Predicting junglerice (Echinochloa colona L.) emergence as a function of thermal time in the humid pampas of Argentina

Abstract

Junglerice (Echinochloa colona) is one of the most important annual weeds affecting crops in Argentina. A predictive seedling emergence model based on thermal time was developed and validated. Monitoring of seedling emergence was performed weekly during the growing season in a soybean field over four years. Cumulative thermal time, expressed in growing degree days (GDD), was used as the independent variable for predicting cumulative emergence. The variations in mean air temperature between late August and early September have determined a period with a conserved pattern over the years. That period had a close linear relationship (r² = 0.99) with the beginning of seedling emergence. A double-logistic model fitted junglerice seedling emergence better than Gompertz, Logistic or Weibull functions. Model validation showed a good performance in predicting the seedling emergence (r² = 0.99). Based on findings of this study it is possible to predict junglerice emergence by air temperature and, thus, to contribute reliably to the rational management of this weed.

Keywords:

• Double-logistic model
• non-linear emergence models
• air temperature
• seedlings
• weed management

Acknowledgements

We thank ARGENINTA foundation team for providing help in editing process.

Disclosure statement

The authors have no conflicts of interest to declare.

Geolocation information

33.9455°S, 60.5682°W

Additional information

Funding

This work was supported by the ARGENINTA foundation; SIB-project of National University of the Northwest of Buenos Aires (UNNOBA) under Grant 155/2017; INTA specific project under Grant 1135034.