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Klimatdatabasen
Klimatdatabasen
- Sven-Ola Svensson
Owned by Sven-Ola Svensson
Ladda SMHI klimatdata
SMHI har på sin hemsida en kartapplikation där många klimatindikationer finns samlade i ett nordentäckande rutnät.
I ett första skede så laddades ettan ett antal teman från klimatdata ner ochlagrades i tabellen smhi_rutnät. Värderna som är lagrade är avvikelser från normalvärden.
Varje tema består av nio klumner, tre scenarier och tre perioder:
Utsläpps-scenarier
rpc2.6
rpc4.5
rpc8.5
Perioder
2011-2040
2041-2070
2071-2100
Teman:
Torra dygn dd
Frostdygn fd
Vegitationsdygn gsl
Nederbord dygn per år pr
Kraftig nederbörd dygn r10mm
Extrem nederbörd r20mm
Dygnsmedeltempratur tas
Ny laddning av klimatdata med absoluta värden
Här beskrivs rutin för att ladda ner klimatdata som normalvärden. Metoden är inte automatiserad men är ändå effektiv. Det som tar lite tid är att skriva SQL-frågorna första gången
Ladda ner
SMHI fördjupad klimatscenariotjänst används för att ladda ner lager efter lager. För varje tema laddas nio lager ner för varje scenario respective period. Bilden visar nedladdning av temat frostdagar. Innehållet i varje -zip fil shape filer. Projektion är 3006 (SWEREF 99 TM)
Lägg in filerna QGIS
Starta QGIS med kartföntret inställt i 3006. Markera alla de nio filerna för ett tema och dra dem in från filhanterare till lagerlistan. QGIS tar alla .zip filer och packar upp dem till lager från Shape-filer. Låt namnen vara som filerna.
Flytta lagren till Posgresdatabasen från QGIS
Se till att Postgres-databasen är öppen. Skapa ett temporärt schema t.ex. smhi
Markera alla de nio lagren i QGIS och dra dem upp till schema-namnet i Postgres. Det blir tyst en lång stund men processen pågår att flytta lagren. Efter en lång stund meddelas att det är klart.
Fortsätt med alla sju teman.
För att snabba upp arbetet med indata så skapar vi index för dessa
--index
drop INDEX if exists smhi.fd_r26_pe1_idx;
drop INDEX if exists smhi.fd_r26_pe2_idx;
drop INDEX if exists smhi.fd_r26_pe3_idx;
drop INDEX if exists smhi.fd_r45_pe1_idx;
drop INDEX if exists smhi.fd_r45_pe2_idx;
drop INDEX if exists smhi.fd_r45_pe3_idx;
drop INDEX if exists smhi.fd_r85_pe1_idx;
drop INDEX if exists smhi.fd_r85_pe2_idx;
drop INDEX if exists smhi.fd_r85_pe3_idx;
--tempratur
drop INDEX if exists smhi.pr_r26_pe1_idx;
drop INDEX if exists smhi.pr_r26_pe2_idx;
drop INDEX if exists smhi.pr_r26_pe3_idx;
drop INDEX if exists smhi.pr_r45_pe1_idx;
drop INDEX if exists smhi.pr_r45_pe2_idx;
drop INDEX if exists smhi.pr_r45_pe3_idx;
drop INDEX if exists smhi.pr_r85_pe1_idx;
drop INDEX if exists smhi.pr_r85_pe2_idx;
drop INDEX if exists smhi.pr_r85_pe3_idx;
--nederbörd
drop INDEX if exists smhi.r10mm_r26_pe1_idx;
drop INDEX if exists smhi.r10mm_r26_pe2_idx;
drop INDEX if exists smhi.r10mm_r26_pe3_idx;
drop INDEX if exists smhi.r10mm_r45_pe1_idx;
drop INDEX if exists smhi.r10mm_r45_pe2_idx;
drop INDEX if exists smhi.r10mm_r45_pe3_idx;
drop INDEX if exists smhi.r10mm_r85_pe1_idx;
drop INDEX if exists smhi.r10mm_r85_pe2_idx;
drop INDEX if exists smhi.r10mm_r85_pe3_idx;
--kfr
drop INDEX if exists smhi.r20mm_r26_pe1_idx;
drop INDEX if exists smhi.r20mm_r26_pe2_idx;
drop INDEX if exists smhi.r20mm_r26_pe3_idx;
drop INDEX if exists smhi.r20mm_r45_pe1_idx;
drop INDEX if exists smhi.r20mm_r45_pe2_idx;
drop INDEX if exists smhi.r20mm_r45_pe3_idx;
drop INDEX if exists smhi.r20mm_r85_pe1_idx;
drop INDEX if exists smhi.r20mm_r85_pe2_idx;
drop INDEX if exists smhi.r20mm_r85_pe3_idx;
--xtr
drop INDEX if exists smhi.xtr_r26_pe1_idx;
drop INDEX if exists smhi.xtr_r26_pe2_idx;
drop INDEX if exists smhi.xtr_r26_pe3_idx;
drop INDEX if exists smhi.xtr_r45_pe1_idx;
drop INDEX if exists smhi.xtr_r45_pe2_idx;
