[Aizen, M. A. & Harder, L. D. (2009). The Global Stock of Domesticated Honey Bees Is Growing Slower Than Agricultural Demand for Pollination. Current Biology, 19(11), pp. 915–918. doi: 10.1016/j.cub.2009.03.071.19427214]Open DOISearch in Google Scholar
[Breeze, T.D., Bailey, A.P., Balcombe, K.G. & Potts, S.G. (2011). Pollination services in the UK: how important are honeybees? Agri Ecosyst Env 142:137–143.10.1016/j.agee.2011.03.020]Search in Google Scholar
[Gil-Lebrero, S., Quiles-Latorre, F.J., Ortiz-López, M., Sánchez-Ruiz, V., Gámiz-López, V. & Luna-Rodríguez, J.J. (2017). Honey bee colonies remote monitoring system. Sensors, 17(1), p.55.]Search in Google Scholar
[Gratzer, K., Susilo, F., Purnomo, D., Fiedler, S. & Brodschneider, R. (2019). Challenges for beekeeping in Indonesia with autochthonous and introduced bees. Bee world, 96(2), pp.40-44.10.1080/0005772X.2019.1571211]Search in Google Scholar
[Gray, A., Adjlane, N., Arab, A., Ballis, A., Brusbardis, V., Charrière, J.D., Chlebo, R., Coffey, M.F., Cornelissen, B., Amaro da Costa, C. & Dahle, B. (2020). Honey bee colony winter loss rates for 35 countries participating in the COLOSS survey for winter 2018–2019, and the effects of a new queen on the risk of colony winter loss. Journal of Apicultural Research, 59(5), pp.744-751.10.1080/00218839.2020.1797272]Search in Google Scholar
[Kviesis, A., Zacepins, A., Komasilovs, V., Paramita, A.M. & Muhammad, F.R. (2020). Temperature and Weight Monitoring of the Apis Cerana Bee Colony Indonesia. Rural Sustainability Research, 44(339), pp.54-60.10.2478/plua-2020-0017]Search in Google Scholar
[Meikle, W. G. & Holst, N. (2015). Application of continuous monitoring of honeybee colonies. Apidologie, 46(1), pp. 10–22. doi: 10.1007/s13592-014-0298-x.]Open DOISearch in Google Scholar
[Meikle, W.G., Weiss, M., Maes, P.W., Fitz, W., Snyder, L.A., Sheehan, T., Mott, B.M. & Anderson, K.E. (2017). Internal hive temperature as a means of monitoring honey bee colony health in a migratory beekeeping operation before and during winter. Apidologie, 48(5), pp.666-680.10.1007/s13592-017-0512-8]Search in Google Scholar
[Mihailova, E. & Melecis, V. (2019). Traditional beekeeping and its sustainable development in eastern Latvia. In the 77th scientific conference of the University of Latvia, p. 41.]Search in Google Scholar
[Moritz, R. and Southwick, E.E. (2012). Bees as superorganisms: an evolutionary reality. Springer Science & Business Media.]Search in Google Scholar
[Pettis, J.S. & Delaplane, K.S. (2010). Coordinated responses to honey bee decline in the USA. Apidologie 41: 256–263.]Search in Google Scholar
[Stalidzans, E., Zacepins, A., Kviesis, A., Brusbardis, V., Meitalovs, J., Paura, L., Bulipopa, N. & Liepniece, M. (2017). Dynamics of weight change and temperature of Apis mellifera (Hymenoptera: Apidae) colonies in a wintering building with controlled temperature. Journal of economic entomology, 110(1), pp.13-23.]Search in Google Scholar
[Wakjira, K., Negera, T., Zacepins, A., Kviesis, A., Komasilovs, V., Fiedler, S., Kirchner, S., Hensel, O., Purnomo, D., Nawawi, M., Paramita, A., Rachman, O.F., Pratama, A., Faizah, N.A., Lemma, M., Schaedlich, S., Zur, A., Sperl, M., Proschek, K., Gratzer, K. & Brodschneider, R. (2021). Smart apiculture management services for developing countries - the case of SAMS project in Ethiopia and Indonesia. PeerJ Comput. Sci. 7:e484 http://doi.org/10.7717/peerj-cs.484. Accepted for publication.10.7717/peerj-cs.484804911833954251]Search in Google Scholar
[Warnke, U. (2009). Bees, birds and mankind. Destroying Nature by 'Electrosmog': Effects of Wireless Communication Technologies. A brochure Series by the Competence Initiative for the Protection of Humanity, Environment and Democracy. Kempten.]Search in Google Scholar
[Zabasta, A., Zhiravetska, A., Kunicina, N. & Kondratjevs, K. (2019). Technical Implementation of IoT Concept for Bee Colony Monitoring. In 2019 8th Mediterranean Conference on Embedded Computing (MECO) (pp. 1-4). IEEE.10.1109/MECO.2019.8760180]Search in Google Scholar
[Zacepins, A., Brusbardis, V., Meitalovs, J. & Stalidzans, E. (2015). Challenges in the development of Precision Beekeeping. Biosystems Engineering, Vol. 130, p. 60–71.10.1016/j.biosystemseng.2014.12.001]Search in Google Scholar
[Zacepins, A., Kviesis, A., Komasilovs, V. & Muhammad, F.R. (2020). Monitoring System for Remote Bee Colony State Detection. Baltic Journal of Modern Computing, 8(3), pp.461-470.10.22364/bjmc.2020.8.3.05]Search in Google Scholar
[Zacepins, A., Kviesis, A., Ahrendt, P., Richter, U., Tekin, S. & Durgun, M. (2016). Beekeeping in the future – Smart apiary management. In 2016 17th International Carpathian Control Conference (ICCC) (pp. 808-812). IEEE.10.1109/CarpathianCC.2016.7501207]Search in Google Scholar
[Zacepins, A., Stalidzans, E. & Meitalovs, J. (2012). Application of information technologies in precision apiculture. In: Proceedings of the 13th International Conference on Precision Agriculture (ICPA 2012), Indianapolis, USA.]Search in Google Scholar
[Zacepins, A. & Karasha, T. (2013). Application of temperature measurements for the bee colony monitoring: a review. In Proceedings of the 12th International Scientific Conference ‘Engineering for Rural Development’. Jelgava, Latvia, pp. 126–131.]Search in Google Scholar
[Zacepins, A. & Brusbardis, V. (2015). Precision beekeeping (precision apiculture): research needs and status in Latvia. Agriculture & Forestry, 61(1), p.135-141.10.17707/AgricultForest.61.1.17]Search in Google Scholar
[Zacepins, A., Meitalovs, J. & Stalidzans, E. (2010). Model based real time automated temperature control system for risk minimization in honey bee wintering building. In Proceedings of the 8th International Industrial Simulation Conference (ISC 2010) (pp. 245-247).]Search in Google Scholar