Like all modern agriculture sectors, turfgrass productionand management is headed towards cost reduction, resource optimization and reduction of the environmentalimpact. In recent years the development of new technologies has provided new tools for monitoringagricultural crops. In particular, the combined adoption of geographic information systems, global positioning systems, multispectral lenses on board satellites and cartographic techniques allow a large scale management of agricultural resources. This paper reports the results of a trial attempting to evaluate the spectral signatures of several turfgrass species\cultivars, for future use in satellite monitoring. This experimental study focused on 20 turfgrass species\cultivars, including perennial ryegrasses, tall fescues, kentucky bluegrasses, bermudagrasses (ecotypes, seededand vegetatively propagated cultivars) andzoysiagrasses.Various agronomical and biological parameters were studied (quality, colour, dry matter, chlorophyll,carotenoids, nitrogen content) and turfgrass spectralreflectance for all entries was gathered. Results showedthat, within the same species, selected vegetation in­dices are often able to discriminate between different cultivars that have been established and maintainedwith identical agronomical practices. Evaluation ofthe spectral reflectance of plants using field spectroradiometry provides the possibility to identify different species\ cultivars, especially through the use of hyperspectral proximity and remote sensing.

Monitoring turfgrass species and cultivars by spectral reflectance

CATUREGLI, LISA;FOSCHI, LARA;GUGLIELMINETTI, LORENZO;VOLTERRANI, MARCO
2014-01-01

Abstract

Like all modern agriculture sectors, turfgrass productionand management is headed towards cost reduction, resource optimization and reduction of the environmentalimpact. In recent years the development of new technologies has provided new tools for monitoringagricultural crops. In particular, the combined adoption of geographic information systems, global positioning systems, multispectral lenses on board satellites and cartographic techniques allow a large scale management of agricultural resources. This paper reports the results of a trial attempting to evaluate the spectral signatures of several turfgrass species\cultivars, for future use in satellite monitoring. This experimental study focused on 20 turfgrass species\cultivars, including perennial ryegrasses, tall fescues, kentucky bluegrasses, bermudagrasses (ecotypes, seededand vegetatively propagated cultivars) andzoysiagrasses.Various agronomical and biological parameters were studied (quality, colour, dry matter, chlorophyll,carotenoids, nitrogen content) and turfgrass spectralreflectance for all entries was gathered. Results showedthat, within the same species, selected vegetation in­dices are often able to discriminate between different cultivars that have been established and maintainedwith identical agronomical practices. Evaluation ofthe spectral reflectance of plants using field spectroradiometry provides the possibility to identify different species\ cultivars, especially through the use of hyperspectral proximity and remote sensing.
2014
Caturegli, Lisa; Lulli, F.; Foschi, Lara; Guglielminetti, Lorenzo; Bonari, E.; Volterrani, Marco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/621472
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