Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors.
Net Primary Productivity (NPP) is an important indicator of vegetation growth status and ecosystems health. NPP can be estimated through remote sensing data, using vegetation indices such as NDVI. However, this index may show systematic differences when using several orbital sensors. Therefore, the objective of this paper was to compare the NDVI data obtained from different sensors and evaluate the impact over the soybean biomass and NPP estimates. NDVI data were recorded from 4 sensors, one on the field and others 3 orbitals sensors (Landsat 8/OLI, Sentinel 2/MSI and Terra/MODIS). Measured data on the field, Photosynthetically Active Radiation (PAR) and Dry Matter (DM), were used to modeling the total DM and also NPP. The NDVI data from different sensors showed differences throughout the cycle, but compared to the reference data there was a correlation greater than 0.84. The DM presented a correlation of 0.91 with the field measured MS data while the NPP presented differences of up to 240 gC/m²/month from in relation to the reference data. Therefore, NDVI obtained from multiple sensors can be used to estimate NPP for surface analysis. However, for more consistent evaluations, a function of adjustment between the NDVI sensor data and NDVI reference data is required, so that the NPP estimation be better correlated to the actual data.
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2021-02-11
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| Subjects: | Google Earth Engine, PAR, Remote sensing, Agriculture, |
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dig-alice-doc-11299962021-02-12T04:13:10Z Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. RODIGHERI, G. FONTANA, D. C. SCHAPARINI, L. P. DALMAGO, G. A. SCHIRMBECK, J. GRAQZIELI RODIGHERI, CEPSRM, Post-Graduation Program of Remote Sensing, 91501970, Rio Grande do Sul, Brasil – grazielirodigheri@gmail.com laura_pigatto@yahoo.com.br GENEI ANTONIO DALMAGO, CNPT LAURA PIGATTO SCHAPARINI, Dept. of Agronomy, Post-Graduation Program in Phytotechnics, 91540000, Rio Grande do Sul, Brasil – dfontana@ufrgs.br laura_pigatto@yahoo.com.br J. SCHIRMBECK, UNIVATES, 95914014, Rio Grande do Sul, Brasil – schirmbeck.j@gmail.com. D. C. FONTANA, Dept. of Agronomy, Post-Graduation Program in Phytotechnics, 91540000, Rio Grande do Sul, Brasil – dfontana@ufrgs.br Google Earth Engine PAR Remote sensing Agriculture Net Primary Productivity (NPP) is an important indicator of vegetation growth status and ecosystems health. NPP can be estimated through remote sensing data, using vegetation indices such as NDVI. However, this index may show systematic differences when using several orbital sensors. Therefore, the objective of this paper was to compare the NDVI data obtained from different sensors and evaluate the impact over the soybean biomass and NPP estimates. NDVI data were recorded from 4 sensors, one on the field and others 3 orbitals sensors (Landsat 8/OLI, Sentinel 2/MSI and Terra/MODIS). Measured data on the field, Photosynthetically Active Radiation (PAR) and Dry Matter (DM), were used to modeling the total DM and also NPP. The NDVI data from different sensors showed differences throughout the cycle, but compared to the reference data there was a correlation greater than 0.84. The DM presented a correlation of 0.91 with the field measured MS data while the NPP presented differences of up to 240 gC/m²/month from in relation to the reference data. Therefore, NDVI obtained from multiple sensors can be used to estimate NPP for surface analysis. However, for more consistent evaluations, a function of adjustment between the NDVI sensor data and NDVI reference data is required, so that the NPP estimation be better correlated to the actual data. 2021-02-12T04:12:58Z 2021-02-12T04:12:58Z 2021-02-11 2020 Anais e Proceedings de eventos In: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XLII-3/W12-2020, IEEE Latin American GRSS & ISPRS Remote Sensing Conference (LAGIRS 2020), 22?26 March 2020, Santiago, Chile, 2020. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1129996 Ingles en openAccess |
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Google Earth Engine PAR Remote sensing Agriculture Google Earth Engine PAR Remote sensing Agriculture RODIGHERI, G. FONTANA, D. C. SCHAPARINI, L. P. DALMAGO, G. A. SCHIRMBECK, J. Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| description |
Net Primary Productivity (NPP) is an important indicator of vegetation growth status and ecosystems health. NPP can be estimated through remote sensing data, using vegetation indices such as NDVI. However, this index may show systematic differences when using several orbital sensors. Therefore, the objective of this paper was to compare the NDVI data obtained from different sensors and evaluate the impact over the soybean biomass and NPP estimates. NDVI data were recorded from 4 sensors, one on the field and others 3 orbitals sensors (Landsat 8/OLI, Sentinel 2/MSI and Terra/MODIS). Measured data on the field, Photosynthetically Active Radiation (PAR) and Dry Matter (DM), were used to modeling the total DM and also NPP. The NDVI data from different sensors showed differences throughout the cycle, but compared to the reference data there was a correlation greater than 0.84. The DM presented a correlation of 0.91 with the field measured MS data while the NPP presented differences of up to 240 gC/m²/month from in relation to the reference data. Therefore, NDVI obtained from multiple sensors can be used to estimate NPP for surface analysis. However, for more consistent evaluations, a function of adjustment between the NDVI sensor data and NDVI reference data is required, so that the NPP estimation be better correlated to the actual data. |
| author2 |
GRAQZIELI RODIGHERI, CEPSRM, Post-Graduation Program of Remote Sensing, 91501970, Rio Grande do Sul, Brasil – grazielirodigheri@gmail.com |
| author_facet |
GRAQZIELI RODIGHERI, CEPSRM, Post-Graduation Program of Remote Sensing, 91501970, Rio Grande do Sul, Brasil – grazielirodigheri@gmail.com RODIGHERI, G. FONTANA, D. C. SCHAPARINI, L. P. DALMAGO, G. A. SCHIRMBECK, J. |
| format |
Anais e Proceedings de eventos |
| topic_facet |
Google Earth Engine PAR Remote sensing Agriculture |
| author |
RODIGHERI, G. FONTANA, D. C. SCHAPARINI, L. P. DALMAGO, G. A. SCHIRMBECK, J. |
| author_sort |
RODIGHERI, G. |
| title |
Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| title_short |
Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| title_full |
Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| title_fullStr |
Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| title_full_unstemmed |
Net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| title_sort |
net primary productivity and dry matter in soybean cultivation utilizing datas of ndvi multi-sensors. |
| publishDate |
2021-02-11 |
| url |
http://www.alice.cnptia.embrapa.br/alice/handle/doc/1129996 |
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