Accumulated thermal units method for predicting development stages, and potential seed yield of sunflower (Helianthus annuus) under Mediterranean conditions

The possibility of accurately assessing the emergence, anthesis and maturation dates of sunflower grown under Mediterranean conditions was investigated. Accumulated Thermal Units (TSUM) from sowing to emergence, from emergence to anthesis, and from anthesis to maturation were recorded in 14 experime...

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Published in:Industrial crops and products 2024-12, Vol.221, p.119383, Article 119383
Main Authors: Gintsioudis, Ippolitos, Danalatos, Gerasimos J.N., Bartzialis, Dimitrios, Giannoulis, Kyriakos D., Danalatos, Nikolaos G.
Format: Article
Language:English
Subjects:
Crop development
Degree-days
flowering
Greece
heat
Heat units
Helianthus annuus
irrigation
land evaluation
nitrogen
phenology
Photoperiod
photoperiodism
seed yield
Sunflower
temperature
Yield
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Summary:The possibility of accurately assessing the emergence, anthesis and maturation dates of sunflower grown under Mediterranean conditions was investigated. Accumulated Thermal Units (TSUM) from sowing to emergence, from emergence to anthesis, and from anthesis to maturation were recorded in 14 experimental sunflower plantations, carried out in two sites with representative soils in the Thessaly Plain (central Greece) in the years 2012, 2013, 2014, 2015 and 2022. Various combinations of sowing date; irrigation and N-fertilization inputs were studied, and the corresponding phenological stages and seed yields were determined. It was found that the TSUM method is very effective for predicting the duration of the phenological stages of sunflower and thus the development rate and stages of this crop. Particularly accurate is the assessment of the emergence-anthesis period calculated at 817 degree days (°C-d) for base temperature (To) equal to 6 °C and optimum temperature (Topt) 28 °C, whereas for the anthesis-maturation period, the TSUM method needs to be adjusted for photoperiodism, using a photoperiod coefficient based on the daylength. In a simpler approach, the heat unit sum of 1213°C-d (To=0 °C) it can be used for the emergence-anthesis period (or 1418°C-d for the sowing-anthesis period), without much error, and an average period of 44 days for the anthesis-maturation period. Having determined the anthesis-maturation period, the potential seed yield of sunflower was successfully assessed, based on the global radiation prevailing during the grain filling period (i.e. last 37 days before capitulum ripening) for the treatments of optimum water and nitrogen applications. Knowledge of the seed yield potential of sunflower might be very important for land evaluation purposes and the introduction of this important crop in Thessaly more generally and many Mediterranean sites. •Capping daily TMAX in sunflower daily thermal units calculations improves anthesis and maturity prediction.•Sunflower heat units needed per stage from sowing: 186°C-days (emergence), 1003°C-days (flowering), 1941°C-days (maturity).•Incorporating photoperiodism into the thermal units model improves the accuracy of sunflower maturity predictions.•Sunflower seed yield increases linearly with PAR at a rate of 0.57 g MJ−1 (yield=0.57*PAR+177 g m−2; R2=0.85).
ISSN:0926-6690
DOI:10.1016/j.indcrop.2024.119383