FONTANA








Location

lon / lat [deg]: 117.4939 / 34.1

Source network: AERONET







Geostationary surface albedo (GSA) data


“+000”


“+057/+063”


Landcover information (based on ESA CCI landcover data)


Landcover fractions @ 2km distance


Landcover fractions @ 20 km distance




Legend



Distance to open water bodies [km]:

1.12

Distance to urban areas [km]:

1.41



Radius: 1 km

Number of landcover classes:

4

Dominant landcover type:

20: cropland, irrigated or post-flooded

Fraction of dominant landcover type [%]:

40.0



Radius: 2 km

Number of landcover classes:

5

Dominant landcover type:

20: cropland, irrigated or post-flooded

Fraction of dominant landcover type [%]:

40.0



Radius: 5 km

Number of landcover classes:

5

Dominant landcover type:

20: cropland, irrigated or post-flooded

Fraction of dominant landcover type [%]:

46.0



Radius: 10 km

Number of landcover classes:

6

Dominant landcover type:

20: cropland, irrigated or post-flooded

Fraction of dominant landcover type [%]:

50.0



Radius: 20 km

Number of landcover classes:

7

Dominant landcover type:

20: cropland, irrigated or post-flooded

Fraction of dominant landcover type [%]:

51.0





Disturbances









Heterogeneity analysis

The heterogeneity analysis provides information about the spatial and temporal heterogeneity of the site.

Topography



Roman et al. (2009) index


St

7.49125288373

Rcv

0.00830387135165

Rse

0.0

Rst

-0.0667158810146

Rsv

-0.325447305222



Height range @ 1km [m]

11

Height range @ 2km [m]

12

Height range @ 5km [m]

11

Height range @ 10km [m]

-999

Height range @ 20km [m]

-999



Variance slope @ 1 km

13

Variance slope @ 2 km

7

Variance slope @ 5 km

4

Variance slope @ 10 km

-999

Variance slope @ 20 km

-999







NDVI (max. NDVI composite)


Roman et al. (2009) index


St

nan

Rcv

nan

Rse

nan

Rst

nan

Rsv

nan



NDVI range @ 1km [-]

0.02

NDVI range @ 2km [-]

0.03

NDVI range @ 5km [-]

0.15

NDVI range @ 10km [-]

0.15

NDVI range @ 20km [-]

0.12



Variance slope @ 1 km

0.000250687625276

Variance slope @ 2 km

0.000263253828084

Variance slope @ 5 km

0.000228028538821

Variance slope @ 10 km

0.000147170677858

Variance slope @ 20 km

5.74117061583e-05







NDVI (min. NDVI composite)I


Roman et al. (2009) index


St

nan

Rcv

nan

Rse

nan

Rst

nan

Rsv

nan



NDVI range @ 1km [-]

0.0

NDVI range @ 2km [-]

0.03

NDVI range @ 5km [-]

0.12

NDVI range @ 10km [-]

0.09

NDVI range @ 20km [-]

0.08



NDVI slope @ 1 km

0.000112027580225

NDVI slope @ 2 km

0.000114279201944

NDVI slope @ 5 km

8.57574992015e-05

NDVI slope @ 10 km

4.97262799853e-05

NDVI slope @ 20 km

2.16251098055e-05







Temporal stability analysis

+000 deg (BHR)




BHR statistics

Temporal stability [1/decade]:



abs

rel


Weighted least square:

None






Ordinary least square:

None










Probabilities that GCOS criteria is met:

Weighted least square:

None %

Ordinary least square:

None %





DHR statistics

Temporal stability [1/decade]:



abs

rel


Weighted least square:

None






Ordinary least square:

None










Probabilities that GCOS criteria is met:

Weighted least square:

None %

Ordinary least square:

None %





+057/+063 deg (BHR)




BHR statistics

Temporal stability [1/decade]:



abs

rel


Weighted least square:

-99999.0






Ordinary least square:

-99999.0










Probabilities that GCOS criteria is met:

Weighted least square:

-99999.0 %

Ordinary least square:

-99999.0 %





DHR statistics

Temporal stability [1/decade]:



abs

rel


Weighted least square:

-99999.0






Ordinary least square:

-99999.0










Probabilities that GCOS criteria is met:

Weighted least square:

-99999.0 %

Ordinary least square:

-99999.0 %







Temporal anomaly analyis

The variance of the temporal anomalies provides an additional measure about the stability of the signal AFTER removal of the mean seasonal cylce.

+000 deg


+057/+063 deg