NCEO Carbon Cycle

Lead Research Organisation: National Centre for Earth Observation

Abstract

The NCEO Carbon Cycle Programme aims to understand the feedbacks between physical and biological processes involving the carbon cycle, in order to predict changes in carbon fluxes at the Earth's surface. Understanding the role of the carbon cycle in the Earth system is crucial. It is closely coupled to greenhouse gas induced climate change, the water cycle, marine and land productivity and biodiversity. If we can better understand the interaction of physical and biological processes in the carbon cycle and climate, our ability to predict future changes in carbon fluxes and reservoirs will be enhanced. We need to quantify the global carbon budget, in regional detail, by combining space observations of surface processes with the next generation of atmospheric carbon and ground-based measurements. Our research priorities are: a) to combine satellite measurements of the Earth's surface and atmosphere with bio-physical models of the land and ocean, in order to quantify surface fluxes of carbon dioxide and methane, and understand the processes that drive them; b) to improve quantification of the role played by fire in the Earth system; c) to identify the relative weighting of the key processes affecting the carbon balance of the tropics and in so doing provide support for negotiations on the post-Kyoto Protocol reduced deforestation mechanism and the associated benefits for biodiversity; d) to determine the importance of shelf seas with their high biological productivity and hence strong draw down of CO2.

Funded Value:

£4,423,825

Funded Period:

Mar 08 - Sep 14

Funder:

NERC

Project Status:

Closed

Project Category:

Other Grant

Project Reference:

earth010003

Principal Investigator:

Peter Jan Van Leeuwen

Research Topic:

Unclassified

Organisations

People	ORCID iD
Peter Jan Van Leeuwen (Principal Investigator)

Publications

Author Name

Title Publication Date Published

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QUEGAN S (2011) Estimating the carbon balance of central Siberia using a landscape-ecosystem approach, atmospheric inversion and Dynamic Global Vegetation Models THE CARBON BALANCE OF CENTRAL SIBERIA in Global Change Biology

QUAIFE T (2008) Assimilating canopy reflectance data into an ecosystem model with an Ensemble Kalman Filter in Remote Sensing of Environment

Quaife T (2010) Temporal Constraints on Linear BRDF Model Parameters in IEEE Transactions on Geoscience and Remote Sensing

Quaife T (2008) Impact of land cover uncertainties on estimates of biospheric carbon fluxes IMPACT OF LAND COVER ON C FLUXES in Global Biogeochemical Cycles

Pritchard HD (2009) Extensive dynamic thinning on the margins of the Greenland and Antarctic ice sheets. in Nature

Powell TL (2013) Confronting model predictions of carbon fluxes with measurements of Amazon forests subjected to experimental drought. in The New phytologist

Platt T (2009) The phenology of phytoplankton blooms: Ecosystem indicators from remote sensing in Ecological Modelling

Platt T (2009) Diagnostic Properties of Phytoplankton Time Series from Remote Sensing in Estuaries and Coasts

Platt T (2008) Operational estimation of primary production at large geographical scales in Remote Sensing of Environment

Platt T (2008) Ecological indicators for the pelagic zone of the ocean from remote sensing in Remote Sensing of Environment

Piao S (2011) Contribution of climate change and rising CO2 to terrestrial carbon balance in East Asia: A multi-model analysis in Global and Planetary Change

Philip Lewis (Author) (2013) A Vision for a Land Observation System.

