Abstract

Journal of Near Infrared Spectroscopy
Volume 16 Issue 4, Pages 421–429 (2008)
doi: 10.1255/jnirs.806

Near infrared applications in the quality control of seed cotton

Antonio J. Gaitán-Jurado,a María García-Molina,b Francisco Peña- Rodrígueza and Victor Ortiz-Somovillaa
aIFAPA-Centro 'Alameda del Obispo' (Postharvest and Food Technology Area), Avda. Menéndez Pidal s/n, Apdo. Correos 3.092, 14080 Cordoba, Spain. E-mail: antonioj.gaitan.ext@juntadeandalucia.es
bCITAGRO, Parque Tecnológico de Andalucía, C/ Marie Curie, nş4, local D1, 29590 Malaga, Spain

In the cotton industry the most important parameters for quality of seed cotton (unginned, harvested cotton) are moisture content and impurity level. In Spain, these quality parameters are regulated and cotton producers are awarded incentives. This study was performed to investigate the potential of near infrared (NIR) spectroscopy for determining moisture content and impurity level of seed cotton. A total of 100 cotton samples collected from eight cotton ginners were used. Two spectrometers were employed, one a research level instrument (Foss NIRSystems 6500), the other with a reduced wavelength range more suitable for use at-line (InfraXact Lab). Moisture content was measured using a moisture meter, which is used in cotton industry, and by a drying oven technique. Impurity level was determined by gravimetric analysis. Partial least square regression and classification were performed for moisture and impurity level of cotton, respectively. In sample preparation, the NIRSystems 6500 with a back cover of the sample cell was better in repeatability of spectra than the InfraXact Lab with no back cover. For moisture, the best calibration was developed by using the reference values from the oven drying method and using the first derivative and standard normal variate and detrending as pre-processing of the spectral data, giving a standard error of 0.44% in the range of 5.83–14.96% moisture content. The classification model for the impurity level was developed with a combination of first derivative and multiplicative scatter correction of the spectral data and resulted in an accuracy of 80%. For both moisture and impurity parameters, using the NIRSystems 6500 instrument gave slightly better results than using the InfraXact Lab.

Keywords: cotton, quality control, near infrared spectroscopy, moisture content, impurity levels

Full-text article (543 kB) (subscribers only)

Buy article on-line for £20 (get immediate access)

Alerting Service

 RSS Feed

Permalink: http://dx.doi.org/10.1255/jnirs.806
QR Code (what is this?):

Alerting Services

Our Table of Contents Alerting Service will keep you up-to-date with the latest research published in our journals.

You can also follow our journals on Twitter or subscribe to their RSS feeds.  Follow us on Twitter and Subscribe to our RSS Feeds

Sign Up Now

Subscriptions

Discover the benefits of subscribing to our periodicals

  • Quality Science
  • Fair Pricing
  • Important Research
  • Flexible Subscriptions

Subscribe Today

New Books

New Series of Focused Books in Print and E-Reader Formats

Design of Experiments“If you’re going to experiment, then it is always worth doing it properly” writes Tom Fearn in this introduction to Design of Experiments.
find out more

Near Infrared Spectroscopy on Agricultural HarvestersThis book provides an overview of the deployment of NIR analysers onto harvesting machinery to give real-time, point-of-cropping data.
find out more

Sample Copy of JNIRS