friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
tree list maps (TLM) PROJECT
Study area:
tree list maps (TLM) PROJECT
Study area:
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
Predictor sets
espectrales -landsat
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
Predictor sets
espectrales -landsat
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
Trayectoria estacional
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
Observaciones con días claros
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(a) start of season / green up
- Fecha (Día del año)
- Valor (PPI)
- Pendiente
SOSV
Día del año
SOSD
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(b) end of season / green down
- Fecha (Día del año)
- Valor (PPI)
- Pendiente
EOSV
Día del año
EOSD
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(c) length of season
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(d) minimum of season
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(e) peak of the season
- Fecha (Día del año)
- Valor (PPI)
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(f) amplitude
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(g) small integrated value
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(g+h) large integrated value
cero
Día del año
Vegetation Phenology Parameters (VPPs)
Quality flag
Vegetation Phenology Parameters (VPPs)
Quality flag
Vegetation Phenology Parameters (VPPs)
Quality flag
predictores de fenología
De forma de la función
De Valor del índice PPI por fecha
De calidad de la agregación
De fechas
- QF sum
- QF proportion
- not NA sum
- AMPL
- LSLOPE
- RSLOPE
- SPROD
- TPROD
68 Variables derivadas
Casos de estudio: cuerda del pozo (soria)
Pastizal/ Matorral
Pino albar
Frondosas con baja FCC (Crataegus?)
Melojar (Q. pyrenaica)
Casos de estudio: Santa inés (soria)
Erizal/ abrojal
Pino albar
Hayedos
Pino albar
Casos de estudio: Montes de lubia (soria)
Pinaster con pyrenaica. 70/30
Pastizal con árboles dispersos
Pinaster con pyrenaica. 50/30
Pinaster con pyrenaica. 70/20
Casos de estudio: Montes de lubia (soria)
Pinaster 'puro' >8 O1
Pinaster con pyrenaica <8 O1
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores de topografía
de posición
índices y derivados
Irradiancia
- slope_percentage
- northness exposure
- eastness exposure
- TPI90
- TPI300
- TPI990
- MTPI
- LANDFORMS
- TPI
- TRI
- TRiley
- TRImsnds
- rugosidad
- flow dir
- northness
- eastness
- elevación
- longitud
- latitud
- pendiente
- orientación
24 Variables derivadas
Caso de estudio: es castillo de soria
Caso de estudio: es castillo de soria
Caso de estudio: es castillo de soria
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores lidar
Altura y Percentiles
Índices de estructura y otros
Retornos
- cantidad de retornos totales
- cantidad de primeros retornos
- % de retornos encima de 2 m
- proporción de retornos por estrato de altura (0.5-1, 1-2, 2-4, ... , 40m )
- percentiles (05,25,50, 75, 95, 99)
- desvío estándar de la altura
90 Variables derivadas
Caso de estudio: es castillo de soria
Caso de estudio: es castillo de soria
arbolado
Caso de estudio: es castillo de soria
matorral
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores landsat
Respuesta espectral (para IFN3, IFN4 y diferencia entre ambos)
Parameters describing Landsat disturbance history2 índices (NDVI & NBR) - IFN4
- Total disturbance (TD) -> Magnitude
- Total disturbance (TD) -> Duration
- Total disturbance (TD) -> Rate (TDMAG/TDDUR)
- Total disturbance (TD) -> Weighted Magnitude (TDMAG*TDDUR)
- Greatest disturbance (GD) -> TC angle before
- Greatest disturbance (GD) -> TC angle after
- Greatest disturbance (GD) -> Magnitude
- Greatest disturbance (GD) -> Duration
- Greatest disturbance (GD) -> Rate (GDMAG/GDDUR)
- Greatest disturbance (GD) -> Magnitude
- Total recovery (TR) -> Magnitude
- Total recovery (TR) -> Duration
- Total recovery (TR) -> Rate (TRMAG/TRDUR)
- blue
- green
- red
- nir
- swir1
- swir2
- b5b4r
75 Variables derivadas
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores climáticos
Biovars Worldclim
- BIO1: Mean annual temperature
- BIO2: Mean Diurnal Range (Mean of monthly (max temp - min temp)) /
- BIO3: Isothermality (BIO2/BIO7) (×100)
- BIO4: Seasonality of temperature / Temperature Seasonality (standard deviation ×100)
- BIO5: Max Temperature of Warmest Month
- BIO6: Min Temperature of Coldest Month
- BIO7: Annual temperature range / Temperature Annual Range (BIO5-BIO6)
- BIO8: Mean Temperature of Wettest Quarter
- BIO13: Precipitation of Wettest Month
- BIO14: Precipitation of Driest Month
- BIO15: Seasonality of precipitation / Precipitation Seasonality (Coefficient of Variation)
- BIO16: Precipitation of Wettest Quarter
- BIO17: Precipitation of Driest Quarter
- BIO18: Precipitation of Warmest Quarter
- BIO19: Precipitation of Coldest Quarter
- Mean annual solar radiation
- Mean annual vapor pressure
- BIO9: Mean Temperature of Driest Quarter
- BIO10: Mean Temperature of Warmest Quarter
- BIO11: Mean Temperature of Coldest Quarter
- BIO12: Mean annual precipitation / Annual Precipitation
21 Variables derivadas
Caso de estudio: es castillo de soria
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
Manuscript ideas
General idea 1
general idea 2
Non-spatial models can be a lot of different flavours:+ My tree lists from 1 species from my 2cond chapter+ Paco's Sabinas tree list of diameter classesspanish + IFN
Local calibration may be done with project-local-data (alike FSVEG, but a percentage with good coordinates): + Fay herriot models? for pinaster + Unit level? for several species. shared w (chad's idea)?