Pfeifer M (2012) Leaf area index for biomes of the Eastern Arc Mountains: Landsat and SPOT observations along precipitation and altitude gradients in Remote Sensing of Environment

Pfeifer M (2012) Terrestrial ecosystems from space: a review of earth observation products for macroecology applications Satellite products for macroecology in Global Ecology and Biogeography

Paugam R (2013) Use of Handheld Thermal Imager Data for Airborne Mapping of Fire Radiative Power and Energy and Flame Front Rate of Spread in IEEE Transactions on Geoscience and Remote Sensing

Parker R (2011) Methane observations from the Greenhouse Gases Observing SATellite: Comparison to ground-based TCCON data and model calculations GOSAT CH 4 OBSERVATIONS in Geophysical Research Letters

Paoli GD (2011) Policy perils of ignoring uncertainty in oil palm research. in Proceedings of the National Academy of Sciences of the United States of America

Palmer P (2011) Spatial resolution of tropical terrestrial CO<sub>2</sub> fluxes inferred using space-borne column CO<sub>2</sub> sampled in different earth orbits: the role of spatial error correlations in Atmospheric Measurement Techniques

Palacz A (2013) Distribution of phytoplankton functional types in high-nitrate, low-chlorophyll waters in a new diagnostic ecological indicator model in Biogeosciences

PAGE S (2011) Global and regional importance of the tropical peatland carbon pool TROPICAL PEATLAND CARBON POOL in Global Change Biology

Page S (2008) Restoration Ecology of Lowland Tropical Peatlands in Southeast Asia: Current Knowledge and Future Research Directions in Ecosystems

Ostle N (2009) Integrating plant-soil interactions into global carbon cycle models in Journal of Ecology

Oshchepkov S (2012) Effects of atmospheric light scattering on spectroscopic observations of greenhouse gases from space: Validation of PPDF-based CO 2 retrievals from GOSAT VALIDATION OF PPDF-BASED CO 2 RETRIEVALS in Journal of Geophysical Research: Atmospheres

Oshchepkov S (2013) Effects of atmospheric light scattering on spectroscopic observations of greenhouse gases from space. Part 2: Algorithm intercomparison in the GOSAT data processing for CO 2 retrievals over TCCON sites GOSAT ALGORITHM COMPARISON in Journal of Geophysical Research: Atmospheres

Neill S (2009) The impact of tidal stream turbines on large-scale sediment dynamics in Renewable Energy

Key Findings
Impact Summary
Policy Influence
Further Funding
Collaboration
Engagement Activities


