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Temperature and weight monitoring of the Apis Cerana bee colony Indonesia
2020
Kviesis, A., Latvia Univ. of Life Sciences and Technologies, Jelgava (Latvia). Faculty of Information Technologies. Dept. of Computer Systems | Zacepins, A., Latvia Univ. of Life Sciences and Technologies, Jelgava (Latvia). Faculty of Information Technologies. Dept. of Computer Systems | Komasilovs, V., Latvia Univ. of Life Sciences and Technologies, Jelgava (Latvia). Faculty of Information Technologies. Dept. of Computer Systems | Paramita, A.M., Labtek Indie, Bandung, West Java (Indonesia) | Muhammad, F.R., Labtek Indie, Bandung, West Java (Indonesia)
Remote and automatic monitoring of two Apis Cerana bee colonies was conducted in Indonesia to demonstrate precision beekeeping approach in that region. Successful implementation of the precision beekeeping system includes development of the bee colony monitoring hardware and software for data collection, analysis and visualisation. This paper focuses on development and installation of such systems at the private apiary in Indonesia. For bee colony monitoring at the apiary a developed monitoring unit was used, which is based on ESP microchip, and for the data storage SAMS data warehouse was used. The monitoring results showed that the choice of the location of the temperature sensor is important, as the temperature at the hive sides changes synchronously with the outside temperature. Also, feedback from the beekeeper is collected to further improve the system and monitoring process. This research is conducted within the SAMS – Smart Apiculture Management Services project, which is funded by the European Union within the H2020-ICT-39-2016-2017 call and with close collaboration with the local private beekeeper. To find out more, visit the project website https://sams-project.eu/.
Показать больше [+] Меньше [-]Bumblebee pollination activity in a commercial tomato greenhouse during the winter season
2022
Ozols, Niks | GailisGailis, Jānis, Janis | Jakobija, Inta | JaskoJaško, Jānis, Janis | Zagorska, Viktorija
Bumblebee activity interaction with solar irradiation, solar irradiation and HPS lighting irradiation, the HPS effect of photoperiod, day temperature and hive density were assessed with tomato fruit weights in a commercial tomato glass greenhouse in 2020–2021. Pollination activity was measured by observing ten randomly chosen cv. ‘Be orange’ tomato plants and by counting bumblebee bruised tomato flowers. MANOVA was conducted between factors and bee activity, followed by Pearson’s correlation. A Mann-Whitney U test was calculated to determine the significance between tomato flower bruising levels and fruit weights, followed by Cliff’s delta (d). Pollination activity decreased mainly in December and January when solar irradiation decreased to below 110 J cmE−2 dayE−1. Bumblebee activity was significantly affected by solar irradiation with HPS lighting (p is less than 0.001; p is less than 0.01). There was a significant correlation between bumblebee activity and solar irradiation (r= 0.75; p is less than 0.05), and solar irradiation with HPS lighting (r= 0.70; p is less than 0.05). There was no correlation between bumblebee activity and fruit weights (r= −0.20; p is less than 0.05). Bruised flowers had significantly greater fruit weight increases (165.7 g) compared to unbruised flowers (123.4 g) (d= 0.12; p is less than 0.05). Bee activity rates between 60% and 80% can be concluded as an effective rate for tomato growers. Bumblebees need at least 110–154 J cmE−2 dayE−1 of solar irradiation to achieve a high pollination activity rate in temperate climate zones during the winter season.
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