drop INDEX if exists smhi.xtr_r45_pe3_idx;
drop INDEX if exists smhi.xtr_r85_pe1_idx;
drop INDEX if exists smhi.xtr_r85_pe2_idx;
drop INDEX if exists smhi.xtr_r85_pe3_idx;
--dd
drop INDEX if exists smhi.dd_r26_pe1_idx;
drop INDEX if exists smhi.dd_r26_pe2_idx;
drop INDEX if exists smhi.dd_r26_pe3_idx;
drop INDEX if exists smhi.dd_r45_pe1_idx;
drop INDEX if exists smhi.dd_r45_pe2_idx;
drop INDEX if exists smhi.dd_r45_pe3_idx;
drop INDEX if exists smhi.dd_r85_pe1_idx;
drop INDEX if exists smhi.dd_r85_pe2_idx;
drop INDEX if exists smhi.dd_r85_pe3_idx;
--vegp
drop INDEX if exists smhi.gsl_r26_pe1_idx;
drop INDEX if exists smhi.gsl_r26_pe2_idx;
drop INDEX if exists smhi.gsl_r26_pe3_idx;
drop INDEX if exists smhi.gsl_r45_pe1_idx;
drop INDEX if exists smhi.gsl_r45_pe2_idx;
drop INDEX if exists smhi.gsl_r45_pe3_idx;
drop INDEX if exists smhi.gsl_r85_pe1_idx;
drop INDEX if exists smhi.gsl_r85_pe2_idx;
drop INDEX if exists smhi.gsl_r85_pe3_idx;
--vegp
drop INDEX if exists smhi.tas_r26_pe1_idx;
drop INDEX if exists smhi.tas_r26_pe2_idx;
drop INDEX if exists smhi.tas_r26_pe3_idx;
drop INDEX if exists smhi.tas_r45_pe1_idx;
drop INDEX if exists smhi.tas_r45_pe2_idx;
drop INDEX if exists smhi.tas_r45_pe3_idx;
drop INDEX if exists smhi.tas_r85_pe1_idx;
drop INDEX if exists smhi.tas_r85_pe2_idx;
drop INDEX if exists smhi.tas_r85_pe3_idx;
-- fd frostdygn
CREATE INDEX fd_r26_pe1_idx ON smhi."fd_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX fd_r26_pe2_idx ON smhi."fd_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX fd_r26_pe3_idx ON smhi."fd_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX fd_r45_pe1_idx ON smhi."fd_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX fd_r45_pe2_idx ON smhi."fd_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX fd_r45_pe3_idx ON smhi."fd_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX fd_r85_pe1_idx ON smhi."fd_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX fd_r85_pe2_idx ON smhi."fd_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX fd_r85_pe3_idx ON smhi."fd_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
-- pr nederbord dygn per år
CREATE INDEX pr_r26_pe1_idx ON smhi."pr_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX pr_r26_pe2_idx ON smhi."pr_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX pr_r26_pe3_idx ON smhi."pr_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX pr_r45_pe1_idx ON smhi."pr_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX pr_r45_pe2_idx ON smhi."pr_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX pr_r45_pe3_idx ON smhi."pr_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX pr_r85_pe1_idx ON smhi."pr_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX pr_r85_pe2_idx ON smhi."pr_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX pr_r85_pe3_idx ON smhi."pr_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
-- r10mm kraftig nederbörd dygn per år
CREATE INDEX r10mm_r26_pe1_idx ON smhi."r10mm_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX r10mm_r26_pe2_idx ON smhi."r10mm_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX r10mm_r26_pe3_idx ON smhi."r10mm_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX r10mm_r45_pe1_idx ON smhi."r10mm_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX r10mm_r45_pe2_idx ON smhi."r10mm_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX r10mm_r45_pe3_idx ON smhi."r10mm_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX r10mm_r85_pe1_idx ON smhi."r10mm_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX r10mm_r85_pe2_idx ON smhi."r10mm_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX r10mm_r85_pe3_idx ON smhi."r10mm_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