Description	1. The following are key findings of the biogeochemical data assimilation work carried out in the past year: a) first demonstration that the assimilation of remotely sensed optical properties,(Kd) is a novel and advantageous approach for marine ecosystem simulations and understanding (Ciavatta et al., in revision); b) first demonstration that assimilation of ocean color can impact the model simulation of relevant carbon processes, such as the microbial loop and trophic web (Ciavatta et al., in revision) c) ocean color data assimilation is a useful tool to improve the estimation of i) Essential climate Variables (ECVs); ii) indicator of Good Ecological State (GES), and iii) carbon fluxes in the whole North West European shelf-sea. (Brewin, Ciavatta, Allen, et al, Plymouth Marine Laboratory, March 2014) 2. Assessment of state-of-the-art chemical transport model calculations of CO2 and CH4 against GOSAT satellite data. (Boesch, Parker and Hewson, Leicester, March 2014) 3. Generation of global multi-year CO2 and CH4 dataset from GOSAT. (Boesch, Parker and Hewson, Leicester, March 2014) 4. First observations of fire emission ratio of CO2/CH4 from space (with KCL). (Wooster, KCL; Boesch, Parker and Hewson, Leicester, March 2014) 5. Space-based surface flux estimates for CO2 and CH4 (Palmer et al Edinburgh; Chipperfield et al Leeds; Boesch, Parker and Hewson, Leicester, March 2014) 6. Assessment of biogenic emissions with long-term data of formaldeyhde from GOME-2. (Boesch, Parker and Hewson, Leicester, March 2014) 7. A climate projection for the northwest European shelf under high greenhouse gas concentrations: The NEMO-ERSEM coupled model was used to simulate the hydrodynamics and ecosystem of the northwest European shelf under a climate projection from 1980 to 2058. Atmospheric forcing was provided by the Hadley Centre's HadGEM2 model for a high greenhouse gas concentration scenario (IPCC-AR5 RCP8.5). The simulation was started in 1980 to allow validation against climatic conditions in the recent past. This is the first transient run of the coupled model for this region; earlier work involved simulating 10-20 year time slices at future time periods for comparison with past conditions. The transient approach removes uncertainties involved with model spin up and allows any emergent climate change signals to be identified compared to the variability of the system on annual to multi-decadal timescales. (Wakelin, National Oceanographic Centre Liverpool, March 2014) 8. That for the first time it has been shown possible to measure emissions ratios of smoke within wildfire plumes, including with CO2 as the reference species (Which is important as CO2 is the primary emitted product in such plumes, and the primary GHG). (M Wooster, Kings College London, March 2014) 9. We proposed a new, physically-based model to derive canopy gaps and canopy cover from airborne lidar data. Canopy gaps and cover are important properties relating to vegetation type and state for ecology, biodiversity, and habitat mapping and monitoring. Airborne lidar is increasingly widely-used for this, particularly by national mapping and monitoring agencies. Until now this has relied on empirical methods that need local calibration, and are therefore not general. We demonstrated that our method works extremely well over various forested regions in Australia and in China. Our method is currently being trialled for large-scale canopy mapping by the Queensland government. (Disney, Lewis et al, UCL, March 2014) 10. We demonstrated the application of terrestrial laser scanning for estimating above ground biomass in tropical forests, for the first time. We deployed a new laser scanner in Gabon, W. Africa and showed that we could reconstruct tree height, volume and mass more accurately than current survey methods. Our method therefore allows us to estimate tropical forest biomass independent of the allometric (scaling) relationships that currently underpin all estimates of tropical forest carbon stocks. These relationships rely on historical destructive measurements of around 1600 trees worldwide, with none in Africa and few over 70 cm in diameter. In 3 weeks we measured nearly 1000 trees, thus almost doubling the possible number of trees for deriving allometrics in the tropics. We will be extending these measurements across the tropics with our newly-acquired NERC funded lidar instrument. (Disney, Lewis et al, UCL, March 2014) 11. We used all the available Earth Observation data to show that there are only a few different types of fire behaviour globally. This is of great importance in understanding fire ecology and disturbance, but it is also an excellent test of the ability of current fire models embedded in land surface schemes. (Disney, Lewis et al, March 2014) 12. We demonstrated a new method to blend all kinds of Earth Observation data in order to improve global vegetation monitoring capabilities. The methods are statistically sound, and rely on physically based interpretation of the signals. The proposed method places particular emphasis in uncertainty quantification. We released the software tools to allow other researchers to use them, and have recently run a training course to aid this process. (Disney, Lewis et al, March 2014)
Exploitation Route	1. The reanalysis of the North West European shelf biogeochemistry can be exploited to plan interventions to achieve good environmental status in the North West European Shelf (e.g. estimation of the maximum permissible loads from waste water treatment plants). (Brewin, Ciavatta, Allen, et al, Plymouth Marine Laboratory, March 2014) 8. Since the emission ratios are vital for emissions calculations - being able to directly measure them from space rather than just relying on lab measurements could potentially make GHG budgeting less uncertain in areas where fire is important (e.g. in Indonesia deforestation fires make up perhaps 80% of the GHG emission and it is the third largest GHG emitter worldwide). (M Wooster, Kings, 2014) 9.Method being tested by Australia govt monitoring programme for large-scale, via collaboration with Department of Science, Information Technology, Innovation and the Arts, Queensland, and the Australian Terrestrial Ecosystem Monitoring Network. http://www.tern.org.au/ (Disney, Lewis et al, UCL, March 2014) 10. There is wide interest/application of forest biomass estimates for biodiversity and conservation, REDD+ preparation and for commercial forestry. We are working with groups in all of these sectors to exploit our new methods and results. http://blog.geog.ucl.ac.uk/blog-entries/gabon-quantifying-forest-structure (Disney, Lewis et al, March 2014). 12. The optical EO data related to the land surface that will be provided by the COPERNICUS programme could be processed using our method, to improve on inter-sensor calibration, more robust atmospheric correction, and also providing more accurate land surface monitoring. (Disney, Lewis et al. UCL, March 2014) 1. The reanalysis of the North West European shelf biogeochemistry can be exploited by Institutional Agency and Policy Maker to better assess the Environmental Status of the marine ecosystem in accordance to the requirements of the Marine Strategy Framework Directive. (Brewin, Ciavatta, Allen, et al, Plymouth Marine Laboratory, March 2014) 8. Potential to develop new spaceborne missions to exploit this capability. (M Wooster, Kings, March 2014) 9. A practical, widely-applicable method that is suitable for wide-scale mapping by government monitoring and forestry agencies. (Disney, Lewis et al, UCL, March 2014)
Sectors	Environment
URL	http://www.tern.org.au/


