Honey bee colony loss rates in 37 countries using the COLOSS survey for winter 2019–2020: the combined effects of operation size, migration and queen replacement
Аутори
Gray, AlisonAdjlane, Noureddine
Arab, Alireza
Ballis, Alexis
Brusbardis, Valters
Bugeja Douglas, Adrian
Cadahía, Luis
Charrière, Jean-Daniel
Chlebo, Robert
Coffey, Mary F.
Cornelissen, Bram
Costa, Cristina Amaro da
Danneels, Ellen
Danihlík, Jiří
Dobrescu, Constantin
Evans, Garth
Fedoriak, Mariia
Forsythe, Ivan
Gregorc, Aleš
Ilieva Arakelyan, Iliyana
Johannesen, Jes
Kauko, Lassi
Kristiansen, Preben
Martikkala, Maritta
Martín-Hernández, Raquel
Mazur, Ewa
Medina-Flores, Carlos Aurelio
Mutinelli, Franco
Omar, Eslam M.
Patalano, Solenn
Raudmets, Aivar
San Martin, Gilles
Soroker, Victoria
Stahlmann-Brown, Philip
Stevanović, Jevrosima
Uzunov, Aleksandar
Vejsnaes, Flemming
Williams, Anthony
Brodschneider, Robert
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
This article presents managed honey bee colony loss rates over winter 2019/20 resulting from using the standardised COLOSS questionnaire in 37 countries. Six countries were from outside Europe, including, for the first time in this series of articles, New Zealand. The 30,491 beekeepers outside New Zealand reported 4.5% of colonies with unsolvable queen problems, 11.1% of colonies dead after winter and 2.6% lost through natural disaster. This gave an overall colony winter loss rate of 18.1%, higher than in the previous year. The winter loss rates varied greatly between countries, from 7.4% to 36.5%. 3216 beekeepers from New Zealand managing 297,345 colonies reported 10.5% losses for their 2019 winter (six months earlier than for other, Northern Hemisphere, countries). We modelled the risk of loss as a dead/empty colony or from unresolvable queen problems, for all countries except New Zealand. Overall, larger beekeeping operations with more than 50 colonies experienced significantly lowe...r losses (p < 0.001). Migration was also highly significant (p < 0.001), with lower loss rates for operations migrating their colonies in the previous season. A higher proportion of new queens reduced the risk of colony winter loss (p < 0.001), suggesting that more queen replacement is better. All three factors, operation size, migration and proportion of young queens, were also included in a multivariable main effects quasi-binomial GLM and all three remained highly significant (p < 0.001). Detailed results for each country and overall are given in a table, and a map shows relative risks of winter loss at the regional level.
Кључне речи:
Apis mellifera / citizen science / monitoring surveys / mortality / risk factorsИзвор:
Journal of Apicultural Research, 2023, 62, 2, 204-210Финансирање / пројекти:
- Dutch Ministry of Agriculture, Nature and Food Quality (BO-43-011.03-005)
- Молекуларно-генетичка и екофизиолошка истраживања у заштити аутохтоних анималних генетичких ресурса, очувању добробити, здравља и репродукције гајених животиња и производњи безбедне хране (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-46002)
- Slovakian project "Sustainable smart farming systems taking into account the future challenges 313011W112"
- the Slovenian Research Program P1-0164
- the Danish Beekeepers Association
- “Zukunft Biene 2” (grant number 101295/2) in Austria
DOI: 10.1080/00218839.2022.2113329
ISSN: 0021-8839
WoS: 00085066280000
Scopus: 2-s2.0-85137927503
Колекције
Институција/група
