1 / 6

Areas prone to agriculture intensification driven by the agro-fuel demand are assumed to be:

B. A. What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario) Case of fallow land/set aside 1990-2000 at risk of re-intensification Version 0.01.

hagop
Download Presentation

Areas prone to agriculture intensification driven by the agro-fuel demand are assumed to be:

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. B A What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario)Case of fallow land/set aside 1990-2000 at risk of re-intensificationVersion 0.01 Corilis is the computation in a regular grid of CLC values in and in the neighbourhood of each cell (in the application: radius of 5km. Ref.: EEA 2006, Land accounts for Europe 1990-2000 • Areas prone to agriculture intensification driven by the agro-fuel demand are assumed to be: • with a minimum of 20% of agriculture potential (~UAA)  mountains, urban areas, large forests… are excluded. • with a higher potential for conversion when the 2 agriculture types are balanced (very intensive areas will not intensify any more, very extensive areas result probably from relief and climate conditions which will restrict intensification) • For each grid cell of 1km², the formula retained is therefore: • Conversion Potential = Potential (A-B)* Potential (A+B), when Potential (A+B) > 20. Value normalised to 0 to 100 Several What if? applications have been derived from the methodology (report forthcoming…). Case of fallow land/set aside 1990-2000 at risk of re-intensification, 1st test maps: Areas prone to intensification (in GREY) AND fallow land set aside mapped from LEAC flow lcf41 (in GREEN). Fallow land/set aside at risk of re-intensification are in RED. (RED = GREY+GREEN) At this stage, this is a distribution map, not yet a statistical quantification

  2. What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario)Case of fallow land/set aside 1990-2000 at risk of re-intensificationVersion 0.01

  3. What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario)Case of fallow land/set aside 1990-2000 at risk of re-intensificationVersion 0.01

  4. What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario)Case of fallow land/set aside 1990-2000 at risk of re-intensificationVersion 0.01

  5. What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario)Case of fallow land/set aside 1990-2000 at risk of re-intensificationVersion 0.01

  6. What if? modelling with CLC/LEAC/CORILIS Attempt at mapping areas prone to agriculture intensification (What if? Agro-fuel scenario)Case of fallow land/set aside 1990-2000 at risk of re-intensificationVersion 0.01

More Related