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Prepared by: Alicia García Arias [email protected] Webminar October 28 th , 2020 The project LIFE RESILIENT FORESTS – Coupling water, fire and climate resilience with biomass production from forestry to adapt watersheds to climate change is co-funded by the LIFE Programme of the European Union under contract number LIFE 17 CCA/ES/000063. HOW TO USE THE DSS TOOL C.A.F.E.
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HOW TO USE THE DSS TOOL C.A.F.E.

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Page 1: HOW TO USE THE DSS TOOL C.A.F.E.

Prepared by: Alicia García [email protected]

WebminarOctober 28th, 2020

The project LIFE RESILIENT FORESTS – Coupling water, fire and climate resilience with biomass production from forestry to adapt watersheds to climate change is co-fundedby the LIFE Programme of the European Union under contract number LIFE 17 CCA/ES/000063.

HOW TO USE THE DSS TOOL C.A.F.E.

Page 2: HOW TO USE THE DSS TOOL C.A.F.E.

Water cycle

Biomass

Firemanagement

WoodCO2 seq

FOREST RESILIENCE

ECO

SYSTEM

SERV

ICES

Simulation modelling toolbox

Water resources EC

ON

OM

IC V

ALU

ES

DSS

PARETO FRONTDominant alternatives

(ecosystem services/costs)

WEIGHTS ELICITATION /

PARTICIPATIONMAX. ECONOMIC

VALUE

DECISION

MANAGEMENT OPTIONS

C. A

. F

. E

.C

arb

on

, A

qu

a,

Fir

e &

Eco

-resilie

nce

Page 3: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

DSS

PARETO FRONT

ECOSYSTEM SERVICES ECONOMIC VALUES

DECISION

MANAGEMENT OPTIONS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

OUTPUTS

HYDROLOGICAL FLOW SERIES (e.g. RIVER FLOW)

TANKS BALANCES (e.g. SOIL MOISTURE)

VEGETATION PERFORMANCE (e.g. LAI)

ALTERNATIVES vs

RESPONSES

KNOWLEDGE OF THE

FOREST RESILIENCE

Carbon, Aqua, Fire

& Eco-resilience

Page 4: HOW TO USE THE DSS TOOL C.A.F.E.

GEOGRAPHICAL SITUATIONCASE STUDIES

MEAN TEMPERATURE

Ceira River Basin: 12 - 18 °C (t.a. ± 10 °C)Carraixet River Basin: 15 - 18 °C (t.a. ± 8 °C)

1200 – 1400 mm/year400 – 600 mm/year

ANNUAL RAINFALL

Page 5: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

TOPOGRAPHY

SRTM 90m Digital Elevation Data

HYDROLOGICAL CORRECTION IS REQUIRED

http://srtm.csi.cgiar.org/srtmdata/
Page 6: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

TOPOGRAPHY

HYPSOMETRIC CURVE (dynamics)

TOPOGRAPHIC INDEX (wetness)

Page 7: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

TOPOGRAPHY SLOPE

DRAINING DIRECTIONSACCUMULATED DRAIN

HILLSLOPE VELOCITY

Page 8: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

LAND COVER

Corine Land Cover 2018

https://land.copernicus.eu/pan-european/corine-land-cover/clc2018
Page 9: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

LAND COVER

NATIONAL FOREST INVENTORY

SATELLITE IMAGERY

BURNT AREAS

Page 10: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

LAND COVER

Page 11: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

COVERAGE FRACTION

NATIONAL FOREST INVENTORY 2015 TREE COVER DENSITY 2015 (Copernicus HRL) GLOBAL BARE SOIL LANDSAT 2015

SATELLITE / AERIAL IMAGERY

Page 12: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

DEPTH TO BEDROCK (R HORIZON)SoilGrids250m (ISRIC World Soil Information)

INITIAL ABSTRACTIONS

EFFECTIVE ROOT DEPTH

https://data.isric.org/geonetwork/srv/spa/catalog.search
Page 13: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

SOIL HYDRAULIC PROPERTIES

European Soil Database, 3D-SoilsHydroGrid

STATIC STORAGE IN SURFACE [0-5CM] AND DEEP [5-200 CM] SOIL LAYERS

https://eusoilhydrogrids.rissac.hu/
Page 14: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

SOIL HYDRAULIC PROPERTIES

SATURATED HYDRAULIC CONDUCTIVITY (Ks) SATURATED INTERFLOW CONDUCTIVITY (Kss)

Page 15: HOW TO USE THE DSS TOOL C.A.F.E.