-- r20mm extremt kraftig nederbörd dygn per år
CREATE INDEX r20mm_r26_pe1_idx ON smhi."r20mm_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX r20mm_r26_pe2_idx ON smhi."r20mm_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX r20mm_r26_pe3_idx ON smhi."r20mm_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX r20mm_r45_pe1_idx ON smhi."r20mm_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX r20mm_r45_pe2_idx ON smhi."r20mm_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX r20mm_r45_pe3_idx ON smhi."r20mm_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX r20mm_r85_pe1_idx ON smhi."r20mm_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX r20mm_r85_pe2_idx ON smhi."r20mm_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX r20mm_r85_pe3_idx ON smhi."r20mm_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
-- dd
CREATE INDEX dd_r26_pe1_idx ON smhi."dd_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX dd_r26_pe2_idx ON smhi."dd_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX dd_r26_pe3_idx ON smhi."dd_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX dd_r45_pe1_idx ON smhi."dd_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX dd_r45_pe2_idx ON smhi."dd_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX dd_r45_pe3_idx ON smhi."dd_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX dd_r85_pe1_idx ON smhi."dd_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX dd_r85_pe2_idx ON smhi."dd_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX dd_r85_pe3_idx ON smhi."dd_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
-- gsl vegetationsperiodens längd dygn per år
CREATE INDEX gsl_r26_pe1_idx ON smhi."gsl_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX gsl_r26_pe2_idx ON smhi."gsl_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX gsl_r26_pe3_idx ON smhi."gsl_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX gsl_r45_pe1_idx ON smhi."gsl_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX gsl_r45_pe2_idx ON smhi."gsl_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX gsl_r45_pe3_idx ON smhi."gsl_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX gsl_r85_pe1_idx ON smhi."gsl_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX gsl_r85_pe2_idx ON smhi."gsl_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX gsl_r85_pe3_idx ON smhi."gsl_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
-- gsl vegetationsperiodens längd dygn per år
CREATE INDEX tas_r26_pe1_idx ON smhi."tas_ensmean_rcp26_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX tas_r26_pe2_idx ON smhi."tas_ensmean_rcp26_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX tas_r26_pe3_idx ON smhi."tas_ensmean_rcp26_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX tas_r45_pe1_idx ON smhi."tas_ensmean_rcp45_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX tas_r45_pe2_idx ON smhi."tas_ensmean_rcp45_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX tas_r45_pe3_idx ON smhi."tas_ensmean_rcp45_ANN_30y_2071_2100.shp" USING GIST (geom);
CREATE INDEX tas_r85_pe1_idx ON smhi."tas_ensmean_rcp85_ANN_30y_2011_2040.shp" USING GIST (geom);
CREATE INDEX tas_r85_pe2_idx ON smhi."tas_ensmean_rcp85_ANN_30y_2041_2070.shp" USING GIST (geom);
CREATE INDEX tas_r85_pe3_idx ON smhi."tas_ensmean_rcp85_ANN_30y_2071_2100.shp" USING GIST (geom);
Skapa tabellen smhi_rutor_absolute
Skapa ett schema, för att lägga in den slutgiltliga tabellem med rutor, där varje ruta innehåller alla attribut.
create schema skfab_climate_24;Utångstabellen för alla lager och teman är FrostDygn, Scenaro2.6 Period 1 (fd_r26_pe1). Första kolumnen är Id och sista geom. Denna tabell är den enda med from (rad 12). Alla övriga är en spatial join på rutan.
