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AquaMaps - behind the scene Josephine “Skit” D. Rius FishBase Project/INCOFISH WP1 WorlFish Center INCOFISH WP3 Technical Workshop Campinas, Brazil 18-22.

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Presentation on theme: "AquaMaps - behind the scene Josephine “Skit” D. Rius FishBase Project/INCOFISH WP1 WorlFish Center INCOFISH WP3 Technical Workshop Campinas, Brazil 18-22."— Presentation transcript:

1 AquaMaps - behind the scene Josephine “Skit” D. Rius FishBase Project/INCOFISH WP1 WorlFish Center INCOFISH WP3 Technical Workshop Campinas, Brazil 18-22 April 2006

2 Description of tables (HCAF, HSPEN, HSPEC) Description of tables (HCAF, HSPEN, HSPEC) How the tables relate How the tables relate Rules on calculating the envelope values of environmental parameters Rules on calculating the envelope values of environmental parameters How the probabilities are calculated How the probabilities are calculated

3 HCAF (Half-degree Cells Authority File) Contains information on: a) various cell names (codes) that are used by this and other databases b) statistical cell properties such (center, limits, and area); c) membership in relevant areas(FAO areas, EEZs or LMEs); d) physical attributes (depth, salinity or temperature); e) biological properties (e.g. pimary production). Data Providers: Sea Around Us Project CSIRO Kansas Geological Survey Kristin Kaschner

4 HSPEN (Species Environmental Envelope) Contains information used for describing the environmental tolerance and preference of a species: Contains information used for describing the environmental tolerance and preference of a species: –distribution using FAO areas and bounding box –range of values per environmental parameter (min., preferred min., preferred max., max.)

5 HSPEC (Half-degree Species Assignment) Contains the assginment of a species to a half-degree cell and the corresponding probability of occurrence of the species in a given cell. Contains the assginment of a species to a half-degree cell and the corresponding probability of occurrence of the species in a given cell. Overall probability is the multiplicative equation of each of the environmental parameters (SST, salinity, prim. prod., sea ice concentration, distance to land) Overall probability is the multiplicative equation of each of the environmental parameters (SST, salinity, prim. prod., sea ice concentration, distance to land)

6 How the tables relate…

7 Get candidate species and corresponding occurrence data Using the Occurrence table of FishBase, get all ‘good’ point records of marine species Using the Occurrence table of FishBase, get all ‘good’ point records of marine specieswhere: ‘Good point’ records is a set of at least 10 non-doubtful point records, and should occur in at least 10 ‘good cells’ ‘Good cell” occurs in the FAO area OR bounding box in which species occurs

8 Compute the envelope for each parameter and store in HSPEN Step 1Using the good cells, a. take the observed minimum value as the true min b. take the 10 th percentile value as the preferred minimum c. take the 90 th percentile value as the preferred maximum d. take the observed maximum value as the true maximum Step 2Get the extended min. value by: 25 th percentile - 1.5 * interquartile range if observed min. > extended min., use extended min. value as the current min. Get the extended max. value by: 75 th percentile + 1.5 * interquartile range if observed max < extended max., use extended max. value as the current max.

9 Step 3Set a minimum for the preferred range by: If preferred max. – preferred min. < set minimum range then current pref. min. = MidPrefRange –.5 * set min. range current pref. max. = MidPrefRange +.5 * set min. range where: MidPrefRange = preferred max. + preferred min. / 2 Set min. range varies depending on parameter: SST = 1 Salinity = 1 Primary Production = 2 Sea ice concentration = N.A. Distance to land = 2 Step 4 Set a minimum difference between the current min. and current preferred min. by: if current pref. min. – current min. < set min. differrence then current min. = current pref. min. - set min. differrence Set a minimum difference between the current max. and current preferred max. if current max. – current pref. max. < set min. differrence then current max. = current pref. max. + set min. differrence Set min. difference varies depending on parameter: SST =.5 Salinity =.5 Primary Production = 1 Sea ice concentration = N.A. Distance to land = 1

10 Compute for probability and store in HSPEC 1. For each species, compare its envelope values (HSPEN) for each parameter with that of each cell in the HCAF table 2. Compute individual probabilities for each parameter as: 0: if cell value < envelope minimum 0: if cell value > envelpe maximum 1: if cell value is within envelope preferred values Cell value – env. Min / pref. min – cell value: if cell value between envelope min. and preferred min. if cell value between envelope min. and preferred min. Env. Max. – cell value / cell value – pref. max : if cell value between envelope max. and preferred max. if cell value between envelope max. and preferred max. 3.Compute overall probaility: Depth x SST x Primary Production x Sea ice concentration x Distance to Land 4. Check and note if cell is a ‘good cell’ 5. Store the combination Species ID, CellID and probability 6. Pass data to mapper

11 Stats… Number of species Remarks Marine species12498Marine with occurrence points With sufficient no. of good cells to compute for envelopes 4546 With sufficient number of good cells compute for envelopes AND with complete depth range 2909Expected number of species for which map data can be generated With map data691so far generated

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