Fakultet veterinarske medicineTY - JOUR AU - Gray, Alison AU - Adjlane, Noureddine AU - Arab, Alireza AU - Ballis, Alexis AU - Brusbardis, Valters AU - Bugeja Douglas, Adrian AU - Cadahía, Luis AU - Charrière, Jean-Daniel AU - Chlebo, Robert AU - Coffey, Mary F. AU - Cornelissen, Bram AU - Costa, Cristina Amaro da AU - Danneels, Ellen AU - Danihlík, Jiří AU - Dobrescu, Constantin AU - Evans, Garth AU - Fedoriak, Mariia AU - Forsythe, Ivan AU - Gregorc, Aleš AU - Ilieva Arakelyan, Iliyana AU - Johannesen, Jes AU - Kauko, Lassi AU - Kristiansen, Preben AU - Martikkala, Maritta AU - Martín-Hernández, Raquel AU - Mazur, Ewa AU - Medina-Flores, Carlos Aurelio AU - Mutinelli, Franco AU - Omar, Eslam M. AU - Patalano, Solenn AU - Raudmets, Aivar AU - San Martin, Gilles AU - Soroker, Victoria AU - Stahlmann-Brown, Philip AU - Stevanović, Jevrosima AU - Uzunov, Aleksandar AU - Vejsnaes, Flemming AU - Williams, Anthony AU - Brodschneider, Robert PY - 2023 UR - https://vet-erinar.vet.bg.ac.rs/handle/123456789/2504 AB - This article presents managed honey bee colony loss rates over winter 2019/20 resulting from using the standardised COLOSS questionnaire in 37 countries. Six countries were from outside Europe, including, for the first time in this series of articles, New Zealand. The 30,491 beekeepers outside New Zealand reported 4.5% of colonies with unsolvable queen problems, 11.1% of colonies dead after winter and 2.6% lost through natural disaster. This gave an overall colony winter loss rate of 18.1%, higher than in the previous year. The winter loss rates varied greatly between countries, from 7.4% to 36.5%. 3216 beekeepers from New Zealand managing 297,345 colonies reported 10.5% losses for their 2019 winter (six months earlier than for other, Northern Hemisphere, countries). We modelled the risk of loss as a dead/empty colony or from unresolvable queen problems, for all countries except New Zealand. Overall, larger beekeeping operations with more than 50 colonies experienced significantly lower losses (p < 0.001). Migration was also highly significant (p < 0.001), with lower loss rates for operations migrating their colonies in the previous season. A higher proportion of new queens reduced the risk of colony winter loss (p < 0.001), suggesting that more queen replacement is better. All three factors, operation size, migration and proportion of young queens, were also included in a multivariable main effects quasi-binomial GLM and all three remained highly significant (p < 0.001). Detailed results for each country and overall are given in a table, and a map shows relative risks of winter loss at the regional level. T2 - Journal of Apicultural Research T1 - Honey bee colony loss rates in 37 countries using the COLOSS survey for winter 2019–2020: the combined effects of operation size, migration and queen replacement VL - 62 IS - 2 SP - 204 EP - 210 DO - 10.1080/00218839.2022.2113329 ER -
@article{ author = "Gray, Alison and Adjlane, Noureddine and Arab, Alireza and Ballis, Alexis and Brusbardis, Valters and Bugeja Douglas, Adrian and Cadahía, Luis and Charrière, Jean-Daniel and Chlebo, Robert and Coffey, Mary F. and Cornelissen, Bram and Costa, Cristina Amaro da and Danneels, Ellen and Danihlík, Jiří and Dobrescu, Constantin and Evans, Garth and Fedoriak, Mariia and Forsythe, Ivan and Gregorc, Aleš and Ilieva Arakelyan, Iliyana and Johannesen, Jes and Kauko, Lassi and Kristiansen, Preben and Martikkala, Maritta and Martín-Hernández, Raquel and Mazur, Ewa and Medina-Flores, Carlos Aurelio and Mutinelli, Franco and Omar, Eslam M. and Patalano, Solenn and Raudmets, Aivar and San Martin, Gilles and Soroker, Victoria and Stahlmann-Brown, Philip and Stevanović, Jevrosima and Uzunov, Aleksandar and Vejsnaes, Flemming and Williams, Anthony and Brodschneider, Robert", year = "2023", abstract = "This article presents managed honey bee colony loss rates over winter 2019/20 resulting from using the standardised COLOSS questionnaire in 37 countries. Six countries were from outside Europe, including, for the first time in this series of articles, New Zealand. The 30,491 beekeepers outside New Zealand reported 4.5% of colonies with unsolvable queen problems, 11.1% of colonies dead after winter and 2.6% lost through natural disaster. This gave an overall colony winter loss rate of 18.1%, higher than in the previous year. The winter loss rates varied greatly between countries, from 7.4% to 36.5%. 