Yıl 2019,
Cilt: 66 Sayı: 1, 95 - 101, 31.12.2018
Cevat Nisbet
,
Ahmet Güler
Selim Bıyık
Kaynakça
- 1. Akyol E, Kaftanoğlu O (2001): Colony characteristics and
the performance of Caucasian (Apis mellifera caucasica)
and Muğla bees and their reciprocal crosses. J Apic Res
40(3-4), 11-15.
- 2. Amdam GV, Fennern E, Baker N, et al. (2010): Honeybee
associative learning performance and metabolic stress
resilience are positively associated. PLoS One 5(3), 9740-3.
- 3. Arenas A, Farina WM (2008): Age and rearing
environment interact in the retention of early olfactory
memories in honeybees. J Comp Physiol A, 194, 629-640.
- 4. Arenas A, Fernández VM, Farina WM (2009):
Associative learning during early adulthood enhances later
memory retention in honeybees. PLoS One 4(12), 8046-51.
- 5. Badiou-Beneteau A, Carvalho SM, Brunet JL, et al.
(2012): Development of biomarkers of exposure to
xenobiotics in the honey bee Apis mellifera: Application to
the systemic insecticide thiamethoxam. Ecotoxicol Environ
Safe, 82, 22–31.
- 6. Bogdanov S (2006): Contaminants of bee products.
Apidologie, 37, 1-18.
- 7. Demirezen D, Aksoy A (2005): Determination of heavy
metals in bee honey using by inductively coupled plasma
optical emission spectrometry. Journal of Science, 18(4),
569-575.
- 8. Eckholm BJ, Anderson KE, Weiss M, et al. (2011):
Intracolonial genetic diversity in honeybee (Apis mellifera)
colonies increases pollen foraging efficiency. Behav Ecol
Sociobiol, 65, 1037-1044.
- 9. Fernandez VM, Arenas A, Farina WM (2009): Volatile
exposure within the honeybee hive and its effect on olfactory
discrimination. J Comp Physiol A, 195,759-768.
- 10. Fredes C, Montenegro G (2006): Heavy metals and other
trace elements contents in Chilean honey 1. Cien Inv Agr,
33(1), 50-58.
- 11. Gil-Lebrero S, Quiles-Latorre FJ, Ortiz-López M, et al.
(2017): Honey Bee Colonies Remote Monitoring System.
Sensors, 17(1):55-58.
- 12. Giurfa M (2007): Behavioral and neural analysis of
associative learning in the honeybee: a taste from the magic
well. J Comp Physiol A Neuroethol Sens Neural Behav
Physiol, 193(8), 801-824.
- 13. Guler A (2008): The effects of the shook swarm technique
on honey bee (Apis mellifera L.) colony productivity and
honey quality. J Apic Res, 47(1), 27-34.
- 14. Heinze J (2008): Social plasticity: ecology, genetics, and
the structure of ant societies, colony of Social Evolution.
Springer-Verlag Berlin Heidelberg, Germany. 129-150.
- 15. Korczynski M, Hamieh A, Huh JH, et al. (2016): Hive
oversight for network ıntrusion early warning using
diamond: a bee-inspired method for fully distributed cyber
defense. IEEE Communications Magazine, 54 (6), 60-67.
- 16. Kravitz EA (2000): Serotonin and aggression: Insights
gained from lobster model system and speculations on the
role of amine neurons in a complex behavior. J Comp
Physiol A, 186, 221-238.
- 17. Luliana B, Cecilia G (2005): Chemical contamination of bee
honey-identifying sensor of the environmental pollution.
JCEA, 6, 467-470.
- 18. Medici V, Sturniolo GC, Santon A, et al. (2005): Efficacy
of zinc supplementation in preventing acute hepatitis in LEC
rats. Liver Int, 25, 888–895.
- 19. Mery F, Burns JG (2010): Behavioural plasticity: an
interaction between evolution and experience. Evol Ecol,
24,571-583.
- 20. Morgano MA, Teixeira martins MC, Rabonato LC, et
al. (2010): Inorganic contaminants in bee pollen from south
eastern Brazil. J Agric Food Chem, 58(11), 6876-6883.
- 21. Munch D, Amdam GV (2010): The curious case of aging
plasticity in honey bees. Febs Lett, 18, 584(12), 2496-2503.
- 22. Perugini M, Manera M, Grotta L, et al. (2011): Heavy
metal (Hg, Cr, Cd, and Pb) contamination in urban areas
and wildlife reserves: honeybees as bioindicators. Biol
Trace Elem Res, 140(2), 170-176.