Description	Application of new method We have developed a physical model that explains the change in reflectance due to fire, and that relates it to the impact of fire on vegetation. This is an important step, as burned area datasets are basically a binary map determining where (and when) fire happened, but not quantifying the impact of fire on the vegetation.
Sector	Environment
Impact Types	Societal


Description	Modelling dissolved oxygen and benthic algae dynamics in a coastal ecosystem by exploiting real-time monitoring data
Geographic Reach	National
Policy Influence Type	Contribution to a national consultation/review


Description	Advancing marine ecosystem understanding and predictions using a novel data-assimilation method
Amount	£65,000 (GBP)
Funding ID	1499085
Organisation	Research Councils UK (RCUK)
Sector	Public
Country	United Kingdom
Start	03/2014
End	03/2017


Description	Advancing marine ecosystem understanding and predictions using a novel data-assimilation method
Amount	£65,000 (GBP)
Funding ID	1499085
Organisation	Research Councils UK (RCUK)
Sector	Public
Country	United Kingdom
Start


Description	Application of a new bolometer processing technique for fire measurement
Amount	£60,000 (GBP)
Funding ID	Center for Earth Observation Instrumentation
Organisation	Research Councils UK (RCUK)
Sector	Public
Country	United Kingdom
Start	01/2013
End	08/2013


Description	Application of a new bolometer processing technique for fire measurement
Amount	£60,000 (GBP)
Funding ID	Center for Earth Observation Instrumentation
Organisation	Research Councils UK (RCUK)
Sector	Public
Country	United Kingdom
Start	01/2013
End	12/2013


Description	DEcadal Changes In PHytoplankton community Ecology though Remote sensing (DECIPHER)
Amount	£61,461 (GBP)
Organisation	European Space Agency
Sector	Public
Country	France
Start


Description	DEcadal Changes In PHytoplankton community Ecology though Remote sensing (DECIPHER)
Amount	£61,461 (GBP)
Organisation	European Space Agency
Sector	Public
Country	France
Start	03/2013
End	03/2015


Description	EU FP7: QA4ECV
Amount	£127,000 (GBP)
Funding ID	607405
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	01/2014
End	12/2015


Description	EU FP7: QA4ECV
Amount	£127,000 (GBP)
Funding ID	607405
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	01/2014
End	12/2015


Description	Environmental Data Use for Determining the Temporal Carbon Flow Consequences of Biomass for Energy
Amount	£111,000 (GBP)
Funding ID	131531
Organisation	Innovate UK
Sector	Public
Country	United Kingdom
Start	01/2014
End	12/2014


Description	Integrated Marine Biogeochemical Modelling Network to Support UK Earth System Research
Amount	£157,487 (GBP)
Funding ID	NE/K001299/1
Organisation	Natural Environment Research Council
Sector	Public
Country	United Kingdom
Start	03/2012
End	03/2014


