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Global land cover observations and assessments: Update on activities for GEO task DA-09-03a Martin Herold & Tom Loveland GOFC-GOLD project office / USGS.

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Presentation on theme: "Global land cover observations and assessments: Update on activities for GEO task DA-09-03a Martin Herold & Tom Loveland GOFC-GOLD project office / USGS."— Presentation transcript:

1 Global land cover observations and assessments: Update on activities for GEO task DA-09-03a Martin Herold & Tom Loveland GOFC-GOLD project office / USGS www.fao.org/gtos/gofc-gold www.gofc-gold.uni-jena.de Global Observations of Forest Cover and Land Dynamics

2 Overview 1.Political initiatives driving observation progress and needs for validation –UNFCCC and observing land cover as ECV 2.Global land cover observations –MODIS and GLOBCOVER –Best use of existing reference datasets 3.Coordinated effort to develop LC validation database and “best map” 4.Assessment for fine-scale land cover change and area estimates –Post-Kyoto agreement and best practices

3 International drivers 1.United Framework Convention on Climate Change: –Reduce uncertainties in monitoring the global climate system through observing essential climate variables –Capacity building needs to address stronger role of developing countries in post-2012 agreement Major REDD readiness funds are currently being allocated 2.Group on Earth Observation (GEO) task DA-07-02: –Provide a suite of global land cover datasets, initially based on improved and validated moderate resolution land cover maps and eventually including land-cover change at high resolution (task co-lead by USGS and GOFC-GOLD) 3.Global land cover monitoring and assessments: –GLOBCOVER, FAO-Forest Resources Assessm. 2010 –Operational validation / Efforts for deriving “Best map”

4 Details on GEO task DA-09-03a 1.Advocate existing internationally-agreed approaches to systematic land cover characterization) and (LCCS classifiers validation (CEOS protocols) 2.Utilize and validate moderate resolution time series data and land cover data sets (i.e. GLOBCOVER, MODIS500) and earlier 1-km resolution maps (i.e. GLC2000, IGBP-DIS) 3.Formulate specifications and implement production of a global high-resolution land cover and land change data set and report 4.Set up a centralized web-based access to existing land cover data 5.Identify opportunities for applying land cover data in areas related to key societal benefits. 6.Strengthen national level capacities to produce and use these products especially in developing countries

5 2006-2007 2008 2009 2010 2011 Global level National level Strategies (IGOS): Integrated Global Observations for land (IGOL) Standards: LCCS land cover classifiers and validation procedures Harmonization: “best” available map New global products: GLOBCOVER and MODIS5000 Continuity of observations: Mid-decadal global Landsat survey (MDGLS) Global Land Survey 2010 Specifications for fine-scale global land cover change dataset (incl. validation framework) Technical guidance for UNFCCCC/REDD (GOFC-GOLD sourcebook) Integration of IGOL into GEO Capacity building and support of global assessments: GLCN + GOFC-GOLD networks / FAO-FRA global remote sensing survey Land cover as Essential Climate Variable: definition & implementation Activities of GEO task DA-09-03a

6 Land monitoring and the UNFCCC Observing essential climate variables (ECV)  Reduce uncertainties in monitoring the global climate system  Land cover as key variable  Development of standards and prepare implementation programmes Reducing emissions from deforestation and forest degradation (REDD)  Stronger mitigation role of developing countries in post-2012 agreement  Remote sensing capabilities to build national forest carbon monitoring systems Achard, Herold et al., http://www.gofc-gold.uni-jena.de/redd Herold et al., www.fao.org/gtos/topcECV.html Major investments in land monitoring, estimation and accounting

7 Observing land cover as ECV www.fao.org/gtos/

8 GCOS implementation plan actions for land cover 1.Establish international standards (T22)  UN Land Cover Classification System (LCCS) classifiers 2.Methods for map accuracy assessment (T23)  CEOS WGCV/GOFC-GOLD best practices report 3.Continuity for fine-scale satellite observations (T24)  Commitments to operate Landsat 8 (US) and Sentinel 2 (EU) 4.Develop an in situ reference network (T25)  Global operational validation implementation plan 5.Annual global land-cover products (T26)  Release (and continuation) of GLOBCOVER 6.High-resolution global land cover change (T27)  FAO/FRA 2010 global sampling & GEO definition of specifications

9 Harmonized land cover characterization Existing global land cover datasets Deciduous Artificial Snow & Ice Bare Herbaceous Shrubs Common land cover classifiers (LCCS) Trees Cover type/ life form Evergreen Leaf longevity Leaf type Broadleaved Needle-leaved Cultivated / managed Aquatic/ flooded “Living” validation database for comparative assessment

10 SYNMAP – for carbon cycle modeling SYNMAP – a global synthesis product of existing global land cover maps to provide a targeted and improved land cover map for carbon cycle modelling purposes; here shown as life form assemblages (Source: M. Jung et al. 2006, Remote Sensing of Environment).

