Autor:
Muthoni, Francis K.
Baijukya, Frederick P.
Sseguya, H.
Bekunda, Mateete A.
Hoeschle-Zeledon, Irmgard
Ouko, E.
Mubea, K.
Sustainable intensification (SI) is a viable pathway to increase agricultural production and improve ecosystem health. Scaling SI technologies in locations with similar biophysical conditions enhance adoption. This paper employs novel extrapolation detection (ExeDet) algorithm and gridded bioclim...
Enlace original:
https://cgspace.cgiar.org/handle/10568/89769
Muthoni, Francis K.
,
Baijukya, Frederick P.
,
Sseguya, H.
,
Bekunda, Mateete A.
,
Hoeschle-Zeledon, Irmgard
,
Ouko, E.
,
Mubea, K.
,
[Geospatial approach for delineating extrapolation domains for sustainable agricultural intensification technologies]
,
Geospatial approach for delineating extrapolation domains for sustainable agricultural intensification technologies