- 23. Porrini C, Sabatini AG, Girotti S, et al. (2003): Honey
bees and bee products as monitors of the environmental
contamination. Apiacta, 38, 63-70.
- 24. Richard FJ, Aubert A, Grozinger CM (2008):
Modulation of social interactions by immune stimulation in
honey bee, Apis mellifera, workers. BMC Biol, 6 (50),1-13.
- 25. Schulz DJ, Joseph P, Sullivan JP, et al. (2002): Juvenile
hormone and octopamine in the regulation of division of
labour in honey bee colonies. Horm and Behav, 42, 222-
231.
- 26. SPSS. User’s guide. SPSS Inc. Chicago IL 60606–6412
(Customer ID: 361835), 2004.
- 27. Vaidya OC, Rantala RT (1997): A comparative study of
analytical methods: Determination of heavy metals in
mussels (Mytilus edulis) from Eastern Canada. Int J
Environ An Ch. 63, 179-185.
- 28. Williams LH (2002): Cultivation of GM crops in the EU,
farmland biodiversity and bees. Bee World, 83(3), 119-133.
29. Xu P, Shi M, Chen X (2009): Antimicrobial peptide
evolution in the Asiatic honey bee Apis cerena. PLoS One,
4(1), 4239-42.
- 30. Yap CK, Ismail A, Tan SG., et al. (2002): Correlations
between speciation of Cd, Cu, Pb and Zn in sediment and
their concentrations in total soft tissue of green-lipped
mussel Perna viridis from the west coast of Peninsular
Malaysia. Environ. Int, 28(1-2), 117-126
Effects of different environmental conditions on the cognitive function of honeybee (Apis mellifera L.) and mineral content of honey
Yıl 2019,
Cilt: 66 Sayı: 1, 95 - 101, 31.12.2018
Cevat Nisbet
,
Ahmet Güler
Selim Bıyık
Öz
The aim of the present study was to determine the effect of local area inhabited by bee colonies on regional
efficiency, foraging behavior and the content of certain metal elements in honey. Bee colonies from the same genetic source in different
regions demonstrated significant variation (P<0.001) in behavior and performance. Initially, the number of forager worker bees exiting
and entering the hive was approximately equal to each other. However, over time a significant difference (P<0.001) occurred between
regions. Varying regional conditions caused considerable difference (P<0.001) in the average honey yields of colonies (between 28.60
± 3.27 and 0.571 ± 2.76 kg/colony). Significant differences (P<0.01) in the amount of wax produced were also observed between
regions. These regional differences were further reflected in concentrations of certain heavy metals in centrifugal honey samples.
Environmental effects were determined to be the most important reason for the differences in all phenotypes, such as behavior, honey
yield and heavy metal concentrations in honey. Those colonies inhabiting industrial or polluted areas died before the winter. Therefore,
colonies are only productive when provided with appropriate environments or conditions.
Kaynakça
- 1. Akyol E, Kaftanoğlu O (2001): Colony characteristics and
the performance of Caucasian (Apis mellifera caucasica)
and Muğla bees and their reciprocal crosses. J Apic Res
40(3-4), 11-15.
- 2. Amdam GV, Fennern E, Baker N, et al. (2010): Honeybee
associative learning performance and metabolic stress
resilience are positively associated. PLoS One 5(3), 9740-3.
- 3. Arenas A, Farina WM (2008): Age and rearing
environment interact in the retention of early olfactory
memories in honeybees. J Comp Physiol A, 194, 629-640.
- 4. Arenas A, Fernández VM, Farina WM (2009):
Associative learning during early adulthood enhances later
memory retention in honeybees. PLoS One 4(12), 8046-51.
- 5. Badiou-Beneteau A, Carvalho SM, Brunet JL, et al.
(2012): Development of biomarkers of exposure to
xenobiotics in the honey bee Apis mellifera: Application to
the systemic insecticide thiamethoxam. Ecotoxicol Environ
Safe, 82, 22–31.
- 6. Bogdanov S (2006): Contaminants of bee products.
Apidologie, 37, 1-18.
- 7. Demirezen D, Aksoy A (2005): Determination of heavy
metals in bee honey using by inductively coupled plasma
optical emission spectrometry. Journal of Science, 18(4),
569-575.