11 Assessing accuracy of global datasets Based on GLC2000 reference database (2000) with 1253 secondary samples world wide interpreted with Landsat data. All global land cover products have been translated and aggregated according to the generalized legend for 11 classes.

12 GLOBCOVER (2005/6) Dataset release: September 2008

13 International consensus on technical issues “Best Practices Document” Strahler et al., 2006

14 GLOBCOVER validation 14 More than 4300 validation points interpreted by int. experts Blue points: Globcover project (3835 points) + Gond’s set (n~80) (including 225 double interpretation by 2 experts) Brown points: IMWI data (403 points) Global area weighted accuracy: ~73 % based on 3167 reference points Validation report available ~ 15. October 2008

15 Operational lc validation framework Degree of usability and flexibility Updated valid./change Validation of new products Design based sample of reference sites In-situ global Primary validation LCCS-based Interpretation (Regional Networks) Reference database: statistically robust, consistent, harmonized, updated, and accessible Updated interpretations Time Comparative validation Existing global LC products Legend translations Product synergy Data reprocessing Link to regional datasets

16 Operational lc validation framework Effort serves purpose for estimating: –Individual map accuracy / best available map –Area of land-cover classes or land-cover change Sampling design: –10 km by 10 km block (Landsat – MODIS) –Flexible to increase sample size to provide precise country or region specific estimates –Stratification by geographic reporting regions, areas where maps differ, important rare land-cover classes Response design: –Reference data (i.e. SPOT) interpreted by regional experts (i.e. GOFC-GOLD networks) using LCCS classifiers Analysis design: –Error matrix for each map and region –Estimates of class area –Supplementary accuracy information on land-cover composition and landscape pattern

17 Fine-scale land cover change Suite of national / regional experiences: –National/regional monitoring programs –UNFCCC Kyoto reporting on LULUCF/AFOLU UNFCCC process on reducing emissions from deforestation in developing countries: –case studies, readiness activities, post 2012 Projects with global/large scale focus: –EU/JRC: TREES 3 (sampling approach) –UMD/SDSU: combined MODIS/Landsat approach FAO-Forest Resources Assessment 2010 Accuracy assessment of area changes?

18 Satellite observation system/program Technical observation challenges solved Access to information on quality of archived data worldwide Continuous observation program for global coverage Pre-processed global image datasets generated & accessible Image data available in mapping agencies for land change analysis Capacities to sustainably produce/use map products in developing countries OPTICALOPTICAL LANDSAT TM/ETM ASTEROn demand SPOT HRV (1-5)Commercially CBERS 1-3Regionally IRS / Indian programRegionally DMC programProbablyCommercially SARSAR ALOS/PALSAR + JERSRegionally ENVISAT ASAR, ERS 1/2Regionally TERRARSAR-XCommercially IKONOS, GEOEyeProbablyCommercially ICESAT/GLAS (LIDAR) Current availability of fine-scale satellite data sources and capacities for global land cover change observations (Note: dark gray=common or fully applicable, light gray=partially applicable/several examples, white=rare or no applications or examples)

19 Goals – Disseminate US earth observation data in regions where available distribution methods are not effective – Compile regional and in country data sets relevant to land cover and fire observations and make them freely available to the international community – Engage regional expertise in global data set development, evaluation and validation Opportunity – USGS to complete the orthorectified GLS 2005 data set and provide free access to Landsat 4–7 archive – New LC and LCC products using GLS data and use of Landsat data for validating global science results – Growing MODIS record and availability of MODIS-based fire and LC/change products Approach -- GOFC-GOLD regional network structure will be used to establish regional nodes within the networks to : – disseminate data on media (DVD, Disk) – encourage regional products to be developed using the data – collect and document information on regional data sets and their availability within GOFC- GOLD thematic domain Pilot for Africa – Involves 5 regional networks – Network representatives to receive data and training over 3 weeks at USGS EDC and South Dakota State University (SDSU) in 2009 – Support provided by START; partnership development with USGS, UNEP, SDSU GOFC-GOLD Regional Network Data Initiative

