You are viewing: بحث عن Department of Biological and Environmental Sciences Molecular Analytical Techniques (BIOL 452)

إضافة إلى السلة

بحث عن Department of Biological and Environmental Sciences Molecular Analytical Techniques (BIOL 452)

عدد الصفحات 9

  • Table of Contents:



Page Number
Abstract 3
Objectives 3
Introduction 3
The Mechanism 4
FTIR Applications 4
Major types of Mid infrared techniques: 4
Case Study (I): 5
Results and discussion 7
Conclusion 7
References 8
Figures 9





  • Canasveras, J., (2010), Estimate of aggregate indices of stability in soils of Mediterranean by using of diffuse reflectance spectroscopy, Geo-derma 158: 78-82.
  • Cantarella, H., (2006), The variable soil analyses of the commercial laboratories as those of fertilizer and lime recommendations, Communications of Soil Science and Plant Analysis vol. 37, 2213–2223.
  • Desbiez, A., (2004), Assessment and perceptions of soil fertility by farmers of the middle hills in Nepal, Agriculture Environment and Ecosystem vol. 1031: 191-200.
  • Du, C., (2008a), Description of the agricultural Mediterranean soils by usage of mid-infrared photoacoustic spectroscopy, Geo-derma vol. 143: 85-92.
  • Gobeille, A., (2006), Impacts of practices of soil management on measurements of fertility of soil on Agave plantations in West of Central Mexico, Soil and Tillage Research vol. 871: 80-85.
  • Hazelton, P. and Marphy, B., (2007), Interpreting Results of test of soil: What do these numbers refer to? CSIRO Publishing, Colling wood, Australia 31–45.
  • Idowu, O., (2008), Farmer Assessment of quality of soil by using field, VNIR spectroscopy and laboratory methods, Plant and Soil 3071-2: 243-250.
  • Janik, L., and Skjemstad, J., (1995), Analysis and characterization of soils by using mid-infrared, relations with many laboratory data, Australian Journal of Soil Research vol. 334: 637-653.
  • Linker, R., (2012), Application of Fourier Transform spectroscopy to soils analysis. New Analytical Approaches and FTIR Strategies, 385–400.
  • McClelland, J., (2002), Photoacoustic spectroscopy, Chalmers J. and Griffiths P. (Ed.), Wiley and Sons, New York.
  • Reeves, J., (2010), ‘Near vs mid-infrared spectroscopy of diffuse reflectance for analysis of soil highlighting carbon and laboratory vs site analysis, what needs to be done and where we are?, Geo-derma 158, 3–12.
  • Shepherd, K. and Walsh, G., (2002), Development of reflectance libraries for characterization of properties of soil. Soil Science Society, America Journal 66, 988–1000.
  • Shepherd, K. and Walsh, G., (2007), Infrared spectroscopy, allowing a diagnostic surveillance approach that is based on evidence to environmental and agricultural management in the developing countries, Journal of Near Infrared Spectroscopy vol. 15, 1–17.
  • Terhoeven, T., (2010), Prediction of properties of fertility of soil from a distributed soil mid-infrared library globally, Soil Science Society, America Journal vol. 74, 1792–1800.
  • Vagen, T., (2013), Africa Service of Soil Information, Soil Health Mapping.
  • Viscarra, R. and McBratney, A., (1998b), Soil analytical costs and accuracy: implications from precision cultivation, Australian Journal of the Experimental Agriculture vol. 38: 765-773.