Copernicus High Resolution Vegetation Phenology and Productivity for Doñana LTSER Platform

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說明

GeoTIFF rasters with the following phenometrics obtained from Sentinel 2 Data:. * Start of the season Day of the Year (SOSD) * Maximun of the Season Day of the Year (MAXD) * End of the Season Day of the Year (EOSD) * Start of the season Value (SOSV) * Maximun of the Season Value (MAXV) * End of the Season Value (EOSV) These rasters have been downloaded, mosaicked and croped with Doñana Natural Space DEIMS.ID through Pyvpp python package.

版本

以下的表格只顯示可公開存取資源的已發布版本。

如何引用

研究者應依照以下指示引用此資源。:

García Díaz D., Díaz-Delgado R. (2023). Copernicus High Resolution Vegetation Phenology and Productivity for Doñana Natural Space. Version 1.0. No organization. Metadata dataset. https://ipt-demo.gbif.es/resource?r=phenometrics_end&v=1.0

權利

研究者應尊重以下權利聲明。:

This work is licensed under a Creative Commons Attribution Non Commercial (CC-BY-NC 4.0) License.

GBIF 註冊

此資源尚未向GBIF註冊

關鍵字

Metadata; Phenology; Phenometrics; Sentinel 2; SUMHAL; eLTER

聯絡資訊

Diego García Díaz

連絡人

GIS & Remote Sensing Technician

Estacion Biologica de Doñana

Avenida Amercio Vespucio 26

41092 Sevilla

SEVILLA

rdiaz@ebd.csic.es

954466700

https://pti-teledetect.csic.es/project/el-equipo_diego-garcia-diaz/

https://orcid.org/0000-0002-2757-7112

Diego García Díaz

連絡人

GIS & Remote Sensing Technician

Estacion Biologica de Doñana

Avenida Amercio Vespucio 26

41092 Sevilla

SEVILLA

diegogarcia@ebd.csic.es

954466700

https://pti-teledetect.csic.es/project/el-equipo_diego-garcia-diaz/

https://orcid.org/0000-0002-2757-7112

Ricardo Díaz-Delgado

連絡人

Tenured scientist

Estacion Biologica de Doñana

Avenida Amercio Vespucio 26

41092 Sevilla

SEVILLA

digd.geografo@gmail.com

954466700

http://www.ebd.csic.es/ricardo/ricardo.htm

https://orcid.org/0000-0002-0460-4616

Ricardo Díaz-Delgado Hernández

使用者

rdiaz@ebd.csic.es

地理涵蓋範圍

Donana Natural Space, Gulf of Cádiz (Southwest Spain). Also see: https://deims.org/bcbc866c-3f4f-47a8-bbbc-0a93df6de7b2

界定座標範圍	緯度南界經度西界 [36.686, -6.943], 緯度北界經度東界 [37.788, -5.823]

時間涵蓋範圍

起始日期 / 結束日期	2017-01-01 / 2022-12-31

計畫資料

The SUMHAL project, Sustainability for Mediterraean Hotspots in Andalusia integrating LifeWatch ERIC, is a European project within the ERDF programme of actions related to the pan-European distributed e-Science infrastructure LifeWatch ERIC, with headquarters in Andalusia-Spain. It is funded by the Spanish Ministry of Science and Innovation, through the European Regional Development Funds (ERDF) [SUMHAL, LIFEWATCH-2019-09-CSIC-4, POPE 2014-2020]. The key purpose of the project is to contribute to the conservation of biodiversity in natural or semi-natural systems in the Western Mediterranean, making use of high-tech infrastructures, fieldwork, data integration and the development of virtual research environments (VREs), as well as the combination of highly specialised research staff and citizens through citizen science actions.