CEIRA RIVER BASIN – ECO-HYDROLOGICAL CHARACTERIZATION

PERMEABILITY AND PERCOLATION CAPACITY (Kp)

HYDROGEOLOGICAL UNITS LITHOLOGICAL MAP (GLiM – Global Lithological Map)

Gleeson et al. (2011)

https://www.geo.uni-hamburg.de/en/geologie/forschung/geochemie/glim.html
https://doi.org/10.1029/2010GL045565
Page 16: HOW TO USE THE DSS TOOL C.A.F.E.

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES (e.g. RIVER FLOW)

TANKS BALANCES (e.g. SOIL MOISTURE)

VEGETATION PERFORMANCE (e.g. LAI)

MODELLING WITH ECO-TETISRELIABLE INPUTS • DIFFERENT SOURCES• KNOWLEDGE OF THE CASE STUDY

CALIBRATION • HYDROLOGICAL PARAMETERS• VEGETATION PARAMETERS

REQ

UIR

EMEN

TSP

RO

JEC

TIO

NS

AN

SWER

ING

CLIMATE CHANGE SCENARIOS

Page 17: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

Nash and

Sutcliffe

efficiency

0.83

CALIBRATION: PONTE

CABOUCO(12G/02H)

Nash and

Sutcliffe

efficiency

0.69

VALIDATION: PONTE

CABOUCO(12G/02H)

Page 18: HOW TO USE THE DSS TOOL C.A.F.E.

• Evaporation from theinterception

• Evaporation from thebare soil

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

MODELLING WITH ECO-TETIS EVAPOTRANSPIRATION = Ei + T + Ebs

• Transpiration

Page 19: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS SOIL MOISTURE

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE STATIC STORAGE EVOLUTION

Page 20: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

VEGETATION PERFORMANCE

EVOLUTION

Page 21: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

STEM EXCLUSION CONIFER + HARDWOOD

TRANSPIRATION (mm/d)

FOREST MANAGEMENT

OPTIONS ANALYSIS

Page 22: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

FOR

EST

MA

NA

GEM

ENT

OP

TIO

NS

AN

ALY

SIS

DEEP SOIL WATER CONTENT (mm/d)

STEM EXCLUSION CONIFER + HARDWOOD

SHALLOW SOIL WATER CONTENT (mm/d)

STEM EXCLUSION CONIFER + HARDWOOD

Page 23: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

CLIMATE CHANGE PROJECTIONS PRECIPITATION (Quantile mapping

bias correction)

% DRY DAYS (important in arid or semiaridenvironments)

Page 24: HOW TO USE THE DSS TOOL C.A.F.E.

MODELLING WITH ECO-TETIS

HYDROMETEOROLOGICAL SERIES (P, T, ET0, RAD)

DEM & DERIVED

LAND COVER & DERIVED

SOIL AND HYDROGEOLOGICAL CHARACTERISTICS

INPUTS

EVAPORATION FROM INTERCEPTION

RAINFALL

OVERLAND FLOW

INTERFLOW

CONNECTED AQUIFER FLOW

SOIL EVAPOTRANSPIRATION

DIRECT RAINFALL

EXCESS WATER

INFILTRATION

PERCOLATION

DEEP AQUIFER FLOW

T6. VEG. COVER

T1. STATATIC ST

T2. SURFACE

T3. GRAVITAT ST

T4. AQUIFER

FOR EACH PIXEL

OUTPUTS

HYDROLOGICAL FLOW SERIES

TANKS BALANCES

VEGETATION PERFORMANCE

CLIMATE CHANGE PROJECTIONS RCM:MPI-CSC – REMO 2009_v1

LAI (

m2/m

2)

FOREST MANAGEMENT SCENARIOSTEM EXCLUSION CONIFER + HARDWOOD

Page 25: HOW TO USE THE DSS TOOL C.A.F.E.

ECO-TETIS• HYDROLOGICAL SERIES• TANKS BALANCES• VEGETATION PERFORMANCE

DSSPARETO FRONT

Dominant alternatives(ecosystem services /

costs)

MAX. ECOSYSTEM

SERVICES

MAX. ECONOMIC VALUE

DECISION

C. A. F. E.

Carbon, Aqua, Fire & Eco-resilience

COST-BENEFIT ANALYSIS

RHESSYS • WOOD• CO2

FWI• FIRE WEATHER INDEX • SOIL MOISTURE REGRESSIONS

Page 26: HOW TO USE THE DSS TOOL C.A.F.E.

Prepared by: Alicia García [email protected]

WebminarOctober 28th, 2020

The project LIFE RESILIENT FORESTS – Coupling water, fire and climate resilience with biomass production from forestry to adapt watersheds to climate change is co-fundedby the LIFE Programme of the European Union under contract number LIFE 17 CCA/ES/000063.

THANK YOU FOR YOUR ATTENTION


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