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
friday meeting
friday meeting
jumping into r snippets
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
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Transcript
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
tree list maps (TLM) PROJECT
Study area:
tree list maps (TLM) PROJECT
Study area:
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
Predictor sets
espectrales -landsat
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
Predictor sets
espectrales -landsat
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
Trayectoria estacional
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
Observaciones con días claros
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(a) start of season / green up
SOSV
Día del año
SOSD
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(b) end of season / green down
EOSV
Día del año
EOSD
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(c) length of season
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(d) minimum of season
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(e) peak of the season
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(f) amplitude
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(g) small integrated value
Día del año
Vegetation Phenology Parameters (VPPs)
Plant Phenology Index (PPI)
(g+h) large integrated value
cero
Día del año
Vegetation Phenology Parameters (VPPs)
Quality flag
Vegetation Phenology Parameters (VPPs)
Quality flag
Vegetation Phenology Parameters (VPPs)
Quality flag
predictores de fenología
De forma de la función
De Valor del índice PPI por fecha
De calidad de la agregación
De fechas
68 Variables derivadas
Casos de estudio: cuerda del pozo (soria)
Pastizal/ Matorral
Pino albar
Frondosas con baja FCC (Crataegus?)
Melojar (Q. pyrenaica)
Casos de estudio: Santa inés (soria)
Erizal/ abrojal
Pino albar
Hayedos
Pino albar
Casos de estudio: Montes de lubia (soria)
Pinaster con pyrenaica. 70/30
Pastizal con árboles dispersos
Pinaster con pyrenaica. 50/30
Pinaster con pyrenaica. 70/20
Casos de estudio: Montes de lubia (soria)
Pinaster 'puro' >8 O1
Pinaster con pyrenaica <8 O1
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores de topografía
de posición
índices y derivados
Irradiancia
24 Variables derivadas
Caso de estudio: es castillo de soria
Caso de estudio: es castillo de soria
Caso de estudio: es castillo de soria
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores lidar
Altura y Percentiles
Índices de estructura y otros
Retornos
90 Variables derivadas
Caso de estudio: es castillo de soria
Caso de estudio: es castillo de soria
arbolado
Caso de estudio: es castillo de soria
matorral
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores landsat
Respuesta espectral (para IFN3, IFN4 y diferencia entre ambos)
Parameters describing Landsat disturbance history2 índices (NDVI & NBR) - IFN4
75 Variables derivadas
TLM PROJECT
01
fenología
68 Variables derivadas
topografía
02
24 Variables derivadas
lidar (2 vuelos)
03
90 Variables derivadas
04
espectrales -landsat
Predictores
75 Variables derivadas
05
clima
21 Variables derivadas (biovars de WC)
predictores climáticos
Biovars Worldclim
21 Variables derivadas
Caso de estudio: es castillo de soria
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
Manuscript ideas
General idea 1
general idea 2
Non-spatial models can be a lot of different flavours:+ My tree lists from 1 species from my 2cond chapter+ Paco's Sabinas tree list of diameter classesspanish + IFN
Local calibration may be done with project-local-data (alike FSVEG, but a percentage with good coordinates): + Fay herriot models? for pinaster + Unit level? for several species. shared w (chad's idea)?
friday meeting
friday meeting
topics: 1-spanish data presentation 2-manuscript ideas 3-advances on cms models
friday meeting
friday meeting
jumping into r snippets
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.
• The raw Vegetation Indices (VIs). This group consists of products generated near real-time (NRT) providing for every pixel the status of the vegetation vigor. The status is provided in four ways: Leaf Area Index (LAI), Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), Normalized Difference Vegetation Index (NDVI) and Plant Phenology Index (PPI); • The Seasonal Trajectories (STs) products are provided yearly after the end of the vegetation growing season. These are derived as a regular time-series of every 10 days by fitting a smoothing and gap filling function to the raw Plant Phenology Index, generated in the product group VIs; • The Vegetation Phenology Parameters (VPPs) product bundle are derived from the STs of the PPI index, on a yearly basis, after the end of the growing season. VPP metrics are provided for up to two growing seasons, being e.g. start of the season, end of season, seasonal productivity, etc.