När ett eller alla teman är klara så för frågan i ovanstående create table skfab_climate_24.smhi_rutnat_absolute
drop table if exists skfab_climate_24.smhi_rutnat_absolute;
CREATE TABLE skfab_climate_24.smhi_rutnat_absolute (
id serial primary key,
geom public.geometry(multipolygon, 3006) NULL,
dd_r26_pe1 float8 NULL,
dd_r26_pe2 float8 NULL,
dd_r26_pe3 float8 NULL,
dd_r45_pe1 float8 NULL,
dd_r45_pe2 float8 NULL,
dd_r45_pe3 float8 NULL,
dd_r85_pe1 float8 NULL,
dd_r85_pe2 float8 NULL,
dd_r85_pe3 float8 NULL,
fd_r26_pe1 float8 NULL,
fd_r26_pe2 float8 NULL,
fd_r26_pe3 float8 NULL,
fd_r45_pe1 float8 NULL,
fd_r45_pe2 float8 NULL,
fd_r45_pe3 float8 NULL,
fd_r85_pe1 float8 NULL,
fd_r85_pe2 float8 NULL,
fd_r85_pe3 float8 NULL,
gsl_r26_pe1 float8 NULL,
gsl_r26_pe2 float8 NULL,
gsl_r26_pe3 float8 NULL,
gsl_r45_pe1 float8 NULL,
gsl_r45_pe2 float8 NULL,
gsl_r45_pe3 float8 NULL,
gsl_r85_pe1 float8 NULL,
gsl_r85_pe2 float8 NULL,
gsl_r85_pe3 float8 NULL,
pr_r26_pe1 float8 NULL,
pr_r26_pe2 float8 NULL,
pr_r26_pe3 float8 NULL,
pr_r45_pe1 float8 NULL,
pr_r45_pe2 float8 NULL,
pr_r45_pe3 float8 NULL,
pr_r85_pe1 float8 NULL,
pr_r85_pe2 float8 NULL,
pr_r85_pe3 float8 NULL,
r10mm_r26_pe1 float8 NULL,
r10mm_r26_pe2 float8 NULL,
r10mm_r26_pe3 float8 NULL,
r10mm_r45_pe1 float8 NULL,
r10mm_r45_pe2 float8 NULL,
r10mm_r45_pe3 float8 NULL,
r10mm_r85_pe1 float8 NULL,
r10mm_r85_pe2 float8 NULL,
r10mm_r85_pe3 float8 NULL,
r20mm_r26_pe1 float8 NULL,
r20mm_r26_pe2 float8 NULL,
r20mm_r26_pe3 float8 NULL,
r20mm_r45_pe1 float8 NULL,
r20mm_r45_pe2 float8 NULL,
r20mm_r45_pe3 float8 NULL,
r20mm_r85_pe1 float8 NULL,
r20mm_r85_pe2 float8 NULL,
r20mm_r85_pe3 float8 NULL,
tas_r26_pe1 float8 NULL,
tas_r26_pe2 float8 NULL,
tas_r26_pe3 float8 NULL,
tas_r45_pe1 float8 NULL,
tas_r45_pe2 float8 NULL,
tas_r45_pe3 float8 NULL,
tas_r85_pe1 float8 NULL,
tas_r85_pe2 float8 NULL,
tas_r85_pe3 float8 NULL
);
drop index if exists skfab_climate_24.smhi_rutnat_absolute_id_idx;
CREATE INDEX smhi_rutnat_absolute_idx ON skfab_climate_24.smhi_rutnat_absolute USING GIST (geom);
-- let frost dasy fd be the crateinon of the grid
INSERT INTO skfab_climate_24.smhi_rutnat_absolute
(id, fd_r26_pe1, fd_r26_pe2, fd_r26_pe3, fd_r45_pe1, fd_r45_pe2, fd_r45_pe3, fd_r85_pe1, fd_r85_pe2, fd_r85_pe3, geom)
(select fd_r26_pe1.id as id,
fd_r26_pe1.fd as fd_r26_pe1,
fd_r26_pe2.fd as fd_r26_pe2,
fd_r26_pe3.fd as fd_r26_pe3,
fd_r45_pe1.fd as fd_r45_pe1,
fd_r45_pe2.fd as fd_r45_pe2,
fd_r45_pe3.fd as fd_r45_pe3,
fd_r85_pe1.fd as fd_r85_pe1,
fd_r85_pe2.fd as fd_r85_pe2,
fd_r85_pe3.fd as fd_r85_pe3,
fd_r26_pe1.geom
from smhi."fd_ensmean_rcp26_ANN_30y_2011_2040.shp" fd_r26_pe1
join smhi."fd_ensmean_rcp26_ANN_30y_2041_2070.shp" fd_r26_pe2 on ST_Contains( fd_r26_pe1.geom, fd_r26_pe2.geom)
join smhi."fd_ensmean_rcp26_ANN_30y_2071_2100.shp" fd_r26_pe3 on ST_Contains( fd_r26_pe1.geom, fd_r26_pe3.geom)
join smhi."fd_ensmean_rcp45_ANN_30y_2011_2040.shp" fd_r45_pe1 on ST_Contains( fd_r26_pe1.geom, fd_r45_pe1.geom)
join smhi."fd_ensmean_rcp45_ANN_30y_2041_2070.shp" fd_r45_pe2 on ST_Contains( fd_r26_pe1.geom, fd_r45_pe2.geom)
join smhi."fd_ensmean_rcp45_ANN_30y_2071_2100.shp" fd_r45_pe3 on ST_Contains( fd_r26_pe1.geom, fd_r45_pe3.geom)
join smhi."fd_ensmean_rcp85_ANN_30y_2011_2040.shp" fd_r85_pe1 on ST_Contains( fd_r26_pe1.geom, fd_r85_pe1.geom)
