Download GEO BON and its contribution to global biodiversity observations

GEO Biodiversity Observation Network
and its contribution to global biodiversity observations
Bob Scholes1 and Rob Jongman 2
1. GEO BON chair Council for Scientific and Industrial Research, South Africa
2. GEOBON SC; Aterra, Wageingen UR
Group on Earth Observations
Biodiversity Observation Network
A global partnership to promote the collection, sharing,
management, analysis and & reporting of data relating to the
status of the world’s biodiversity, across all taxa and domains,
for all aspects of biodiversity at the gene, species and
ecosystem levels
Members of the network include most major international
biodiversity-oriented organisations (such as IUCN, GBIF,
Diversitas, UNEP-WCMC, UN-CBD), space agencies, regional
sub-networks (Asia-Pacific, Arctic, Japan)
What does GEO BON do?
GEO BON adds value to on-going biodiversity observation by:
• Providing a global, scientifically robust framework for observations on
the detection of biodiversity change (GBIF, GTOS, UNEP-WCMC,
UNESCO-MAB, IUCN etc.)
• Coordinating the data gathering and the delivery of information through
establishing standards and interoperability
• Providing a set of innovative and relevant global products
• Advocating long term continuity of data supply (moving observations
from the experimental to operational spheres) and data sharing
What does GEO BON do?
• Provide a global, scientifically robust
framework for observations relating to
the detection of biodiversity change
• Through partnerships, help coordinate
data gathering and the delivery of
information according to user needs
• Advocate long term continuity of data
supply
• Stimulate the development of a set of
innovative and relevant global products
Where GEOBON fits in
Tallis et al 2012 Bioscience 62,977-986
A brief history of GEO BON…
• 2002 World Summit on Sustainable Development
• 2003 Group on Earth Observations formed
– USA, EU, Japan and South Africa co-chairs
• 2005 GEO establishes GEOSS
– Task BI-07-01(Biodiversity Observation Network Design)
assigned to DIVERSITAS and US-NASA
GEOBON
…brief history, continued
•2006 User Needs workshop, Geneva 23-25 Oct
•2008 Interim committee convened 14-16 Jan
•GEO BON concept document produced
•Potsdam meeting of stakeholders
•2008 GEO Ministerial in Budapest approves concept
•2009 GEO BON Steering Group meets, June
•2010 Working Groups draft Implementation Plan
Asilomar, February (presented at SBSTTA 14)
•2010 Tasked by Convention on Biological Diversity to
assess adequacy of observation systems for 2020 targets
Current working groups
Models WG 7
Indicators WG 9 (Biodiversity Indicator Partnership)
Terrestrial
Freshwater
Marine
Ecosystems
WG3
WG 4
WG 5
Species
WG2
Genes WG1
Ecosystem services WG 6
Data Integration and Operability WG 8
Regional
BONs
J-BON
(Japan),
EBONE
(European
Union),
AP BON
(Asia–
Pacific),
French BON,
Arctic BON,
K-BON?
