DAISY model: A dynamic tool to predict biomass accumulation in cereal/grass-legume intercrop
Publikation: Konferencebidrag › Poster › Forskning
Standard
DAISY model: A dynamic tool to predict biomass accumulation in cereal/grass-legume intercrop. / Hansen, Line Vinther; Abrahamsen, Per; Ghaley, Bhim Bahadur.
2019. Poster session præsenteret ved EUBCE 2019, Lissabon, Portugal.
Publikation: Konferencebidrag › Poster › Forskning
Harvard
, Lissabon, Portugal, 26/05/2019 - 30/05/2019.
APA
, Lissabon, Portugal.
Vancouver
, Lissabon, Portugal.
Author
Bibtex
}
RIS
TY - CONF
T1 - DAISY model: A dynamic tool to predict biomass accumulation in cereal/grass-legume intercrop
AU - Hansen, Line Vinther
AU - Abrahamsen, Per
AU - Ghaley, Bhim Bahadur
PY - 2019/5
Y1 - 2019/5
N2 - Intercropping of cereal/grass-legume is an ecological intensification measure where several crop components are grown together to facilitate complementarity between crop species for better utilization of available solar radiation, nutrients and water to maximise biomass productivity (Ghaley et al., 2005). Modelling of intercropping systems are a useful measure to assess biomass production in cereal/grass-legume intercrops and their residual effects on the following bioenergy crops like maize and sorghum to predict the productivity. As the current crop-soil process models are mainly built for monoculture, there is a lack of tools to simulate the biomass accumulation under intercropping contexts. In this study, the objective is to demonstrate the capability of Daisy model to simulate barley-pea intercrop biomass production in Denmark.
AB - Intercropping of cereal/grass-legume is an ecological intensification measure where several crop components are grown together to facilitate complementarity between crop species for better utilization of available solar radiation, nutrients and water to maximise biomass productivity (Ghaley et al., 2005). Modelling of intercropping systems are a useful measure to assess biomass production in cereal/grass-legume intercrops and their residual effects on the following bioenergy crops like maize and sorghum to predict the productivity. As the current crop-soil process models are mainly built for monoculture, there is a lack of tools to simulate the biomass accumulation under intercropping contexts. In this study, the objective is to demonstrate the capability of Daisy model to simulate barley-pea intercrop biomass production in Denmark.
M3 - Poster
T2 - EUBCE 2019<br/>
Y2 - 26 May 2019 through 30 May 2019
ER -
ID: 282258578