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1.
Sci Rep ; 11(1): 1366, 2021 01 14.
Artigo em Inglês | MEDLINE | ID: mdl-33446846

RESUMO

Beekeepers struggle to minimize the mortality of their colonies as a consequence of the parasitic mite Varroa destructor in order to maintain a sustainable managed pollinator population. However, little is known about how varroa mites might diminish local populations of honey bee males (drones) that might affect the mating success of queens. As one of the world's last localities invaded by varroa mites, the Hawaiian Islands offer a unique opportunity to examine this question by comparing queens mated on mite-infested and mite-free islands. We raised queen bees on four Hawaiian Islands (Kaua'i, O'ahu, Maui, and Hawai'i) and subsequently collected their offspring to determine queen mating frequency and insemination success. No significant difference for mating success was found between the islands with and without varroa mites, and relatively high levels of polyandry was detected overall. We also found a significant association between the number of sperm stored in the queens' spermathecae and the number of managed colonies within the localities of the queens mated. Our findings suggest that varroa mites, as they currently occur in Hawai'i, may not significantly reduce mating success of honey bee queens, which provides insight for both the reproductive biology of honey bees as well as the apiculture industry in Hawai'i.


Assuntos
Abelhas/parasitologia , Comportamento Sexual Animal , Varroidae , Animais , Feminino , Havaí , Masculino
2.
PLoS One ; 11(2): e0148242, 2016.
Artigo em Inglês | MEDLINE | ID: mdl-26840460

RESUMO

Annual losses of honey bee colonies remain high and pesticide exposure is one possible cause. Dangerous combinations of pesticides, plant-produced compounds and antibiotics added to hives may cause or contribute to losses, but it is very difficult to test the many combinations of those compounds that bees encounter. We propose a mechanism-based strategy for simplifying the assessment of combinations of compounds, focusing here on compounds that interact with xenobiotic handling ABC transporters. We evaluate the use of ivermectin as a model substrate for these transporters. Compounds that increase sensitivity of bees to ivermectin may be inhibiting key transporters. We show that several compounds commonly encountered by honey bees (fumagillin, Pristine, quercetin) significantly increased honey bee mortality due to ivermectin and significantly reduced the LC50 of ivermectin suggesting that they may interfere with transporter function. These inhibitors also significantly increased honey bees sensitivity to the neonicotinoid insecticide acetamiprid. This mechanism-based strategy may dramatically reduce the number of tests needed to assess the possibility of adverse combinations among pesticides. We also demonstrate an in vivo transporter assay that provides physical evidence of transporter inhibition by tracking the dynamics of a fluorescent substrate of these transporters (Rhodamine B) in bee tissues. Significantly more Rhodamine B remains in the head and hemolymph of bees pretreated with higher concentrations of the transporter inhibitor verapamil. Mechanism-based strategies for simplifying the assessment of adverse chemical interactions such as described here could improve our ability to identify those combinations that pose significantly greater risk to bees and perhaps improve the risk assessment protocols for honey bees and similar sensitive species.


Assuntos
Transportadores de Cassetes de Ligação de ATP/antagonistas & inibidores , Abelhas/efeitos dos fármacos , Transporte Biológico/efeitos dos fármacos , Inseticidas/farmacologia , Ivermectina/metabolismo , Transportadores de Cassetes de Ligação de ATP/efeitos dos fármacos , Animais , Compostos de Bifenilo/farmacologia , Carbamatos/farmacologia , Cicloexanos/farmacologia , Resistência a Múltiplos Medicamentos , Exposição Ambiental/efeitos adversos , Ácidos Graxos Insaturados/farmacologia , Ivermectina/farmacologia , Proteínas de Membrana Transportadoras/metabolismo , Neonicotinoides , Niacinamida/análogos & derivados , Niacinamida/farmacologia , Pirazóis/farmacologia , Piridinas/farmacologia , Quercetina/farmacologia , Rodaminas/metabolismo , Medição de Risco , Sesquiterpenos/farmacologia , Verapamil/farmacologia
3.
Naturwissenschaften ; 100(8): 723-8, 2013 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-23728203