Description	Integrative Modelling for Shelf Seas Biogeochemistry
Amount	£135,611 (GBP)
Funding ID	NE/K001698/1
Organisation	Natural Environment Research Council
Sector	Public
Country	United Kingdom
Start	03/2013
End	03/2015


Description	MELODIES
Amount	£4,089,000 (GBP)
Funding ID	FP7 603525
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start


Description	MELODIES
Amount	£4,089,000 (GBP)
Funding ID	FP7 603525
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	03/2013
End	03/2016


Description	MYOCEAN II
Amount	£200,000 (GBP)
Funding ID	Ocean Colour
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	03/2012
End	03/2013


Description	MYOCEAN II
Amount	£35,000 (GBP)
Funding ID	WP19
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start


Description	MYOCEAN II
Amount	£35,000 (GBP)
Funding ID	WP19
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	03/2012
End	03/2013


Description	MYOCEAN II
Amount	£200,000 (GBP)
Funding ID	Ocean Colour
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start


Description	NERC Capital Award, Terrestrial Laser Scanner
Amount	£118,000 (GBP)
Organisation	Research Councils UK (RCUK)
Sector	Public
Country	United Kingdom
Start


Description	NERC Capital Award, Terrestrial Laser Scanner
Amount	£118,000 (GBP)
Organisation	Research Councils UK (RCUK)
Sector	Public
Country	United Kingdom
Start	02/2014
End	06/2014


Description	OceanFlux Greenhouse Gases ESA Project, D Woolff
Amount	€ 350,000 (EUR)
Organisation	European Space Agency
Sector	Public
Country	France
Start	11/2012
End	10/2014


Description	Operational Ecology (OPEC)
Amount	£300,000 (GBP)
Funding ID	European Project (283291)
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start


Description	Operational Ecology (OPEC)
Amount	£300,000 (GBP)
Funding ID	European Project (283291)
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	03/2012
End	03/2014


Description	PURE Associate Project
Amount	£25,000 (GBP)
Funding ID	NERC
Organisation	Natural Environment Research Council
Sector	Public
Country	United Kingdom
Start	03/2013
End	03/2014


Description	Shaun Quegan - Eurucas
Amount	£111,350 (GBP)
Funding ID	295068
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start


Description	Shaun Quegan - Eurucas
Amount	£111,350 (GBP)
Funding ID	295068
Organisation	European Commission
Sector	Public
Country	European Union (EU)
Start	03/2012
End	03/2015


Description	UK contribution to the internation Bio-Argo network
Amount	£508,000 (GBP)
Funding ID	NE/L012855/1
Organisation	Natural Environment Research Council
Sector	Public
Country	United Kingdom
Start	03/2013
End	03/2014


Description	Understanding the information content in diverse observations of forest carbon stocks and fluxes for data assimilation and modelling
Amount	£68,671 (GBP)
Funding ID	NE/K00705X/1
Organisation	Natural Environment Research Council
Sector	Public
Country	United Kingdom
Start	03/2013
End	03/2017


Description	Amazon Research
Organisation	Government of Brazil
Department	State Gov Sao Paolo in Brazil
Country	Brazil
Sector	Public
PI Contribution	Collaboration with several groups from Sao Paolo State in Brazil (UK/Brazil Research Network for an Amazonian Carbon Observatory funded by NERC and FAPESP)
Start Year	2012


Description	Collaboration with ICES working Group on hydrography
Organisation	Marine Scotland Science (MSS)
Country	United Kingdom
Sector	Public
PI Contribution	Collaborated with this group to analyse all sustained temperature observations on NW shelf to validate model and EO trends and variablity.
Start Year	2011


Description	Collaboration with Leicester and Surrey Satellite Technology on ESA Sentinel satellite
Organisation	Surrey Satellite Technology Ltd
Country	United Kingdom
Sector	Private
PI Contribution	not available
Start Year	2012


