obis and species distributions tony rees discussion presentation, march 2003 some fundamental...
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![Page 1: OBIS and species distributions Tony Rees discussion presentation, March 2003 Some fundamental intentions for OBIS... –Choose any species and discover its](https://reader031.vdocuments.mx/reader031/viewer/2022012914/56649ec55503460f94bcf422/html5/thumbnails/1.jpg)
OBIS and species distributionsTony Rees discussion presentation, March 2003
• Some fundamental intentions for OBIS ...
– Choose any species and discover its distribution
– Click on a body of water and discover what lives there
– Then ...
• Examine/discover correlations with environmental variables, etc.
• Currently:
– OBIS connects to sources of point data, retrieves relevant points, displays on map and/or passes to modelling packages (also displays some relevant ancillary information and provides link to more if available)
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Point vs. polygon data• Point data ...
– Limited by:
• restricted distribution of sampling activity (vs world ocean area)
• only a subset of possible specimens retained (or catches recorded)
• only a further subset of these acessible to OBIS
– “Real” distribution will always require interpolation/ extrapolation (=> ranges, expressible in polygons)
– Only then can do meaningful queries as per initial slide
• Polygon data ...
– Could need mechanisms for OBIS to:• import• store• query• display• export
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Types of polygons• May cover more than simple binary (presence/absence) states, e.g. ..
– “Normal” vs. extralimital (occasional/vagrant) distribution
– Breeding vs. non-breeding ranges
– Seasonal distributions (winter/summer/migration paths etc.)
– Juveniles vs. adults
– infraspecific variation (subspecies, varieties ...)
– confidence limits (known vs. doubtful)
– historic vs. current (decadal variability)
– etc.
• May also vary by source/ method of construction:– Comprehensive sampling (present vs. definitely absent)
– Indicative sampling (with inferred presence/absence where not sampled)
– Modelled distribution based on proxies (environmental, other species)
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Examples of polygons (butterfly data) - actually a gridded dataset with both presence+absence data
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Examples of polygons - cont’d (bird species)
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Examples of polygons - cont’d (whale species)
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Examples of polygons - cont’d (modelled fish distribution)
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Expression of polygons
• Polygons expressed in various forms ..– DIGITAL - vector
• string of points connected by simple lines
• as above, but with exclusion areas
*** need GIS back end for spatial queries and display
– DIGITAL- non-vector• gridded (tiled) representation
• nominated regions/zones
*** potentially simpler to query and display, but may be less exact
– NON-DIGITAL• paper / diagrammatic representation
• ms textual descriptions
*** need digitising before accessible to online querying
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An approach using gridded (tiled) data
• Express any species distribution as list of tiles (grid squares) in which that species occurs
• Tile size would be matched to scale of query system would be designed to support, e.g. 1 x 1 deg [100 x 100 km approx.], 0.5 x 0.5 deg.
• Could then query any tile and rapidly extract a list of what species occur there - especially if secondary (“inverted”) index built based on tile IDs
• Could accept species distributions as gridded data directly, or as vector polygons (then use polygon converter tool on the data)
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“C-squares” system does exactly this
• Provides a unique, easily organised and searchable nomenclature for individual tiles (gridsquares)
• Prototype “polygon-to-c-square” converter available to look at / try out
• Distributions expressed in c-squares are straightforward to map using existing c-squares mapper (or OBIS could construct its own)
• Could accept species distributions as gridded data directly, or as vector polygons (then use polygon converter tool on the data)
- True GIS system might be better (ultimately more accurate, smoother diagonal lines/curves, more flexible overlays etc.) but may be slower for searching ?? (considering numbers of species potentially involved)
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How might this be implemented?
• ? OBIS master distributions table:
Species 1 ... square A ... source x
Species 1 ... square B ... source x
Species 2 ... square B ... source y
etc.
... can then easily extract:
– all squares occupied by Species 1
– all species in square A
– source of any record (also needed for internal tracking)
• would potentially need to qualify “source” information as to type of record (as previously discussed)
• could also need to qualify by depth, season, decade (etc.) in “sources” list (table)
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Getting these data into OBIS ...
• ? A persistent index, regularly refreshed/updated by querying distributed data sources
– OBIS could handle the polygon => gridsquare conversion as a background task
• ? Live broadcast query, polygon/raster data interrogated on-the-fly
– would be quickest if polygon => gridsquare conversion had already been undertaken at the partner end
... data could potentially be transferred as vector data (polygon boundaries), or gridded data (either standardised, or non-standardised). Need to consider optimum method(s) for transfer, with implications as to where required conversions would be done.
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“Click on a square” search interface (from current “MarLIN” system)
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Could generate (for example) ...
species are registered in OBIS