IER_CINZANA

Location

lon / lat [deg]: -5.9339 / 13.2784

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]:	8.02
Distance to urban areas [km]:	19.52

Radius: 1 km

Number of landcover classes:	1
Dominant landcover type:	10: cropland, rainfed
Fraction of dominant landcover type [%]:	100.0

Radius: 2 km

Number of landcover classes:	2
Dominant landcover type:	10: cropland, rainfed
Fraction of dominant landcover type [%]:	90.0

Radius: 5 km

Number of landcover classes:	2
Dominant landcover type:	10: cropland, rainfed
Fraction of dominant landcover type [%]:	91.0

Radius: 10 km

Number of landcover classes:	2
Dominant landcover type:	10: cropland, rainfed
Fraction of dominant landcover type [%]:	80.0

Radius: 20 km

Number of landcover classes:	2
Dominant landcover type:	10: cropland, rainfed
Fraction of dominant landcover type [%]:	83.0

Disturbances

Heterogeneity analysis

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

Topography

Roman et al. (2009) index
St	4.12304955844
Rcv	-0.1108214622
Rse	0.0
Rst	-0.0689460698953
Rsv	0.547849237357

Height range @ 1km [m]	7
Height range @ 2km [m]	9
Height range @ 5km [m]	7
Height range @ 10km [m]	-999
Height range @ 20km [m]	-999

Variance slope @ 1 km	1
Variance slope @ 2 km	1
Variance slope @ 5 km	0
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 [-]	0.01
NDVI range @ 2km [-]	0.05
NDVI range @ 5km [-]	0.1
NDVI range @ 10km [-]	0.18
NDVI range @ 20km [-]	0.14

Variance slope @ 1 km	0.000219330346506
Variance slope @ 2 km	0.000289404985222
Variance slope @ 5 km	0.000246484257806
Variance slope @ 10 km	0.000156821256692
Variance slope @ 20 km	7.30573458928e-05

NDVI (min. NDVI composite)I

Roman et al. (2009) index
St	nan
Rcv	nan
Rse	nan
Rst	nan
Rsv	nan

NDVI range @ 1km [-]	0.01
NDVI range @ 2km [-]	0.02
NDVI range @ 5km [-]	0.03
NDVI range @ 10km [-]	0.04
NDVI range @ 20km [-]	0.04

NDVI slope @ 1 km	1.2127094112e-05
NDVI slope @ 2 km	1.52445296684e-05
NDVI slope @ 5 km	1.2524944156e-05
NDVI slope @ 10 km	8.50995162087e-06
NDVI slope @ 20 km	6.35636809464e-06

Temporal stability analysis

+000 deg (BHR)

BHR statistics

Temporal stability [1/decade]:

		abs	rel
Weighted least square:	-0.0134972080016
Ordinary least square:	-0.0106358160853

Probabilities that GCOS criteria is met:

Weighted least square:	2.6 %
Ordinary least square:	2.7 %

DHR statistics

Temporal stability [1/decade]:

		abs	rel
Weighted least square:	-0.00960340519682
Ordinary least square:	-0.00685131521165

Probabilities that GCOS criteria is met:

Weighted least square:	2.4 %
Ordinary least square:	2.7 %

+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.