3216 beekeepers from New Zealand managing 297,345 colonies reported 10.5% losses for their 2019 winter (six months earlier than for other, Northern Hemisphere, countries). We modelled the risk of loss as a dead/empty colony or from unresolvable queen problems, for all countries except New Zealand. Overall, larger beekeeping operations with more than 50 colonies experienced significantly lower losses (p < 0.001). Migration was also highly significant (p < 0.001), with lower loss rates for operations migrating their colonies in the previous season. A higher proportion of new queens reduced the risk of colony winter loss (p < 0.001), suggesting that more queen replacement is better. All three factors, operation size, migration and proportion of young queens, were also included in a multivariable main effects quasi-binomial GLM and all three remained highly significant (p < 0.001). Detailed results for each country and overall are given in a table, and a map shows relative risks of winter loss at the regional level.", journal = "Journal of Apicultural Research", title = "Honey bee colony loss rates in 37 countries using the COLOSS survey for winter 2019–2020: the combined effects of operation size, migration and queen replacement", volume = "62", number = "2", pages = "204-210", doi = "10.1080/00218839.2022.2113329" }
Gray, A., Adjlane, N., Arab, A., Ballis, A., Brusbardis, V., Bugeja Douglas, A., Cadahía, L., Charrière, J., Chlebo, R., Coffey, M. F., Cornelissen, B., Costa, C. A. d., Danneels, E., Danihlík, J., Dobrescu, C., Evans, G., Fedoriak, M., Forsythe, I., Gregorc, A., Ilieva Arakelyan, I., Johannesen, J., Kauko, L., Kristiansen, P., Martikkala, M., Martín-Hernández, R., Mazur, E., Medina-Flores, C. A., Mutinelli, F., Omar, E. M., Patalano, S., Raudmets, A., San Martin, G., Soroker, V., Stahlmann-Brown, P., Stevanović, J., Uzunov, A., Vejsnaes, F., Williams, A.,& Brodschneider, R.. (2023). Honey bee colony loss rates in 37 countries using the COLOSS survey for winter 2019–2020: the combined effects of operation size, migration and queen replacement. in Journal of Apicultural Research, 62(2), 204-210. https://doi.org/10.1080/00218839.2022.2113329
Gray A, Adjlane N, Arab A, Ballis A, Brusbardis V, Bugeja Douglas A, Cadahía L, Charrière J, Chlebo R, Coffey MF, Cornelissen B, Costa CAD, Danneels E, Danihlík J, Dobrescu C, Evans G, Fedoriak M, Forsythe I, Gregorc A, Ilieva Arakelyan I, Johannesen J, Kauko L, Kristiansen P, Martikkala M, Martín-Hernández R, Mazur E, Medina-Flores CA, Mutinelli F, Omar EM, Patalano S, Raudmets A, San Martin G, Soroker V, Stahlmann-Brown P, Stevanović J, Uzunov A, Vejsnaes F, Williams A, Brodschneider R. Honey bee colony loss rates in 37 countries using the COLOSS survey for winter 2019–2020: the combined effects of operation size, migration and queen replacement. in Journal of Apicultural Research. 2023;62(2):204-210. doi:10.1080/00218839.2022.2113329 .
Gray, Alison, Adjlane, Noureddine, Arab, Alireza, Ballis, Alexis, Brusbardis, Valters, Bugeja Douglas, Adrian, Cadahía, Luis, Charrière, Jean-Daniel, Chlebo, Robert, Coffey, Mary F., Cornelissen, Bram, Costa, Cristina Amaro da, Danneels, Ellen, Danihlík, Jiří, Dobrescu, Constantin, Evans, Garth, Fedoriak, Mariia, Forsythe, Ivan, Gregorc, Aleš, Ilieva Arakelyan, Iliyana, Johannesen, Jes, Kauko, Lassi, Kristiansen, Preben, Martikkala, Maritta, Martín-Hernández, Raquel, Mazur, Ewa, Medina-Flores, Carlos Aurelio, Mutinelli, Franco, Omar, Eslam M., Patalano, Solenn, Raudmets, Aivar, San Martin, Gilles, Soroker, Victoria, Stahlmann-Brown, Philip, Stevanović, Jevrosima, Uzunov, Aleksandar, Vejsnaes, Flemming, Williams, Anthony, Brodschneider, Robert, "Honey bee colony loss rates in 37 countries using the COLOSS survey for winter 2019–2020: the combined effects of operation size, migration and queen replacement" in Journal of Apicultural Research, 62, no. 2 (2023):204-210, https://doi.org/10.1080/00218839.2022.2113329 . .