distributions of a cotton row crop (1984)

Schutt, J. B. ; Pinter, P. J., Jr. ; Newcomb, W. W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: The directional reflectance factor distribution spanning the entire exitance hemisphere was measured for a cotton row crop (Gossypium barbadense L.) with 39 percent ground cover. Spectral directional radiances were taken in NOAA satellite 7 AVHRR bands 1 and 2 using a three-band radiometer with restricted 12 deg full angle field of view at half peak power points. Polar co-ordinate system plots of directional reflectance factor distributions and three-dimensional computer graphic plots of scattered flux were used to study the dynamics of the directional reflectance factor distribution as a function of spectral band, geometric structure of the scene, solar zenith and azimuth angles, and optical properties of the leaves and soil. The factor distribution of the incomplete row crops was highly polymodal relative to that for complete vegetation canopies. Besides the enhanced reflectance for the antisolar point, a reflectance minimum was observed towards the forwardscatter direction in the principle plane of the sun. Knowledge of the mechanics of the observed dynamics of the data may be used to provide rigorous validation for two- or three-dimensional radiative transfer models, and is important in interpreting aircraft and satellite data where the solar angle varies widely.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: International Journal of Remote Sensing (ISSN 0143-1161); 5; 263-277

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9

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Directional reflectance factor distributions for cover types of Northern Africa (1985)

Van Wijngaarden, W. ; Tucker, C. J. ; Newcomb, W. W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Directional reflectance factors that spanned the entire exitance hemisphere were collected on the ground throughout the morning period for common cover types in Tunisia, Africa. NOAA 7/8 AVHRR bands 1(0.58-0.68 micron) and 2 (0.7301.1 micron) were used in data collection. The cover types reported were a plowed field, annual grassland, steppe grassland, hard wheat, salt plain, and irrigated wheat. Several of these cover types had geometric structures that are extreme as compared to those reported in the literature. Comparisons were made between the dynamics of the observed reflectance distributions and those reported in the literature. It was found that the dynamics of the measured data could be explained by a combination of soil and vegetation scattering components. The data and analysis further validated physical principles that cause the reflectance distribution dynamics as proposed by field and simulation studies in the literature. Finally, the normalized difference transformation (Band 2 - Band 1)/(Band 1 + Band 2), which is useful in monitoring vegetation cover, generally decreased the variation in signal with changing view angle. However, several exceptions were noted.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Remote Sensing of Environment (ISSN 0034-4257); 18; 1-19

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10

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Diurnal movements of cotton leaves expressed as thermodynamic work and entropy changes (1985)

Newcomb, W. W. ; Schutt, J. B. ; Kimes, D. S.

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Publication Date: 2011-08-19

Description: It is pointed out that some important agricultural crops show heliotropic leaf movements. In these species, the proclivity of leaves to orient either perpendicularly or parallel or in some combination of these positions with respect to the sun is controlled by the leaf turgor and the availability of water. Such an orientational response is particularly noticeable for cotton. Schutt et al. (1985) have detailed leaf trajectories using three angles. The present investigation applies the three-angle representation to leaf trajectory mapping and to the calculation of the phase angle 'gamma' between the individual leaf normals and the solar direction. Using gamma, the thermodynamic work and entropy functions are evaluated and used to distinguish between the behavior of water-stressed and well watered cotton canopies.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Photogrammetric Engineering and Remote Sensing (ISSN 0099-1112); 51; 697-702

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