Date (Publication)

2019-03-12

Date (Creation)

2018-08-30

Edition

01.00

Citation identifier

eea_r_3035_500_m_p-los_p_2000-2016_v01_r00

Citation identifier

DAT-227-en

Maintenance and update frequency

As needed

GEMET - INSPIRE themes, version 1.0

• Habitats and biotopes
• Environmental monitoring facilities

Keywords

Keywords

GEMET

• vegetation

• remote sensing

• index

Continents, countries, sea regions of the world.

• EEA39

Spatial scope

• European

Temporal resolution

• Annually

EEA Management Plan

• 2019 1.8.2

EEA topics

• Agriculture and food

• Forests and forestry

• Land use

• Biodiversity

Access constraints

Other restrictions

Other constraints

no limitations to public access

Use constraints

Other restrictions

Other constraints

EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged ( http://www.eea.europa.eu/legal/copyright). Copyright holder: European Environment Agency (EEA).

Aggregate Datasetindentifier

29ae2d47-7af2-4c09-ba5f-e2fbb7c2b0d1

Association Type

Cross reference

Aggregate Datasetindentifier

42012fdb-4612-41fb-a8f2-a195692ecf24

Association Type

Cross reference

Aggregate Datasetindentifier

f5e0c7e9-7c44-477f-950b-7c092fa0f7a8

Association Type

Cross reference

Aggregate Datasetindentifier

f4b01c76-29f7-4075-b13f-5dc5a9c18ae2

Association Type

Cross reference

Spatial representation type

Grid

Distance

500  m

Language of dataset

English

Topic category

• Environment

Begin date

2000-01-01

End date

2016-12-31

Coordinate reference system identifier

EPSG:3035

Distribution format

• BIL ( 2016)

OnLine resource

Protocol	Linkage	Name
EEA:FILEPATH	https://sdi.eea.europa.eu/webdav/datastore/public/eea_r_3035_500_m_p-los_p_2000-2016_v01_r00/
WWW:URL	https://sdi.eea.europa.eu/data/1be91ed4-2eb1-46d6-8453-5246c9e9d446	Direct download
ESRI:REST
OGC:WMS
ESRI:REST	https://land.discomap.eea.europa.eu/arcgis/rest/services/Phenology/Season_length_2000_2016_long_term_mean/ImageServer
OGC:WMS	https://land.discomap.eea.europa.eu/arcgis/services/Phenology/Season_length_2000_2016_long_term_mean/ImageServer/WMSServer?request=GetCapabilities&service=WMS

Hierarchy level

Dataset

Statement

The PPI time-series is affected by noise due to e.g. atmosphere and remaining cloud influence, resulting in some spikes and outlier values. Since large spikes and outliers might significantly affect the further function fitting, they first have to be removed from the data. This is done in an initial filtering process, further described in the TIMESAT software manual.

After the outlier removal the next step in the analysis is the determination of the number of growing seasons. This is based on a harmonic function fit (sine-cosine functions) to the data. The presence of a second season is established by evaluating the amplitudes of the first and second components of the harmonic fit. Presence of noise in the data complicates the decision on whether the given secondary maximum represents a true growing season or not. Therefore, an amplitude threshold is used to remove seasons that are smaller than the given threshold. A detailed description of the determination of the number of growing season is found in the TIMESAT software manual.

After the number of growing seasons have been determined double logistic functions are fitted to the data from each pixel. This is done to generate smooth continuous functions that well describe each individual growing season. It is assumed that most of the noise included in PPI (or any other vegetation index) results in negative bias of the values. Therefore, iterative adaptation of the logistic functions to the upper envelope of the data is applied in the following step. The function fit is performed on the PPI data. Values less than the first function fit are then considered as influenced by noise and thus less important, so their weights are decreased for the next iteration of the function fitting.

Phenological metrics (and other parameters describing character of the given growing season) are finally extracted from the fitted function data.

The following parameters are extracted for each detected growing season to determine the length of the growing season:

Start-Of-Season (SOS): date of the start of the season defined as the date when the PPI has increased to the 20% level of the average annual PPI amplitude (Jin et al. 2017). The average annual PPI amplitude is the difference between the average peak level and the average base level for each pixel.

End-Of-Season (EOS): date of the end of the season defined as the date when the PPI drops under the 20 % level of the average annual PPI amplitude (Jin et al. 2017).

The season length is the difference of the EOS day and the SOS day, in days. For this indicator 20% of the seasonal PPI amplitude was used as the SOS and EOS detection threshold.

The output of the process is a season length metrics for each year of the time series 2000-2016 (17 years) covering the EEA39 territory. The spatial resolution of the productivity dataset is 500mx500m pixel size.

Detailed description of the methodology for calculating the productivity metric can be found in the TIMESAT software manual (publically available)

References:

Jönsson P., Eklundh L., 2004. TIMESAT—a program for analyzing time-series of satellite sensor data. Computers & Geosciences 30 (2004) 833–845.

Eklundh L., Jönsson P., 2015. TIMESAT: A Software Package for Time-Series Processing and Assessment of Vegetation Dynamics. In: Kuenzer C., Dech S., Wagner W. (eds) Remote Sensing Time Series. Remote Sensing and Digital Image Processing, vol 22. Springer, Chambridge.

Jin, H., Eklundh, L. 2014. A physically based vegetation index for improved monitoring of plant phenology, Remote Sensing of Environment, 152, 512 – 525.

Karkauskaite, P., Tagesson, T., Fensholt, R., 2017. Evaluation of the Plant Phenology Index (PPI), NDVI and EVI for Start-of-Season Trend Analysis of the Northern Hemisphere Boreal Zone, Remote Sensing, 9 (485), 21 pp.

Jin, H.X.; Jönsson, A.M.; Bolmgren, K.; Langvall, O.; Eklundh, L., 2017. Disentangling remotely-sensed plant phenology and snow seasonality at northern Europe using MODIS and the plant phenology index. Remote Sensing of Environment 2017,198, 203-212.

Abdi, A. M., N. Boke-Olén, H. Jin, L. Eklundh, T. Tagesson, V. Lehsten and J. Ardö (2019). First assessment of the plant phenology index (PPI) for estimating gross primary productivity in African semi-arid ecosystems. International Journal of Applied Earth Observation and Geoinformation 78: 249-260.

Jin, H., A. M. Jönsson, C. Olsson, J. Lindström, P. Jönsson and L. Eklundh (2019). New satellite-based estimates show significant trends in spring phenology and complex sensitivities to temperature and precipitation at northern European latitudes. International Journal of Biometeorology 63(6): 763-775.

Metadata

File identifier

1be91ed4-2eb1-46d6-8453-5246c9e9d446 XML

Metadata language

English

Character set

UTF8

Hierarchy level

Dataset

Date stamp

2020-07-10T15:33:32Z

Metadata standard name

ISO 19115/19139

Metadata standard version

1.0

Metadata author

Organisation name	Individual name	Electronic mail address	Website	Role
European Environment Agency		sdi@eea.europa.eu		Point of contact