Context
Honey bees provide multiple ecosystem services. Comparisons of coupled social-ecological systems (SES) can improve the understanding of the factors affecting honey bees and beekeeping.
Objectives
Stressing the need for SES analyses, we explore beekeepers’ perceived factors affecting bees and beekeeping, test the hypothesis that honey bee colony losses are associated to agricultural land use intensity, and discuss the role of beekeeping for rural development.
Methods
We used as a case study the steep gradient in SES in Ukraine’s Chernivtsi region with three strata: (i) traditional villages, (ii) intermediate and (iii) intensive agriculture. In each stratum, we analysed the social system using five open-ended focus groups. Regarding the ecological system, we analysed data about winter loss rate of honey bee colonies, number of colonies per beekeeper, the average amount of supplemental feeding, and proportion of beekeepers treating against Varroa mite.
Results
Thirty-three themes were extracted, of which 73% concerned the social system at multiple levels of governance. The number of themes increased from the traditional stratum with higher winter colony losses to the intensive agriculture stratum with lower losses. This does not support the hypothesis that the intensive agriculture per se affect honey bees negatively.
Conclusions
Social system factors dominate over ecological factors, and interact across scales. This requires systems analyses of honey bees and beekeeping. We see beekeeping as a social innovation enhancing stakeholders’ navigation in social systems, thus supporting rural development in countries in transition like Ukraine.
Decline of honey bee colonies remains a global problem. It may affect catastrophically both ecosystems and the global economy. Here we present the results of the fourth year of a research project on bee colony losses in Ukraine over winter 2017-2018, conducted in the framework of international monitoring coordinated by the non-profit honey bee research association COLOSS. Overall winter loss rate and the mortality rate over winter 2017-2018 were significantly lower compared to the previous year: overall winter loss rate – 11.3% (95 % СІ 10.0-12.6); mortality rate – 6.7% (95 % СІ 5.8-7.7); rate of colony loss due to unsolvable queen problems – 2.1% (95 % СІ 1.6-2.7) and due to natural disasters – 2.4% (95 % СІ 2.0-3.0). Likewise previous years, the highest losses were observed in small operations (with 50 or fewer colonies). The highest overall loss rate was observed in the Steppe zone, with the highest both mortality rate and losses due to natural disasters compared to the other physiographic zones of Ukraine. Minimum mortality was recorded from deciduous forests 5.6 % (95 % CI 4.4-7.2) and the Ukrainian Carpathians 5.5 % (95 % CI 4.2-7.2). Winter losses related to queen problems varied greatly with a minimum in the Forest-Steppe zone 0.71 % (95 % CI 0.3-1.5). 83.3% of beekeepers treated their colonies against Varroa. The r-rank correlation analysis identified two potential risk factors (no or only a few dead bees in or in front of the empty hive; dead workers in cells and no food present) which revealed a weak positive correlation with both mortality rate and the rate of losses due to unsolvable queen problems.
Energy cropping has positive effect only if considering and mitigating potential biodiversity loss in agroecosystems. While investigating ground-dwelling animal assemblages in experimental fields of miscanthus and switchgrass in comparison with a legume-grass mixture and an abandoned field, we found low abundance and taxon diversity of the energy crops assemblages. Spiders comprised 3.3‒3.8% of collected arthropods in the switchgrass and miscanthus and 8.3‒10.1% in the abandoned field and grass mixture. Forty-seven spider species were collected: 14 species in the miscanthus field, 18 in the switchgrass, 23 in the grass mixture and 31 in the abandoned field. Spider diversity was the lowest in the miscanthus, while the number of specimens was minimal in the switchgrass. According to our findings, energy crops hosted poor spider assemblages with no species found exclusively in these habitats. To mitigate the negative impact of biofuel production on biodiversity, we recommend preserving areas of semi-natural vegetation in the agricultural landscape.
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