(PDF) Figure 8: Scatterplots of Relationships Between NDVI

Figure 8: Scatterplots of Relationships Between NDVI and GEPd as Well as Between NDVI*LAI and GEPd for the Analyzed Crops.

doi 10.7717/peerj.5613/fig-8

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Figure 4: Scatter Plots of Relationships Between Observed and Predicted GEPd for the Analyzed Crops.

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Figure 7: Example of Seasonal Courses of GEPd, NDVI, LAI and NDVI*LAI for Winter Wheat (A), Winter Rye (B), Spring Barley (C) and Potato (D) in 2012.

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Figure 6: Scatterplots of Relationships Between Average Daily PAR (PARd) and GEPd (A) as Well as PARd and LUE (B) for Vegetative and Reproductive Phases of Plant Development.

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Figure 5: Relationships Between the Best Fitted VIs and GEPd as Well as Between Observed and Predicted Daily GEP for Spring Barley (A, B) and Potatoes (C, D).

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Figure 2: Seasonal Variations of Mean Daily PAR (PARd) at the Study Site and Daily GEP (GEPd; Circles) and LAI (Triangles) for the Analyzed Crops in the Years 2011–2013.

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Relationships Between NDVI, Canopy Structure, and Photosynthesis in Three Californian Vegetation Types

Ecological Applications

Ecology

1995

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Table 4: Summary of the Statistics of Linear Regressions Between LAI, VIs and GEPd for Each Crop Individually, for All Cereals (Winter and Spring Crops) and for Cereals and Potato Grouped Together.

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Development of Seasonal NDVI Profiles References for Main Agricultural Crops

2019

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Figure 2: Non-Metric Multidimensional Scaling Showing the Relationship Between Habitat Types and the Seasonal Change of NDVI.

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Amanote Research

Figure 8: Scatterplots of Relationships Between NDVI and GEPd as Well as Between NDVI*LAI and GEPd for the Analyzed Crops.

doi 10.7717/peerj.5613/fig-8

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 4: Scatter Plots of Relationships Between Observed and Predicted GEPd for the Analyzed Crops.

Figure 7: Example of Seasonal Courses of GEPd, NDVI, LAI and NDVI*LAI for Winter Wheat (A), Winter Rye (B), Spring Barley (C) and Potato (D) in 2012.

Figure 6: Scatterplots of Relationships Between Average Daily PAR (PARd) and GEPd (A) as Well as PARd and LUE (B) for Vegetative and Reproductive Phases of Plant Development.

Figure 5: Relationships Between the Best Fitted VIs and GEPd as Well as Between Observed and Predicted Daily GEP for Spring Barley (A, B) and Potatoes (C, D).

Figure 2: Seasonal Variations of Mean Daily PAR (PARd) at the Study Site and Daily GEP (GEPd; Circles) and LAI (Triangles) for the Analyzed Crops in the Years 2011–2013.

Relationships Between NDVI, Canopy Structure, and Photosynthesis in Three Californian Vegetation Types

Table 4: Summary of the Statistics of Linear Regressions Between LAI, VIs and GEPd for Each Crop Individually, for All Cereals (Winter and Spring Crops) and for Cereals and Potato Grouped Together.

Development of Seasonal NDVI Profiles References for Main Agricultural Crops

Figure 2: Non-Metric Multidimensional Scaling Showing the Relationship Between Habitat Types and the Seasonal Change of NDVI.