Providing food and water security for a population expected to exceed 9 billion by 2050 while conserving natural resources requires achieving high yields on every hectare of currently used arable land suitable for intensification. This is especially relevant for sub-Saharan Africa (SSA), where, u...
Claessens, Lieven
,
Cassman, Kenneth G.
,
Wart, Justin van
,
Grassini, Patricio
,
Vanlauwe, Bernard
,
Ittersum, Martin K. van
,
Bussel, Lenny G. J. van
,
Boogaard, H.
,
Stoorvogel, J.J.
,
Wolf, Joost
,
Yang, Haishun
,
[Soil data for yield gap assessment and soil suitability index for sustainable intensification]
,
Soil data for yield gap assessment and soil suitability index for sustainable intensification
Providing food and water security for a population expected to exceed 9 billion by 2050 while conserving natural resources requires achieving high(er) and stable yields on every hectare of currently used arable land suitable for intensification.
Claessens, Lieven
,
Vanlauwe, Bernard
,
Cassman, Kenneth G.
,
Wart, Justin van
,
Grassini, Patricio
,
Yang, Haishun
,
Ittersum, Martin K. van
,
Bussel, Lenny G. J. van
,
Wolf, Joost
,
Boogaard, H.
,
Groot, Hugo de
,
Stoorvogel, J.J.
,
[Soil suitability for sustainable intensification in smallholder systems in Sub-Saharan Africa]
,
Soil suitability for sustainable intensification in smallholder systems in Sub-Saharan Africa
Yield gap analysis, which evaluates magnitude and variability of difference between crop yield potential (Yp) or water limited yield potential (Yw) and actual farm yields, provides a measure of untapped food production capacity. Reliable location-specific estimates of yield gaps, either derived f...
Wart, Justin van
,
Bussel, Lenny G. J. van
,
Wolf, Joost
,
Licker R
,
Grassini, Patricio
,
Nelson, A.
,
Boogaard, H.
,
Gerber J
,
Mueller ND
,
Claessens, Lieven
,
Ittersum, Martin K. van
,
Cassman, Kenneth G.
,
[Use of agro-climatic zones to upscale simulated crop yield potential]
,
Use of agro-climatic zones to upscale simulated crop yield potential