C.A.F.E. | Carbon, Aqua, Fire & Eco-resilience Decision Support System

LIFE RESILIENT FORESTS

C.A.F.E. determines the optimum silvicultural activities to manage multiple products, goods and services such as biomass production, C2 sequestration, fire risk, water provisioning , climatic resilience or biodiversity, for a selected solution.

This tool determines the optimum silvicultural activities to manage multiple products, goods and services such as biomass production, CO2 sequestration, fire risk, water provisioning, climatic resilience or biodiversity, which are simultaneously quantified in time and space for a selected solution. Main advantages include:

Changing the mono-objective approach in order to include a group of ecosystem goods and services.
Improving the economic performance of low productive areas by quantifying and valorising other resources that could be remunerated attending to the environmental value.
Holistic optimization of multiple goods and services out of forest management.
Adequacy to the specific characteristics of each site.
Multi-scalar results (plot, forest working unit, catchment, etc.).

C.A.F.E. is a tool that combines eco-hydrologic dynamic simulation with many-criteria optimization, where the user can carry out forest management according to more than one product at the same time, and choose the relevance of each objective/product. This software is capable of working under different climatic regions thanks to the previous calibration of the eco-hydrological simulation. Furthermore, it is possible to modify the spatial scale moving from plot to catchment, integrating a strong biophysical unit. In the same way, simulating different climatic scenarios is also possible. The result is a group of possible solutions among which forest manager can decide and apply.

Εκτύπωση PDF

Κύριος ιστότοπος

Περιφέρεια προέλευσης

2593113

Προέλευση ξυλείας

Δάσος

Δυνατότητες διακίνησης

Very positive

Τύπος εμπλεκόμενης ξυλείας

All wood produced in the forest system (trunk, branches, roots).

Δυνατότητες βιωσιμότητας

Improves forests resilience to wildfires, water scarcity, environmental degradation and other effects induced by climate change

Επιπτώσεις στο περιβάλλον και τη βιοποικιλότητα

Demonstration and replication of a successful, innovative forest management scheme at a watershed scale. At the beginning it will be applied at sub catchment level in Spain (415 hectares), then at catchment level in Germany, Portugal and Spain (7,824 hectares) and finally it will be further expanded up to 350,000 hectares within five years from the project completion.
Reinforcement of mechanisms to develop climate change adaptation measures in rural areas and to ensure its socioeconomic sustainability;
Increased water reserves of 45-200 l/m²/year and increased water availability downstream, leading to a reduction in energy extraction costs to 5 W/hm;
Increased sustainable biomass production for bioenergy uses, between 10 and 15 t/ha year, including both forest and agricultural residues traditionally burned and usually the cause of wildfires.
Reduced fire hazards by 30%, protecting rural populations currently residing in risk areas
Increased resilience of 25% of forest areas to withstand droughts, pests and disease outbreak.

Ευκολία υλοποίησης

It is not easy to use, but we are developing user guides to make it easier.

Οικονομικός αντίκτυπος

The tool is free, so the economic impact is positive as you provide a very powerful management tool at 0 cost.

Δυνατότητες εργασίας

The management that is proposed always generates jobs to carry it out.

Δυνατότητες ειδοδήματος

If the management objective is to maximise productivity, revenues will also be maximised.

Ειδικές προαπαιτούμενες γνώσεις

Knowledge of Geographic Information Systems is necessary to be able to prepare the input data for the tool.

Δυνατότητες για εκμετάλλευση

High, as it is based on mechanistic modelling it can be applied in any climatic region. Furthermore, by including a wide range of ecosystem services, it can meet the needs of different types of forest management.

Βασικά προαπαιτούμενα

Input data for the chosen mechanistic model.

Decision variables.

Constraints to be applied.

Κύριο πεδίο

Διαχείριση δασών, δασοκομία, υπηρεσίες οικοσυστήματος, ανθεκτικότητα

Δασικές διαταραχές, κίνδυνοι, αντιμετώπιση καταστροφών

Λέξεις κελιδιά

Resilience/Networking/Decision support system(DSS)/

Πρόκληση η οποία αντιμετωπίζεται

1. Βελτίωση της ανθεκτικότητας των δασών και της προσαρμογής στην κλιματική αλλαγή

Τύπος λύσης

Μοντελοποίηση, συστήματα στήριξης αποφάσεων, προσομοίωση, βελτιστοποίηση

Ψηφιακή λύση

Ναι

Καινοτομία

Ναι

Χώρα προέλευσης

Βέλγιο

Γερμανία

Πορτογαλία

Ισπανία

Περιφέρεια προέλευσης

2593113

Κλίμακα της εφαρμογής

Ηπειρωτικός

Έτος έναρξης και λήξης

2019 - 2023

Στοιχεία επικοινωνίας

Ιδιοκτήτης ή συγγραφέας

Technical University of Valencia

María González Sanchis

magonsa2@upv.es

https://www.iiama.upv.es/iiama/en/technology-transfer/software/cafe-i.html

Αναφορεάς

CESEFOR

Ángela García de Arana

angela.garcia@cesefor.com

References and Resources

Κύριος ιστότοπος

http://www.resilientforest.eu/wp-content/uploads/2020/05/DSS-TOOL-.pdf

Αναφορά έργου

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

Ιστότοπος έργου

https://www.resilientforest.eu/

Πηγές

www.iiama.upv.es

Ημερομηνία δημοσίευσης

Τετάρτη, 8 Σεπτέμβριος, 2021 - 14:03

Έργο για το οποίο έχει δημιουργηθεί το παρόν φύλλο πληροφοριών

Rosewood 4.0