join smhi."fd_ensmean_rcp85_ANN_30y_2041_2070.shp" fd_r85_pe2 on ST_Contains( fd_r26_pe1.geom, fd_r85_pe2.geom)
join smhi."fd_ensmean_rcp85_ANN_30y_2071_2100.shp" fd_r85_pe3 on ST_Contains( fd_r26_pe1.geom, fd_r85_pe3.geom)
);
--update tas dygnsmedeltemperatur per år
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r26_pe1=b.tas
from smhi."tas_ensmean_rcp26_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r26_pe2=b.tas
from smhi."tas_ensmean_rcp26_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r26_pe3=b.tas
from smhi."tas_ensmean_rcp26_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r45_pe1=b.tas
from smhi."tas_ensmean_rcp45_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r45_pe2=b.tas
from smhi."tas_ensmean_rcp45_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r45_pe3=b.tas
from smhi."tas_ensmean_rcp45_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r85_pe1=b.tas
from smhi."tas_ensmean_rcp85_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r85_pe2=b.tas
from smhi."tas_ensmean_rcp85_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET tas_r85_pe3=b.tas
from smhi."tas_ensmean_rcp85_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
--pr nederbord dygn per år
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r26_pe1=b.pr
from smhi."pr_ensmean_rcp26_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r26_pe2=b.pr
from smhi."pr_ensmean_rcp26_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r26_pe3=b.pr
from smhi."pr_ensmean_rcp26_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r45_pe1=b.pr
from smhi."pr_ensmean_rcp45_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r45_pe2=b.pr
from smhi."pr_ensmean_rcp45_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r45_pe3=b.pr
from smhi."pr_ensmean_rcp45_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r85_pe1=b.pr
from smhi."pr_ensmean_rcp85_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r85_pe2=b.pr
from smhi."pr_ensmean_rcp85_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET pr_r85_pe3=b.pr
from smhi."pr_ensmean_rcp85_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
--r10mm kraftig nederbörd dygn per år
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r26_pe1=b.r10mm
from smhi."r10mm_ensmean_rcp26_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r26_pe2=b.r10mm
from smhi."r10mm_ensmean_rcp26_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r26_pe3=b.r10mm
from smhi."r10mm_ensmean_rcp26_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r45_pe1=b.r10mm
from smhi."r10mm_ensmean_rcp45_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r45_pe2=b.r10mm
from smhi."r10mm_ensmean_rcp45_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r45_pe3=b.r10mm
from smhi."r10mm_ensmean_rcp45_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r85_pe1=b.r10mm
from smhi."r10mm_ensmean_rcp85_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r85_pe2=b.r10mm
from smhi."r10mm_ensmean_rcp85_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r10mm_r85_pe3=b.r10mm
from smhi."r10mm_ensmean_rcp85_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
--r20mm xtremt kraftig nederbörd dygn per år