RESUMO

Honey bee (Apis mellifera) queens mate with unusually high numbers of males (average of approximately 12 drones), although there is much variation among queens. One main consequence of such extreme polyandry is an increased diversity of worker genotypes within a colony, which has been shown empirically to confer significant adaptive advantages that result in higher colony productivity and survival. Moreover, honey bees are the primary insect pollinators used in modern commercial production agriculture, and their populations have been in decline worldwide. Here, we compare the mating frequencies of queens, and therefore, intracolony genetic diversity, in three commercial beekeeping operations to determine how they correlate with various measures of colony health and productivity, particularly the likelihood of queen supersedure and colony survival in functional, intensively managed beehives. We found the average effective paternity frequency (m e ) of this population of honey bee queens to be 13.6 ± 6.76, which was not significantly different between colonies that superseded their queen and those that did not. However, colonies that were less genetically diverse (headed by queens with m e ≤ 7.0) were 2.86 times more likely to die by the end of the study when compared to colonies that were more genetically diverse (headed by queens with m e > 7.0). The stark contrast in colony survival based on increased genetic diversity suggests that there are important tangible benefits of increased queen mating number in managed honey bees, although the exact mechanism(s) that govern these benefits have not been fully elucidated.


Assuntos
Abelhas/genética , Variação Genética , Comportamento Sexual Animal/fisiologia , Análise de Variância , Animais , Feminino , Masculino , Repetições de Microssatélites/genética , Análise de Sobrevida
4.
J Econ Entomol ; 103(5): 1517-23, 2010 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-21061948

RESUMO

Colony collapse disorder (CCD), a syndrome whose defining trait is the rapid loss of adult worker honey bees, Apis mellifera L., is thought to be responsible for a minority of the large overwintering losses experienced by U.S. beekeepers since the winter 2006-2007. Using the same data set developed to perform a monofactorial analysis (PloS ONE 4: e6481, 2009), we conducted a classification and regression tree (CART) analysis in an attempt to better understand the relative importance and interrelations among different risk variables in explaining CCD. Fifty-five exploratory variables were used to construct two CART models: one model with and one model without a cost of misclassifying a CCD-diagnosed colony as a non-CCD colony. The resulting model tree that permitted for misclassification had a sensitivity and specificity of 85 and 74%, respectively. Although factors measuring colony stress (e.g., adult bee physiological measures, such as fluctuating asymmetry or mass of head) were important discriminating values, six of the 19 variables having the greatest discriminatory value were pesticide levels in different hive matrices. Notably, coumaphos levels in brood (a miticide commonly used by beekeepers) had the highest discriminatory value and were highest in control (healthy) colonies. Our CART analysis provides evidence that CCD is probably the result of several factors acting in concert, making afflicted colonies more susceptible to disease. This analysis highlights several areas that warrant further attention, including the effect of sublethal pesticide exposure on pathogen prevalence and the role of variability in bee tolerance to pesticides on colony survivorship.


Assuntos
Abelhas/fisiologia , Colapso da Colônia/classificação , Animais , Abelhas/efeitos dos fármacos , Abelhas/genética , Colapso da Colônia/epidemiologia , Cumafos/toxicidade , Tolerância a Medicamentos , Predisposição Genética para Doença , Inseticidas/toxicidade , Praguicidas/toxicidade , Análise de Regressão , Fatores de Risco , Síndrome
5.
Evolution ; 62(6): 1317-34, 2008 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-18346222

RESUMO

Significant additive genetic variance often occurs for male advertisement traits in spite of the directional selection imposed by female choice, a problem generally known in evolutionary biology as the lek paradox. One hypothesis, which has limited support from recent studies, for the resolution of this paradox is the role of genotype x environment interaction in which no one genotype exhibits the superior performance in all environments--a crossover of reaction norms. However, these studies have not characterized the actual variation of reaction norms present in natural populations, and the extent to which crossover maintains genetic variance remains unknown. Here, we present a study of genotype x environment interaction for the male calling song in populations of Achroia grisella (Lepidoptera: Pyralidae; lesser waxmoth). We report significant variance among reaction norms for male calling song in two North American populations of A. grisella as measured along temperature, food availability, and density gradients, and there is a relatively high incidence of crossover of the temperature reaction norms. This range of reaction norm variants and their crossover may reflect the co-occurrence of plastic and canalized genotypes, and we argue that the different responses of these variants along environmental gradients may contribute toward the maintenance of genetic variance for male song.


Assuntos
Meio Ambiente , Preferência de Acasalamento Animal/fisiologia , Mariposas/fisiologia , Vocalização Animal/fisiologia , Análise de Variância , Animais , Fluxo Gênico/genética , Genótipo , Louisiana , Masculino , Maryland , Mariposas/genética , Temperatura
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