計畫名稱	SUMHAL: Sustainability for Mediterranean Hotspots in Andalusia integrating LifeWatch ERIC (SUMHAL)
辨識碼	LWE2103022
經費來源	MICINN through European Regional Development Fund [SUMHAL, LIFEWATCH-2019-09-CSIC-4, POPE 2014-2020]
研究區域描述	Doñana Long-Term Socio-ecological Research Platform (https://deims.org/bcbc866c-3f4f-47a8-bbbc-0a93df6de7b2)
研究設計描述	Remote sensing is an essential tool to carry out all these long-term ecological monitoring tasks, thanks to the collection of data through satellite, aircraft, drone and in-situ images. In this sense, in work package 6 of the SUMHAL, PhenoApp (which is the app who integrate the current and some other datastes) application has been developed, enabling the integration of phenology remote sensing data into Virtual Research Environments (VRE). This application aims to integrate data obtained in situ by eight phenocameras installed in the Doñana Natural Area by the Doñana Singular Scientific-Technical Infrastructure (ICTS-RBD) together with images from ESA's Sentinel-2 satellites (Copernicus Programme) and MODIS.

取樣方法

These phenometric rasters have been created from the Seasonal Trajectories PPI Index gapfilled data. A product with out NoData created from and smoith curve of the real data obtained from the satellite. This gapfilled product allows the use of a mathematical approach to the phenological curve of every pixel from which phenometrics could be estimated.

研究範圍	Year composites at 10 meters of spatial resolution with phenometrics for Doñana Long-Term Socio-ecological Research Platform derived from Sentinel 2 Satellite Imagery Data.
品質控管	Quality control for product generation is made by Copernicus (European Spatial Agency). Besides, we apply cross validation with other satellite phenometrics derived data and with some Ground Control Data. Plus, we have 8 Phenocams distributed in Doñana National Park that are also used as ground truth data in the validation process. More info about the Copernicus product and its quality control can be retrieved here: https://doi.org/10.1016/j.rse.2021.112456

研究範圍

Year composites at 10 meters of spatial resolution with phenometrics for Doñana Long-Term Socio-ecological Research Platform derived from Sentinel 2 Satellite Imagery Data.

品質控管

Quality control for product generation is made by Copernicus (European Spatial Agency). Besides, we apply cross validation with other satellite phenometrics derived data and with some Ground Control Data. Plus, we have 8 Phenocams distributed in Doñana National Park that are also used as ground truth data in the validation process. More info about the Copernicus product and its quality control can be retrieved here: https://doi.org/10.1016/j.rse.2021.112456

方法步驟描述:

We have developed our own tool to download Wekeo data, a python package called "Pyvpp" that get profite of Deims python package to just type the eLTER site ID and the tool will do the search for the intersecting Sentinel 2 Tiles, perform the download, make a mosaic and crop it with the eLTER site boundaries. After that, the phenomterics mosaics are upload to Google Earth Engine, so that they can be accessed from our application.

引用文獻

Tian, F., Cai, Z., Jin, H., Hufkens, K., Scheifinger, H., Tagesson, T., Smets, B., Van Hoolst, R., Bonte, K., Ivits, E., Tong, X., Ardö, J., Eklundh, L. 2021. Calibrating vegetation phenology from Sentinel-2 using eddy covariance, PhenoCam, and PEP725 networks across Europe. Remote Sensing of Environment, 260, https://doi.org/10.1016/j. rse.2021.112456
Richardson, A., Hufkens, K., Milliman, T. et al., 2018. Tracking vegetation phenology across diverse North American biomes using PhenoCam imagery. Scientific Data 5, 180028. https://doi.org/10.1038/s41597-019-0229-9
Wu, Q. 2020. Geemap: A Python package for interactive mapping with Google Earth Engine. The Journal of Open Source Software, 5(51), 2305. https://doi. org/10.21105/joss.02305
Wohner, C., Peterseil, J., Klug, H. 2022. Designing and implementing a data model for describing environmental monitoring and research sites. In Ecological Informatics, 70, p. 101708). Elsevier BV. https://doi.org/10.1016/j.ecoinf.2022.101708
García-Díaz, D., Díaz-Delgado, R. 2023. PhenoApp. A Google Earth Engine based tool for monitoring phenology. Revista de Teledetección,61, 73-81. https://doi.org/10.4995/raet.2023.18767

額外的詮釋資料

目的	This dataset have been created has part of the PhenoApp application and processing framework developed for SUMHAL and eLTER projcts. The goal of this work is the cross validation and downscaling of satellite and ground collected data.
維護說明	This product will be updated every year when the new phenometrics were available.
替代的識別碼	https://ipt-demo.gbif.es/resource?r=phenometrics_end