Agriculture Reference
In-Depth Information
Lasat, M.M., 2000. Phytoextraction of metals from contaminated soil: a review of
plant/soil/metal interaction and assessment of pertinent agronomic issues.
Journal
of Hazardous Substance Research
, 2(5), pp.1-25.
Levenson, R.M. & Farkas, D.L., 1997. Digital spectral imaging for histopathology and
cytopathology (Proceedings Paper).
Levitt, J., 1980.
Responses of plants to environmental stresses. Volume II. Water, radiation, salt, and
other stresses.
, Academic Press.
Lichtenthaler, H.K., 1996. Vegetation stress: an introduction to the stress concept in plants.
Journal of Plant Physiology
, 148(1), pp.4-14.
Long, J.R., Gregoriou, V.G. & Gemperline, P.J., 1990. Spectroscopic calibration and
quantitation using artificial neural networks.
Analytical Chemistry
, 62(17), pp.1791-
1797.
Malley, D.F. & Williams, P.C., 1997. Use of Near-Infrared Reflectance Spectroscopy in
Prediction of Heavy Metals in Freshwater Sediment by Their Association with
Organic Matter.
Environmental Science & Technology
, 31(12), pp.3461-3467.
Malley, D.F., Hunter, K.N. & Webster, G.R.B., 1999. Analysis of Diesel Fuel Contamination
in Soils by Near-Infrared Reflectance Spectrometry and Solid Phase
Microextraction-Gas Chromatography.
Soil and Sediment Contamination
, 8(4),
pp.481-489.
Naes, T., Isaksson, T. & Kowalski, B., 1990. Locally weighted regression and scatter
correction for near-infrared reflectance data.
Analytical Chemistry
, 62(7), pp.664-673.
Naes, T. et al., 2002.
A user friendly guide to multivariate calibration and classification
, NIR
Publications.
Nanni, M.R. & Demattê, J.A.M., 2006. Spectral Reflectance Methodology in Comparison to
Traditional Soil Analysis.
Soil Science Society of America Journal
, 70(2), p.393.
Nicolaï, B.M. et al., 2007. Nondestructive measurement of fruit and vegetable quality by
means of NIR spectroscopy: A review.
Postharvest Biology and Technology
, 46(2),
pp.99-118.
Pandit, C.M., Filippelli, G.M. & Li, L., 2010. Estimation of heavy-metal contamination in soil
using reflectance spectroscopy and partial least-squares regression.
International
Journal of Remote Sensing
, 31(15), pp.4111-4123.
Pimstein, A., Ben-Dor, E. & Notesco, G., 2011. Performance of Three Identical Spectrometers
in Retrieving Soil Reflectance under Laboratory Conditions.
Soil Science Society of
America Journal
, 75(2), p.746.
Ren, H.Y. et al., 2009. Analysis of visible and near-infrared spectra of As-contaminated soil
in croplands beside mines.
Guang pu xue yu guang pu fen xi= Guang pu
, 29(1), p.114.
Ritchie, G.D. et al., 2001. A REVIEW OF THE NEUROTOXICITY RISK OF SELECTED
HYDROCARBON FUELS.
Journal of Toxicology & Environmental Health: Part B
, 4(3),
pp.223-312.
Rossel, R.V.R. & Soil Spectroscopy Group, 2009. The Soil Spectroscopy Group and the
development of a global soil spectral library. Available at:
http://adsabs.harvard.edu/abs/2009EGUGA..1114021R [Accessed April 20, 2011].
Rossel, R.A.V. & Behrens, T., 2010. Using data mining to model and interpret soil diffuse
reflectance spectra.
Geoderma
, 158(1-2), pp.46-54.
Schneider, I. et al., 1995. Fiber-optic near-infrared reflectance sensor for detection of organics
in soils.
Photonics Technology Letters, IEEE
, 7(1), pp.87-89.
Schwartz, G., 2012. Reflectance spectroscopy as a rapid tool for qualitative mapping and
classification of hydrocarbons soil contamination.
Ph.D Thesis, Tel Aviv University
.
(in preparation)