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r26_pe1=b.r20mm
from smhi."r20mm_ensmean_rcp26_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r26_pe2=b.r20mm
from smhi."r20mm_ensmean_rcp26_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r26_pe3=b.r20mm
from smhi."r20mm_ensmean_rcp26_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r45_pe1=b.r20mm
from smhi."r20mm_ensmean_rcp45_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r45_pe2=b.r20mm
from smhi."r20mm_ensmean_rcp45_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r45_pe3=b.r20mm
from smhi."r20mm_ensmean_rcp45_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r85_pe1=b.r20mm
from smhi."r20mm_ensmean_rcp85_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r85_pe2=b.r20mm
from smhi."r20mm_ensmean_rcp85_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET r20mm_r85_pe3=b.r20mm
from smhi."r20mm_ensmean_rcp85_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
--gsl vegitation dygn per år
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r26_pe1=b.gsl
from smhi."gsl_ensmean_rcp26_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r26_pe2=b.gsl
from smhi."gsl_ensmean_rcp26_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r26_pe3=b.gsl
from smhi."gsl_ensmean_rcp26_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r45_pe1=b.gsl
from smhi."gsl_ensmean_rcp45_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r45_pe2=b.gsl
from smhi."gsl_ensmean_rcp45_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r45_pe3=b.gsl
from smhi."gsl_ensmean_rcp45_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r85_pe1=b.gsl
from smhi."gsl_ensmean_rcp85_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r85_pe2=b.gsl
from smhi."gsl_ensmean_rcp85_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET gsl_r85_pe3=b.gsl
from smhi."gsl_ensmean_rcp85_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
--dd torra dygn per år
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r26_pe1=b.dd
from smhi."dd_ensmean_rcp26_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r26_pe2=b.dd
from smhi."dd_ensmean_rcp26_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r26_pe3=b.dd
from smhi."dd_ensmean_rcp26_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r45_pe1=b.dd
from smhi."dd_ensmean_rcp45_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r45_pe2=b.dd
from smhi."dd_ensmean_rcp45_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r45_pe3=b.dd
from smhi."dd_ensmean_rcp45_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r85_pe1=b.dd
from smhi."dd_ensmean_rcp85_ANN_30y_2011_2040.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r85_pe2=b.dd
from smhi."dd_ensmean_rcp85_ANN_30y_2041_2070.shp" b where ST_Contains( a.geom, b.geom);
UPDATE skfab_climate_24.smhi_rutnat_absolute a SET dd_r85_pe3=b.dd
from smhi."dd_ensmean_rcp85_ANN_30y_2071_2100.shp" b where ST_Contains( a.geom, b.geom);
VACUUM FULL analyze skfab_climate_24.smhi_rutnat_absolute;
När tabellen smhi_rutor_absolute finns klar. För att förenkla konfigurationen i Weave och kartografin i Geoserver så skapar vi en vy för varje tema. Vyn innehåller både absoluta och relativa (procen) värden.
Därmed är allt klart för Weave.
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