Journal für Kulturpflanzen (Oct 2011)

SIMONTO-Lupin: an ontogenetic simulation model for lupin species (<em>Lupinus angustifolius</em>, <em>L. luteus</em> and <em>L. albus</em>)

  • Paolo Racca,
  • Beate Tschöpe

DOI
https://doi.org/10.5073/JfK.2011.10.03
Journal volume & issue
Vol. 63, no. 10

Abstract

Read online

The development of the infection of Colletotrichum lupini is in addition to temperature and leaf wetness duration strongly dependent on the plant development stage (BBCH). For this reason a simple ontogenetic model (SIMONTO-Lupin) for the three lupin species Lupinus angustifolius, L. luteus and L. albus was developed and integrated into the decision support system SIMCOL which deals with the disease management of the pathosystem C. lupini – L. angustifolius. For the simulation of the crop stages a temperature development rate was modelled. Besides literature data about 180 data series from national variety and fungicide trials of blue, yellow and white lupin were used as data base for modelling SIMONTO-Lupin. For the model validation 240 data sets of blue lupin of national variety and fungicide trials for the years 2006–2009 were available. These data sets were independent of the data sets used for model development. The model SIMONTO-Lupin represents particularly the important period of flowering. The validation of the model (difference between observed and simulated growth stage max. 7 days) for the BBCH stage 61 (beginning flowering) showed 85% and for the stage 69 (full bloom) about 75% correct forecasts. Other validation criteria like the subjective validation showed about 88% correct forecasts. The validation by means of linear regression achieved, on average, a coefficient of determination of 0.984.

Keywords