Mature Sunflower Inflorescences Face Geographical East to Maximize Absorbed Light Energy: Orientation of Helianthus annuus Heads Studied by Drone Photography

Péter Takács; Zoltán Kovács; Dénes Száz; Ádám Egri; Balázs Bernáth; Judit Slíz-Balogh; Magdolna Nagy-Czirok; Zsigmond Lengyel; Gábor Horváth

doi:10.3389/fpls.2022.842560

Mature Sunflower Inflorescences Face Geographical East to Maximize Absorbed Light Energy: Orientation of Helianthus annuus Heads Studied by Drone Photography

Front Plant Sci. 2022 Mar 17:13:842560. doi: 10.3389/fpls.2022.842560. eCollection 2022.

Authors

Péter Takács¹, Zoltán Kovács¹, Dénes Száz¹, Ádám Egri^{1

2}, Balázs Bernáth^{1

3}, Judit Slíz-Balogh^{1

4}, Magdolna Nagy-Czirok⁵, Zsigmond Lengyel⁵, Gábor Horváth¹

Affiliations

¹ Department of Biological Physics, Environmental Optics Laboratory, ELTE Eötvös Loránd University, Budapest, Hungary.
² Institute of Aquatic Ecology, Centre for Ecological Research, Budapest, Hungary.
³ Estrato Research and Development Ltd., Budapest, Hungary.
⁴ Department of Astronomy, ELTE Eötvös Loránd University, Budapest, Hungary.
⁵ Szilády Áron Secondary School, Kiskunhalas, Hungary.

Abstract

Mature sunflower (Helianthus annuus) inflorescences, which no longer follow the Sun, face the eastern celestial hemisphere. Whether they orient toward the azimuth of local sunrise or the geographical east? It was recently shown that they absorb maximum light energy if they face almost exactly the geographical east, and afternoons are usually cloudier than mornings. However, the exact average and standard deviation (SD) of the azimuth angle of the normal vector of mature sunflower inflorescences have never been measured on numerous individuals. It is imaginable that they prefer the direction of sunrise rather than that of the geographical east. To decide between these two photobiological possibilities, we photographed mature inflorescences of 14 sunflower plantations using a drone and determined the average and SD of the azimuth angle of the normal vector of 2,800 sunflower heads. We found that the average azimuth α_{inflorescence} = 89.5^° ± 42.8^° (measured clockwise from the geographical north) of inflorescences practically coincided with the geographical eastern direction (α_east = 90^°) instead of the azimuth of local sunrise α_sunrise = 56.14^° - 57.55^°. Although the SD of the orientation of individual inflorescences was large (± 42.8^°), our finding experimentally corroborated the earlier theoretical prediction that the energetically ideal azimuth of sunflower inflorescences is east, if mornings are usually less cloudy than afternoons, which is typical for the domestication region of H. annuus. However, the average orientation of inflorescences of two plantations in hilly landscapes more or less differed from that of the majority of plantations in plane landscapes. The reason for this deviation may be that the illumination conditions in hilly sites more or less differed from those in plane landscapes. Furthermore, in a plantation, we observed a group of south-facing inflorescences that were in shadow for about 5 h both after sunrise and before sunset. This southern orientation can be explained by the southern maximum of total light energy absorbed by the partly shadowed inflorescences during the day, as computed by our software integrating both the diffuse skylight and the direct sunlight received by sunflower inflorescences.

Keywords: drone photography; east facing; environmental optics; inflorescence; orientation; photobiology; sunflower (Helianthus annus); sunrise.