Description	Collaboration with Leicester and Surrey Satellite Technology on ESA Sentinel satellite
Organisation	University of Leicester
Country	United Kingdom
Sector	Academic/University
PI Contribution	not available
Start Year	2012


Description	Gabon National Parks Agency
Organisation	National Agency for National Parks (Gabon)
Country	Gabon
Sector	Public
PI Contribution	Laser scanning in tropical forests
Start Year	2011


Description	Marine Ecosystem Models
Organisation	Meteorological Office UK
Country	United Kingdom
Sector	Academic/University
PI Contribution	Methods for the validation of marine ecosystem models using Earth Observation data e.g wavelets
Start Year	2007


Description	Marine ecosystem indicators from the biogeochemical model ERSEM: Sensitivity analysis
Organisation	Nansen Environmental Research Centre (India)
Country	India
Sector	Academic/University
PI Contribution	Scientific collaboration and knowledge transfer within the EC FP7 Project "INDO-MARECLIM"
Start Year	2013


Description	NEMO Shelf-sea reanalysis
Organisation	Meteorological Office UK
Country	United Kingdom
Sector	Academic/University
PI Contribution	Collaborated with the UK Met Office in the development of NEMO-shelf towards a first shelf-sea reanalysis
Start Year	2008


Description	OCO-2 Science Team
Organisation	National Aeronautics and Space Administration (NASA)
Country	United States
Sector	Public
PI Contribution	Continued collaborations with the NASA OCO-2 teams, Hartmut Boesch is an OCO-2 Science Team member
Start Year	2009


Description	TANSAT
Organisation	TanSat (CarbonSat) mission
Country	China
Sector	Public
PI Contribution	Collaboration with the Chinese TANSAT team through the ESA Dragon-3 project
Start Year	2011


Description	UCL - RCN-SEES consortium (Research Coordination Network -- Science, Engineering, and Education for Sustainability)
Organisation	University College London
Department	RCN-SEES consortium (Research Coordination Network -- Science, Engineering, and Education for Sustainability)
Country	United Kingdom
Sector	Academic/University
PI Contribution	Developed existing collaboration with Boston University (Strahler, Schaaf) to participate in new opportunities for ground-based laser scanning of forest structure. Proposal submitted to NSF.


Description	UCL - Technical University of Tampere, Finland
Organisation	Tampere University of Technology
Country	Finland
Sector	Academic/University
PI Contribution	New collaboration to develop and exploit automated tree reconstruction methods from ground-based lidar. Journal publication arising and other field measurements and publications planned.


Description	UCL - Technical University of Tampere, Finland
Organisation	University College London
Country	United Kingdom
Sector	Academic/University
PI Contribution	New collaboration to develop and exploit automated tree reconstruction methods from ground-based lidar. Journal publication arising and other field measurements and publications planned.


Description	UCL - Univ. of Queensland and Queenland State Govt
Organisation	Bogazici University
Department	Kandilli Observatory and Earthquake Research Institute
Country	Turkey
Sector	Academic/University
PI Contribution	Developed new collaboration for exploiting airborne and ground-based lidar measurements of canopy structure in Australian forest and savanna ecosystems. Journal poublications arising, and new datasets collected.


Description	University of Leicester - Chinese TANSAT team
Organisation	University of Leicester
Country	United Kingdom
Sector	Academic/University
PI Contribution	Established new collaborations with Chinese TANSAT team for a joint ESA Dragon 3 proposal.


Description	University of Leicester - Indonesia Australi FCP
Organisation	Indonesia Australia FCP Forest Conservation Policy
Country	Papua New Guinea
Sector	Charity/Non Profit
PI Contribution	Indonesia Australia Forest Carbon Partnership (worked with this partnership on fire severity in a REDD+ demonstration project area in Indonesia as a contribution to development of a model for carbon emissions arising from degradation of tropical peat swamp forest).


