Frazier B E, Jarvis C R. A Landsat-TM ratio transformation to show soil variation. Agronomy Abstracts, American Society of Agronomy. Madison, Wisconsin, USA, 1990, p. 291.
[2]
Michael Gluck, Gebhard Banko, Wolfgang Vrzal. Harnessing Remote Sensing to Accomplish Full Carbon Accounting: Workshop Report. International Institute for Applied Systems Analysis, 2002, 9~10.
[3]
Merry C J, Levine E R. Methods to assess soil carbon using remote sensing techniques. In: Lal R, Kimble J, Levine E, Stewart B A (eds.), Assessment methods for soil carbon. CRC Press, Boca Raton, FL, 1995, 265~274.
[4]
Smith J A, Ranson K J, Williams D L, Levine E R, Goltz M S, Katz R. A sensor fusion field optical experiment in forest ecosystem dynamics. SPIE Int. Symposium of Optical and Engineering Photonics in Aerospace Engineering. Orlando, FL. 1990, Vol. 1300.
[5]
Levine E R, Ranson K J, Smith J, Williams D, Knox R G, Shugart H, Urban D, Lawrence W. Forest ecosystem dynamics: linking forest succession, soil process, and radiation models. Ecological Modeling, 1993, 65: 199~ 219.
[6]
Levine E R, Knox R G, Lawrence W T. Relationships between soil properties and vegetation at the Northern Experimental forest, Howland, Maine. Remote Sensing of Environment. 1994.
[7]
Levine E R, Kimes D. Predicting soil carbon in Mollisols using networks. In: Soil Processes and the Greenhouse Effect (Ed. By, Lal R, Kimble J M, Follet R F, Stewart B A), CRC Press, Boca Raton, FL, USA, 1998, 473~484.
[8]
Ott, L. An Introduction to Statistical Methods and Data Analysis. PWS-Kent Publishing Co., Boston, MA. 1988.
[9]
Conover, W B. Practical Nonparametric Statistics. 2nd Ed., John Wiley & Sons, NY. 1980.
[10]
Mattikalli N M, Engman E T, Ahuja L R, Jackson T J. Microwave remote sensing of soil moisture for estimation of profile soil property. INT. J. Remote Sensing, 1998, 19(9):1751~1767.
[11]
Reeves III J, McCarty G, Mimmo T. The potential of diffuse reflectance spectroscopy for the determination of carbon inventories in soils. Environmental Pollution, 2002, 116(3): 277~ 284.
Stone E R, Baungardner M F. Characteristic variations in reflectance of surface soils. Soil Sci. Soc. Am. J., 1981, 45: 1161~1165.
[15]
Swain P H, Davis S M. Remote Sensing: The Quantitative Approach, McGraw-Hill, New York, 1978, p396.
[16]
Baumgardner N F, Kristof S J, Johannsen C J, Zachary A L. Effects of organic matter on the multispectral properties of soils. Proceedings Indiana Academy of Science, 1970, 79: 413~422.
[17]
Ludwig B, Khanna P K. Use of Near Infrared Spectroscopy to determine inorganic and organic carbon fractions in soil and litter. In: Lal R, Kimble J, Levine E, Stewart B A (eds.), Assessment methods for soil carbon. CRC Press, Boca Raton, FL, 2001, 361~370.
[18]
McCarty G W, Reeves III J B. Development of rapid instrumental methods for measuring soil organic carbon. In: Lal R, Kimble J, Levine E, Stewart B A (eds.), Assessment methods for soil carbon. CRC Press, Boca Raton, FL, 2001, 371~380.
Kristof S J, Baumgardner M F, Weismiller A, Davis S. Applications of multispectral reflectance studies of soils: Pre-Landsat, Proceedings of the International Symposium on Machine Processing of Remotely Sensed Data. West Lafayette, Indiana, USA-61, 1978, p.52.
[26]
Wight G G, Birnie R V. Detection of surface soil variation using high resolution satellite data: Results from the UK Spot simulation investigation. International Journal of Remote Sensing, 1986, 7: 757~ 766.
[27]
Johnson W M. Soil classification and the design of soil surveys. In: Swindale L D (Ed). Soil Resources Data for Agricultural Development. Hawaii Agricultural Experiment Station. College of Tropical Agriculture. University of Hawaii. 1978.
[28]
Chen F, Kissel D E, West L T, Adkins W. Field-Scale Mapping of Surface Soil Organic Carbon Using Remotely Sensed Imagery. Soil Sci. Soc. Am. J, 2000, 64: 746~ 753.
[29]
Frazier B E, Cheng Y. Remote Sensing of soils in the Eastern Palouse region with Landsat Thematic Mapper. Remote Sensing of Environment, 1989, 28: 317~ 325.
[30]
Baumgardner M F, Silva L F, Beihl L L, Stoner E R. Reflectance properties of soils. Advances in Agronomy, 1985, 38: 1~ 44.
[31]
Wang shaoqiang, Xu jun, Zhou chenghu. Using remote sensing to estimate the change of carbon storage: a case study in the estuary of Yellow River delta. International journal of remote sensing. 2002, Vol.23, No.8,1565~ 1580.
[32]
Nelson D W, Sommers L E. Total carbon, organic carbon and organic matter. In: Sparks D L, Page A L, Helmike P A, Loeppert R H, Softanpour P N, Tabatabai M A, Johnston C T, Summer M E (Eds.). Methods of Soil Analysis. Part3. SSSA and ASA, Madison, WI, 1996, 983~ 997.
[33]
Latz K, Weismiller R A, Van Scoyoc G E, Baumgardner M F. Characteristics from Thematic Mapper data of a cropped organic-inorganic landscape. Soil Science Society of America Journal, 1984, 52: 1100~1134.
[34]
Coleman T L, Agbu P A, Montgomery O L, Gao T, Prasad S. Spectral band selection for quantifying selected properties in highly weathered soils. Soil Science, 1991, 151(5): 355~361.
[35]
Martin P D, Malley D F, Manning G, Fuller L. Determination of soil organic carbon and nitrogen at the field level using near-infrared spectroscopy. Can. J. Soil Sci., 2002, 82: 413~422.
[36]
Sudduth K A, Hummel J W. Soil organic matter, CEC and moisture sensing with a portable NIR spectrophotometer. Trans. ASAE. 1993, 36:185~193.
[37]
Workman Jr, J J. NIR spectroscopy calibration basics. In: Burns D A, Ciurczak E W (Eds.), Handbook of Near-Infrared Analysis. Marcel Dekker, New York, 1992, 247~280.
