Residue effects on radiometric reflectance measurements of Northern Great Plains Rangelands

The diversity of rangeland ecosystems makes application of remote sensing data difficult. This study was conducted to determine the effects of plant surface residue on rangeland canopy radiometric measurements. Measurements were made on moderately and heavily grazed native rangeland pastures. Standi...

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Bibliographic Details
Published in:Remote sensing of environment 1994, Vol.49 (3), p.195-199
Main Authors: Frank, A.B, Aase, J.K
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
ANALYTICAL METHODS
Biological and medical sciences
CANOPY
CONDUITE DES HERBAGES
CONTENIDO DE MATERIA SECA
COUVERT
CROP RESIDUES
CUBIERTA DE COPAS
DAKOTA DEL NORTE
DAKOTA DU NORD
DRY MATTER ACCUMULATION
DRY MATTER CONTENT
Ecosystems
Fundamental and applied biological sciences. Psychology
Generalities. Biometrics, experimentation. Remote sensing
GRASSLAND MANAGEMENT
GRAZING INTENSITY
HOJARASCA
INTENSIDAD DE PASTOREO
INTENSITE DE PATURAGE
LITIERE VEGETALE
MANEJO DE PRADERAS
NORTH DAKOTA
PARCOURS
PASTIZALES
PASTURES
PATURAGES
PLANT LITTER
Q1
RADIOMETRY
RANGE MANAGEMENT
RANGELANDS
REFLECTANCE
REFLECTANCIA
REMOTE SENSING
RESIDU DE RECOLTE
RESIDUOS DE COSECHAS
TECHNIQUE ANALYTIQUE
TECNICAS ANALITICAS
TELEDETECCION
TELEDETECTION
TENEUR EN MATIERE SECHE
TIERRAS DE PASTOS
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Summary:The diversity of rangeland ecosystems makes application of remote sensing data difficult. This study was conducted to determine the effects of plant surface residue on rangeland canopy radiometric measurements. Measurements were made on moderately and heavily grazed native rangeland pastures. Standing senesced plant residue was collected and spread in the autumn to establish treatments of 0%, 33%, 66%, and 100% ground cover. Canopy radiometric measurements were made weekly the following grazing season using the red (RED) (0.63–0.69 μm) and near infrared (NIR) (0.76–0.90 μm) wavebands of a Mark II radiometer. We examined relationships between wavebands, ratio vegetation index (R = NIR/RED), the normalized difference vegetation index [ND = (NIR - RED)/(NIR + RED)] and forage dry matter accumulation and surface plant residue. All wavebands and indices were significantly related to dry matter accumulation on both moderately and heavily grazed pastures. Separation of residue treatments by radiometric measurements was more evident on moderately grazed than on heavily grazed pastures. Red reflectance was most sensitive to surface residue treatments and separated residue from no residue plots until early June when green growth became dominant. Vegetation indices R and ND tended to be lower for the 100% surface residue treatment for both pastures and higher for the 0% treatment for the moderately grazed pasture. Results suggest that different amounts of surface residue would not greatly interfere with using radiometric measurements to predict dry matter accumulation on Northern Great Plains native rangeland.
ISSN:0034-4257
1879-0704
DOI:10.1016/0034-4257(94)90015-9