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International Journal of Remote Sensing Volume 17, 1996 - Issue 9
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Original Articles

Yield estimation for corn and wheat in the Hungarian Great Plain using Landsat MSS data

D. HAMAR Geophysical Research Group, Academy Science Hungary, Eotvos University, Ludovika tér 2., Budapest, H-1083, Hungary
,
C. FERENCZ Geophysical Research Group, Academy Science Hungary, Eotvos University, Ludovika tér 2., Budapest, H-1083, Hungary
,
J. LICHTENBERGER Geophysical Department, Eotvos University, Ludovika ter 2., Budapest, H-1083, Hungary
,
G. TARCSAI Geophysical Department, Eotvos University, Ludovika ter 2., Budapest, H-1083, Hungary
&
I. FERENCZ-ÁRKOS Department of Theoretical Electricity, Technical University, Muegyetem rkp. 3, Hudapest, H-1111, Hungary
Pages 1689-1699 | Received 28 Mar 1995, Accepted 15 Sep 1995, Published online: 27 Apr 2007

References

  • Aase , J. K. and Siddoway , F. H. 1981 , Assessing winter wheat dry matter production via spectral reflectance measurements. Remote Sensing of Environment , 11 , 267 – 277 .
  • Asrar , G. , Fuchs , M. , Kanemasu , E. T. , and Hatfield , J. L. , 1984 , Estimating absorbed photosynthetic radiation and leaf area index from spectral reflectance in wheat. Agronomy Journal , 76 , 300 – 306 .
  • Badhwar , G. D. , and Henderson , K. E. , 1981 , Estimating development of corn from spectral data-an initial model. Agronomy Journal , 73 , 748 – 755 ,
  • Badhwar , G. D. , Carnes , J. G. and Austin , W. W. , 1982 , Use of Landsat-derived temporal profiles for corn-soyabean feature extraction and classification. Remote Sensing of Environment , 12 , 57 – 79 .
  • Badhwar , G. D. , and Thompson , D. R. , 1983 , Estimating emergence date of spring small gains using Landsat spectral data. Agronomy Journal , 75 , 75 – 78 .
  • Bausch , W. C , and Neale , C. M. V. , 1987 , Crop coefficient derived from reflected canopy radiation. A concept. Transaction of the ASAE , 30 , 703 – 709 .
  • Brakke , T. W. , and Kanemasu , E. T. , 1981 , Insolation estimation from satellite measurements of reflected radiation. Remote Sensing of Environment , 11 , 157 – 167 .
  • Csornai , G. , 1992 , Toward a satellite based crop information system in Hungary. Proceedings of the Central Symposium of the International Space Year Conference, Munich, SP–341 Paris : USA , 135 – 139 .
  • Ferencz , C , Ferenczne Arkos, I. , Hamar, D. , Lichtenberger, J. , and Tarcsai, G. , 1984 , Crop condition monitoring and yield forecasting by remote sensing methods I-IV, Report (in Hungarian). Library of ELTE GEOEXP and FöMI , Budapest .
  • Ferencz , C , and Tarcsai , G. , 1988 , Correction of atmospheric effects on satellite remote sensing data for canopy and soil investigations. Proceedings of the 5th International Symposium on Soil Science and Remote Sensing , Budapest, 1988 Budapest : MTESz , pp. 221 – 228 .
  • Ferencz , C. Tarcsai , G. , and Lichtenberger, J. , 1993 , Correction of atmospheric effects on satellite remote sensing data (Landsat MSS-NOAA AVHRR) for surface canopy investigations. International Journal of Remote Sensing , 14 , 3417 – 3431 .
  • Gallo , K. P. , Daughtry , C. S. T. , and Bauer , M. E. , 1985 , Spectral estimation of absorbed photosynthetically active radiation in corn canopies. Remote Sensing of Environment , 17 , 221 – 232 .
