DIRECT_00011








Location

lon / lat [deg]: 19.473 / 64.1146

Source network: DIRECT







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]:

1.87

Distance to urban areas [km]:

9.53



Radius: 1 km

Number of landcover classes:

3

Dominant landcover type:

70: Tree cover, needleleaved, evergreen, closed to open (>15%)

Fraction of dominant landcover type [%]:

91.0



Radius: 2 km

Number of landcover classes:

5

Dominant landcover type:

70: Tree cover, needleleaved, evergreen, closed to open (>15%)

Fraction of dominant landcover type [%]:

94.0



Radius: 5 km

Number of landcover classes:

4

Dominant landcover type:

70: Tree cover, needleleaved, evergreen, closed to open (>15%)

Fraction of dominant landcover type [%]:

89.0



Radius: 10 km

Number of landcover classes:

5

Dominant landcover type:

70: Tree cover, needleleaved, evergreen, closed to open (>15%)

Fraction of dominant landcover type [%]:

88.0



Radius: 20 km

Number of landcover classes:

5

Dominant landcover type:

70: Tree cover, needleleaved, evergreen, closed to open (>15%)

Fraction of dominant landcover type [%]:

89.0





Disturbances









Heterogeneity analysis

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

Topography



Roman et al. (2009) index


St

8.18188937888

Rcv

0.120568001642

Rse

0.0

Rst

0.0668322643516

Rsv

-0.179263210018



Height range @ 1km [m]

95

Height range @ 2km [m]

90

Height range @ 5km [m]

111

Height range @ 10km [m]

-999

Height range @ 20km [m]

-999



Variance slope @ 1 km

553

Variance slope @ 2 km

563

Variance slope @ 5 km

242

Variance slope @ 10 km

-999

Variance slope @ 20 km

-999







NDVI (max. NDVI composite)


Roman et al. (2009) index


St

14.2594489261

Rcv

0.0874562891877

Rse

0.0

Rst

-0.0637673767537

Rsv

0.0591631460281



NDVI range @ 1km [-]

0.03

NDVI range @ 2km [-]

0.06

NDVI range @ 5km [-]

0.07

NDVI range @ 10km [-]

0.06

NDVI range @ 20km [-]

0.07



Variance slope @ 1 km

9.22560416728e-05

Variance slope @ 2 km

9.985344452e-05

Variance slope @ 5 km

6.47525444881e-05

Variance slope @ 10 km

2.61651517507e-05

Variance slope @ 20 km

1.09087432349e-05







NDVI (min. NDVI composite)I


Roman et al. (2009) index


St

5.07479314108e-07

Rcv

0.208938137168

Rse

0.0

Rst

0.199804994109

Rsv

5911570.59839



NDVI range @ 1km [-]

0.08

NDVI range @ 2km [-]

0.08

NDVI range @ 5km [-]

0.15

NDVI range @ 10km [-]

0.19

NDVI range @ 20km [-]

0.18



NDVI slope @ 1 km

0.000929842887067

NDVI slope @ 2 km

0.00084933003729

NDVI slope @ 5 km

0.000471906344681

NDVI slope @ 10 km

0.000245267303997

NDVI slope @ 20 km

9.51833013504e-05







Temporal stability analysis

+000 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 %





+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