20 FAO FRA 2010 –remote sensing survey ~ 13,500 monitoring sites

21 Earth observation contribution to UNFCCC-REDD 2005 GOFC-GOLD working group est. COP11 Montreal GTOS submission I Subm. of view by parties I 1 st GOFC-GOLD workshop ED/GOFC SBSTA side event SBSTA 24 1 st SBSTA workshop GTOS/GOFC report COP12 Nairobi ESA/GOFC Side event + booth Subm. of view by parties II 2 nd SBSTA workshop SBSTA 26 2 nd GOFC-GOLD workshop ESA/GOFC- GOLD side event GTOS submission II COP13 Bali 1.+ 2. REDD Sourcebook draft WINROCK/ GOFC-GOLD side event 2006 20072008 2009 Subm. of view by parties III + IV GTOS submission III SBSTA 28 GTOS/GOFC -GOLD side event 3 rd GOFC-GOLD workshop COP14 Poznan 3 rd SBSTA workshop SBSTA 30 COP15 Copenhagen PNG / GOFC-GOLD side event Informal REDD workshop GOFC-GOLD side event

22 Sourcebook cover

23 Variability in capacities for REDD monitoring Consideration of factors: 1.Requirements for monitoring forest carbon on national level (IPCC GPG) 2.Existing national capacities for national forest monitoring 3.Progress in national GHG inventory and engagement in REDD 4.REDD particular characteristics: importance of forest fires, soil carbon, deforestation rate etc. 5.Specific technical challenges (remote sensing): cloud cover, seasonality, topography, remote sensing data availability and access procedures Larger Smaller Capacity gap:

24 Some technical challenges for remote sensing Mean annual cloud cover Seasonality Topography Country coverage of Landsat 5 receiving stations Mean annual cloud free country coverage with SPOT data 2006-08 Average internet download speed Percent Variability in cloud cover (%) Area with steep slopes (%)

25 Remote sensing support for carbon estimation  Direct biomass mapping from space remains a challenge  Existing capabilities:  Satellite observation may help to map some specific forest types (i.e. mangroves, plantations etc.)  Targeted remote surveys to support carbon monitoring: Very high resolution satellite or airborne data of air-photo quality to assist field surveys Sensitivity of LIDAR and long-wave RADAR observations (few regional examples) Integration of in-situ and satellite data for large scale biomass mapping Direct estimation of emissions from fire radiative power  Technologies are not operational globally but evolving

26 GOFC-GOLD biomass working group Summary of 1. GOFC-GOLD biomass WG meeting, Missoula, Montana, June 15, 2009 www.fao.org/gtos/gofc-gold www.gofc-gold.uni-jena.de Global Observations of Forest Cover and Land Dynamics

27 Initial set of goals and objectives 1.Establish a platform for coordination and cooperation for biomass monitoring 2.Develop a community-consens framework for monitoring biomass globally 3.Dedicated contributions to key international activities:  Consensus framework on how to observe biomass as ECV and support of evolving programs  GOFC-GOLD contribution to GEO tasks  GOFC-GOLD technical REDD sourcebook  Support of space agencies and plans for dedicated missions (BIOMASS, Desdiny etc.)  Integrate activities with other ECV observation products (land cover and fire) 4.Foster comparison and synergy among existing datasets

28  Development and implementation of IGOL  Evolve community consensus input to global land monitoring  Improved, validated, harmonized and up-to-date global moderate resolution land cover datasets  Specifications and implementation plan for production of global high-resolution land-cover and land cover change data products  Support to UNFCCC: –Specific land cover tasks in GCOS implementation plan –REDD: sourcebook and technical guidance for post 2012 climate agreement  Ongoing cooperation with other tasks: –FAO-FRA 2010 remote sensing survey –Engage further user communities –Foster provision of baseline satellite data –Forest Carbon Tracking DA-09-03a summary

29 Web resources GOFC-GOLD: –http://www.fao.org/gtos/gofc-gold/ GOFC-GOLD land cover project office: –http://www.gofc-gold.uni-jena.de/ GOFC-GOLD REDD sourcebook: –http://www.gofc-gold.uni-jena.de/redd IPCC background paper on use of remote sensing in LULUCF sector (GOFC-GOLD 33): –http://www.fao.org/gtos/gofc-gold/series.html UNFCCC/SBSTA technical paper on costs of monitoring for REDD –http://unfccc.int/resource/docs/2009/tp/01.pdf

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