  • Gallo , K. P. , and Daughtry , C. S. T. , 1981 , Spectrally derived inputs to crop yield models. Proceedings of the 1981 Symposium on Machine Processing of Remotely Sensed Data , West Lafayette , Indiana West Lafayette , Indiana: Purdue University, pp. 52 – 65 .
  • Hamar , D. , Ferencz, C., Lichtenberger , J. , Tarcsai , G. , and Ferenczné Arkos , L. , 1988 a, The use of remotely sensed data in yield forecasting I. Ground based experiments (in Hungarian). Növénytermelés , 37 , 165 – 179 .
  • Hamar , D. , Ferencz, , C. , Lichtenberger , J. , Tarcsai , G. , and Ferenczné Árkos , I. , 1988 b, The use of remotely sensed data in yield forecasting I. Satellite experiments (in Hungarian). Növénytermelés , 37 , 357 – 367 .
  • Hatfield , J. L. , 1983 , Remote sensing estimators of potential and actual crop yield. Remote Sensing of Environment , 13 , 301 – 311 .
  • Hatfield , J. L. , Asrar , G. , and Kanemasu , E. T. , 1984 , Intercepted photosynthetically active radiation estimated by spectral reflectance. Remote Sensing of Environment , 14 , 65 – 75 .
  • Idso , S, B. , Jackson . R. D. , and Reginato , R. J. , 1977 , Remote sensing of crop yields , Science , 196 , 19 – 25 .
  • Lichtenberger , J. , Ferencz, C. , Ferenczné Árkos , I. , Hamar , D. , Tarcsai , G. , 1987 , Relationship between remotely sensed data and quantitative parameters of vegetation-the vegetation indices (in Hungarian). Geodézia és Kartográfia , 6 , 396 – 404 .
  • Lichtenberger , J. , Ferencz , C. , and Tarcsai , G. , 1988 , The applicability of spectral indices in quantitative investigations. Proceedings of the 5th International Symposium on Soil Science and Remote Sensing, Budapest, 1988 , Budapest : MTESz, pp. 159 – 165 .
  • Maas , S. J. , 1992 , GRAMI: A crop growth model that can use remotely sensed information. USDA Agricultural Research Service , ARS-91, 1 – 78 .
  • Rudorff , B. F. T. , and Batista , G. T. , 1991 , Wheat yield estimation at the farm level using TM Landsat and agrometeorological data. International Journal of Remote Sensing , 12 , 2477 – 2484 .
  • Steven , M. D. , Biscoe , P. V. , and Jaggard , K. W. , 1983 , Estimation of sugar beet productivity from reflection in the red and infrared spectral bands. International Journal of Remote Sensing , 4 , 325 – 334 .
  • Tucker , C. J. , Holben , B. N. , Elgin , J. H. , and McMurtrey , III. J. E. , 1981 , Remote sensing of total dry-matter accumulation in winter wheat. Remote Sensing of Environment , 11 , 171 – 189 .
  • Tilton , J. C , and Hollinger , S. E. , 1982 , Estimating crop development stages from multi-spectral data. Proceedings of the 1982 Symposium on Machine Processing of Remotely Sensed Data, West Lafayette, Indiana , West Lafayette , Indiana: Purdue University, pp. 477 – 484 .
  • Vámosi , J. , Farkasfalvy , J. , Csornai , G. , Dalia , O. , and Nádor , G. , 1991 , Landsat TM based crop inventory for a region in Hungary. Proceedings of the International Geoscience and Remote Sensing Symposium (IGARSS '91), Espoo, Finland, June 1991 , New York : I.E.E.E., pp. 1941 – 1943 .
  • Wiegand , C. L. , and Richardson , A. J. , 1984 , Leaf area, light interception and yield estimates from spectral components analysis. Agronomy Journal , 6 , 543 – 548 .
  • Wiegand , C. L. , Richardson , P. O. , Jackson , R. D. , Pinter , Jr., P.J. , Aase , J. K. , Smika , D. E. , Lautenschlager , L. F. , and McMurtrey III , J. E. , 1986 , Development of agrometeorological crop model inputs from remotely sensed information. I.E.E.E. Transactions on Geoscience and Remote Sensing , 24 , 90 – 98 .

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