- 8. Eckholm BJ, Anderson KE, Weiss M, et al. (2011):
Intracolonial genetic diversity in honeybee (Apis mellifera)
colonies increases pollen foraging efficiency. Behav Ecol
Sociobiol, 65, 1037-1044.
- 9. Fernandez VM, Arenas A, Farina WM (2009): Volatile
exposure within the honeybee hive and its effect on olfactory
discrimination. J Comp Physiol A, 195,759-768.
- 10. Fredes C, Montenegro G (2006): Heavy metals and other
trace elements contents in Chilean honey 1. Cien Inv Agr,
33(1), 50-58.
- 11. Gil-Lebrero S, Quiles-Latorre FJ, Ortiz-López M, et al.
(2017): Honey Bee Colonies Remote Monitoring System.
Sensors, 17(1):55-58.
- 12. Giurfa M (2007): Behavioral and neural analysis of
associative learning in the honeybee: a taste from the magic
well. J Comp Physiol A Neuroethol Sens Neural Behav
Physiol, 193(8), 801-824.
- 13. Guler A (2008): The effects of the shook swarm technique
on honey bee (Apis mellifera L.) colony productivity and
honey quality. J Apic Res, 47(1), 27-34.
- 14. Heinze J (2008): Social plasticity: ecology, genetics, and
the structure of ant societies, colony of Social Evolution.
Springer-Verlag Berlin Heidelberg, Germany. 129-150.
- 15. Korczynski M, Hamieh A, Huh JH, et al. (2016): Hive
oversight for network ıntrusion early warning using
diamond: a bee-inspired method for fully distributed cyber
defense. IEEE Communications Magazine, 54 (6), 60-67.
- 16. Kravitz EA (2000): Serotonin and aggression: Insights
gained from lobster model system and speculations on the
role of amine neurons in a complex behavior. J Comp
Physiol A, 186, 221-238.
- 17. Luliana B, Cecilia G (2005): Chemical contamination of bee
honey-identifying sensor of the environmental pollution.
JCEA, 6, 467-470.
- 18. Medici V, Sturniolo GC, Santon A, et al. (2005): Efficacy
of zinc supplementation in preventing acute hepatitis in LEC
rats. Liver Int, 25, 888–895.
- 19. Mery F, Burns JG (2010): Behavioural plasticity: an
interaction between evolution and experience. Evol Ecol,
24,571-583.
- 20. Morgano MA, Teixeira martins MC, Rabonato LC, et
al. (2010): Inorganic contaminants in bee pollen from south
eastern Brazil. J Agric Food Chem, 58(11), 6876-6883.
- 21. Munch D, Amdam GV (2010): The curious case of aging
plasticity in honey bees. Febs Lett, 18, 584(12), 2496-2503.
- 22. Perugini M, Manera M, Grotta L, et al. (2011): Heavy
metal (Hg, Cr, Cd, and Pb) contamination in urban areas
and wildlife reserves: honeybees as bioindicators. Biol
Trace Elem Res, 140(2), 170-176.
- 23. Porrini C, Sabatini AG, Girotti S, et al. (2003): Honey
bees and bee products as monitors of the environmental
contamination. Apiacta, 38, 63-70.
- 24. Richard FJ, Aubert A, Grozinger CM (2008):
Modulation of social interactions by immune stimulation in
honey bee, Apis mellifera, workers. BMC Biol, 6 (50),1-13.
- 25. Schulz DJ, Joseph P, Sullivan JP, et al. (2002): Juvenile
hormone and octopamine in the regulation of division of
labour in honey bee colonies. Horm and Behav, 42, 222-
231.
- 26. SPSS. User’s guide. SPSS Inc. Chicago IL 60606–6412
(Customer ID: 361835), 2004.
- 27. Vaidya OC, Rantala RT (1997): A comparative study of
analytical methods: Determination of heavy metals in
mussels (Mytilus edulis) from Eastern Canada. Int J
Environ An Ch. 63, 179-185.
- 28. Williams LH (2002): Cultivation of GM crops in the EU,
farmland biodiversity and bees. Bee World, 83(3), 119-133.
29. Xu P, Shi M, Chen X (2009): Antimicrobial peptide
evolution in the Asiatic honey bee Apis cerena. PLoS One,
4(1), 4239-42.
- 30. Yap CK, Ismail A, Tan SG., et al. (2002): Correlations
between speciation of Cd, Cu, Pb and Zn in sediment and
their concentrations in total soft tissue of green-lipped
mussel Perna viridis from the west coast of Peninsular
Malaysia. Environ. Int, 28(1-2), 117-126