(Korea)
Integrated biodiversity observation system
Core of the biodiversity observation network
gazeteer
•Location
•Polygon
population
•Species
•Location
•Date
•Abundance
•binomial
•authority
•synonyms
taxonomy
•Species
•Genus
•Family
•Class etc
specimen
•Species
•Location
•Date
•Source
gene
•Species
•Location
•Date
•Genes
Supporting
information
(Science 321:1044-1045; 22/08/08)
•Location
•Date
•Species 1
•Species n
ecosystem
•Name
•Polygon
•Date
•Attributes
abiotic
interactions
•type
climate
•substrate •intensity
•from
•Topography
•Disturbance
•to
uses
•product
•offtake
•value
•users
Remotely
sensed
images
Tabulations
models
GIS
Attribute
maps
feedback
Change
hotspots
Conservation
plans
Ecosystem
services
Resource
trends
Research
outputs
Observation
products
Observations
Biodiversity
indicators
GEO BON portal
species
community
User-defined
needs
feedback
Gazeteer
Geolocation
Placename
GEO
Field observation
Geolocation
Timestamp
Unique ID
GBIF
Quantity
Observer, method
Taxonomy
Unique ID
Species
Genus
Family
…etc
GBIF
Genome
Unique ID
Geolocation
Datestamp
Gene1…Sequence 1
…
Genen…Sequence n
GenBank
Registry
Unique ID
Binomial
Authority
Community GEOBON
Geolocation
Timestamp
Unique ID Amount
…
Unique IDn Amountn
Ecosystem GEO
Geolocation
Timestamp
Attribute1..expression 1
…
Attributen…expressionn
Interactions
Unique ID1
Relationship
Unique ID2
Traits
Unique ID
Attribute 1 expression 1
…
Attribute 2 expression 2
GEOBON
GBIF
TRY
Status IUCN
Unique ID
Treat level
Collection
Unique ID GBIF
Geolocation
Timestamp
Collection record
Utilisation
Unique ID
Geolocation
Timestamp
Harvest amount
Protected Areas
Geolocation
Timestamp
Category
WCMC
Environment
Geolocation
Timestamp
Substrate/medium
Climate
…
GEO
FAO
Scholes et al 2012 Current Opinions in Sustainability
Gaps in biodiversity monitoring
Living Planet Index Populations
In service of users
CEOPS report
Adequacy Report
For UN-CBD 2020
A formal process requested by the space agencies
to elicit from experts and the literature the stated
earth observation needs for biodiversity, particularly
with respect to remote sensing
Accepted February 2012
http://sbageotask.larc.nasa.gov/biodiversity.html
www.earthobservations.org/geobon_docs.shtml
GWOS: an example of a topical BON
Our role is bringing stakeholders together
State of the
World’s Wetlands
Reports
GWOS
Watershed
Health Index
Wetland map
A GEOBON innovation:
Essential Biodiversity Variables
• A relatively small number of variables (~30) are
foundational for many user communities
–
–
–
–
–
–
operational indicators for the CBD 2020 targets
As yet unspecified IPBES needs
RAMSAR, CMS, CCD, UNFCCC…
Researchers
Conservation agencies and organisations
Development agencies
• Each ‘essential variable’ talks to multiple indicators and
targets and most indicators and targets are informed by
multiple essential variables
• These variables must be consistently monitored and
reported and contribute towards assessing both national
and global targets
Periera et al (in review) Science
Essential Biodiv Variables
Examples of use
Decision
support
EBV
derived
Key indicator
EBV-related
Remote Sensing
EBV primary
Protection
success
Evolutionary
distinctiveness
Species
richness &
equity
Phylogenetic
diversity
Species
distribution
Gene beta
Co-ancestry
Allellic
richness
Alleles of a gene
Natural
Capital
F ST
Heterozygosity
Trait
frequency
Taxonomy
Traits
Functional
types
Composition
by species
Status of
species
Status of
ecosystems
Extent of
ecosystem
Fragmentation
Composition
by FT
Height &
cover
ES
yield
Pheno
metrics
Disturb
regime
Presence &
abundance
of species
NPP
ES use
& price
LIDAR
Radar
Spectral
reflectance
over time
Hi-res
imagery
Protected
area
Land
use
AICHI Targets, EBVs and GEO
The GEOBON Handbook
• Book-length manual, due 2013, on networking,
data collection, sharing and analysis in the
biodiversity area
• Helps meet our harmonisation & interoperability
mandate
• In demand from countries, regional and topical
BONs
Biodiversity and Ecosystems SBAs
are closely linked
What GEOBON needs
• A concerted effort to implement the plan by
2015
– Global Biodiversity Observation Initiative
– Support by countries for data sharing and gap filling
• Within their own territory
• Shared international efforts
– Much tighter integration within GEO between
Biodiversity, Ecosystems, Agriculture (GLAM),
Global Forest Observation Initiative, climate and
Water SBAs
http://www.earthobservations.org/geobon.shtml
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