Description	University of Leicester - Indonesia Australi FCP
Organisation	University of Leicester
Country	United Kingdom
Sector	Academic/University
PI Contribution	Indonesia Australia Forest Carbon Partnership (worked with this partnership on fire severity in a REDD+ demonstration project area in Indonesia as a contribution to development of a model for carbon emissions arising from degradation of tropical peat swamp forest).


Description	University of Leicester - JAXA Collaboration
Organisation	Meteorological Office UK
Country	United Kingdom
Sector	Academic/University
PI Contribution	Continued collaboration with GOSAT teams at JAXA, Tokyo


Description	University of Leicester - NASA
Organisation	University of Leicester
Department	NASA Swift
Country	United Kingdom
Sector	Academic/University
PI Contribution	Continued collaboration with the NASA ACOS and OCO teams


Description	University of Leicester - Tropical peat consortium
Organisation	Brazilian Agricultural Research Corporation
Country	Brazil
Sector	Public
PI Contribution	Tropical peat consortium (worked with a group of UK scientists with an interest in tropical peatlands to develop journal papers and a funding proposal to Leverhulme (proposal submitted).


Description	University of Leicester - Yonsei University, South Korea
Organisation	University of Leicester
Country	United Kingdom
Sector	Academic/University
PI Contribution	Established new collaboration with Yonsei University in South Korea. University of Leicester hosted two researchers at Leicester.


Description	University of Leicester - Yonsei University, South Korea
Organisation	Yonsei University
Country	Korea, Republic of
Sector	Academic/University
PI Contribution	Established new collaboration with Yonsei University in South Korea. University of Leicester hosted two researchers at Leicester.


Description	Yonsei University
Organisation	Yonsei University
Country	Korea, Republic of
Sector	Academic/University
PI Contribution	Collaboration with researchers at Yonsei University, South Korea in retrieval of CO2 and CH4 from GOSAT
Start Year	2012


Description	Gabon: quantifying forest structure
Form Of Engagement Activity	A magazine, newsletter or online publication
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Public/other audiences
Results and Impact	Web article by Mat Disney, October 2013 Increase in requests for further information.
Year(s) Of Engagement Activity	2013


Description	Laser scanner captures Billy the African elephant
Form Of Engagement Activity	A talk or presentation
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Other academic audiences (collaborators, peers etc.)
Results and Impact	Web article No description available.
Year(s) Of Engagement Activity	2013


Description	Laser-scanning elephants
Form Of Engagement Activity	A magazine, newsletter or online publication
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Public/other audiences
Results and Impact	Website blog Received requests for further information
Year(s) Of Engagement Activity	2013


Description	Not just for measuring trees: Laser scanner captures "Billy" the African elephant
Form Of Engagement Activity	A press release, press conference or response to a media enquiry/interview
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Media (as a channel to the public)
Results and Impact	Web article No description available.
Year(s) Of Engagement Activity	2013


Description	Seminar at Yonsei University, Seoul, South Korea
Form Of Engagement Activity	A talk or presentation
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Other academic audiences (collaborators, peers etc.)
Results and Impact	Seminar given by Dr Hartmut Boesch June 2013 Increased the international science community's knowledge and understanding of NCEO's science.
Year(s) Of Engagement Activity	2013


Description	Shining a light on forest structure in Brisbane, Australia
Form Of Engagement Activity	A magazine, newsletter or online publication
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Public/other audiences
Results and Impact	Blog article by Mat Disney Increase in requests for further information.
Year(s) Of Engagement Activity	2013


Description	What An Elephant Looks Like To Google's Self-Driving Car
Form Of Engagement Activity	A magazine, newsletter or online publication
Part Of Official Scheme?	No
Geographic Reach	International
Primary Audience	Public/other audiences
Results and Impact	Web article No description available.
Year(s) Of Engagement Activity	2013

Abstract

Organisations

People

ORCID iD

Publications