Juan J. Jiménez scite author profile

In recent years, honeybees (Apis mellifera) have been strangely disappearing from their hives, and strong colonies have suddenly become weak and died. The precise aetiology underlying the disappearance of the bees remains a mystery. However, during the same period, Nosema ceranae, a microsporidium of the Asian bee Apis cerana, seems to have colonized A. mellifera, and it's now frequently detected all over the world in both healthy and weak honeybee colonies. For first time, we show that natural N. ceranae infection can cause the sudden collapse of bee colonies, establishing a direct correlation between N. ceranae infection and the death of honeybee colonies under field conditions. Signs of colony weakness were not evident until the queen could no longer replace the loss of the infected bees. The long asymptomatic incubation period can explain the absence of evident symptoms prior to colony collapse. Furthermore, our results demonstrate that healthy colonies near to an infected one can also become infected, and that N. ceranae infection can be controlled with a specific antibiotic, fumagillin. Moreover, the administration of 120 mg of fumagillin has proven to eliminate the infection, but it cannot avoid reinfection after 6 months. We provide Koch's postulates between N. ceranae infection and a syndrome with a long incubation period involving continuous death of adult bees, non-stop brood rearing by the bees and colony loss in winter or early spring despite the presence of sufficient remaining pollen and honey.

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Variability of brewer’s spent grain within a brewery

Santos

et al. 2003

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Overview of Pesticide Residues in Stored Pollen and Their Potential Effect on Bee Colony (Apis mellifera) Losses in Spain

et al. 2010

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In the last decade, an increase in honey bee (Apis mellifera L.) colony losses has been reported in several countries. The causes of this decline are still not clear. This study was set out to evaluate the pesticide residues in stored pollen from honey bee colonies and their possible impact on honey bee losses in Spain. In total, 1,021 professional apiaries were randomly selected. All pollen samples were subjected to multiresidue analysis by gas chromatography-mass spectrometry (MS) and liquid chromatography-MS; moreover, specific methods were applied for neonicotinoids and fipronil. A palynological analysis also was carried out to confirm the type of foraging crop. Pesticide residues were detected in 42% of samples collected in spring, and only in 31% of samples collected in autumn. Fluvalinate and chlorfenvinphos were the most frequently detected pesticides in the analyzed samples. Fipronil was detected in 3.7% of all the spring samples but never in autumn samples, and neonicotinoid residues were not detected. More than 47.8% of stored pollen samples belonged to wild vegetation, and sunflower (Heliantus spp.) pollen was only detected in 10.4% of the samples. A direct relation between pesticide residues found in stored pollen samples and colony losses was not evident accordingly to the obtained results. Further studies are necessary to determine the possible role of the most frequent and abundant pesticides (such as acaricides) and the synergism among them and with other pathogens more prevalent in Spain.

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Physico‐chemical parameters for the characterization of pure beeswax and detection of adulterations

Bernal

Jiménez

Nozal

et al. 2005

Eur. J. Lipid Sci. Technol.

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Pure beeswaxes produced in different climatic regions of Spain have been characterized by the determination of nine physico-chemical parameters: density, acid, saponification, ester, ratio number, iodine, peroxide, melting point and ash content values. The official methods of analysis to determine density and saponification values in fats and oils were not suitable for beeswaxes; alternative methods are proposed in this work for both parameters. After verifying the precision of the methods and the value guidelines, the usefulness of the physico-chemical parameters to detect adulterations with paraffin, stearic acid, carnauba wax and tallow was tested: adulteration percentages of 5%, or higher, were commonly detected. Marketed foundation beeswax sheets, rejected or badly accepted by the bees, were also analyzed to discuss their quality; 25 out of 27 beeswax sheets show anomalous values for at least one parameter.

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High-performance liquid chromatographic determination of methyl anthranilate, hydroxymethylfurfural and related compounds in honey

Nozal¹,

Bernal²,

Toribio³

et al. 2001

Journal of Chromatography A

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Juan J. Jiménez

How natural infection by Nosema ceranae causes honeybee colony collapse

Variability of brewer’s spent grain within a brewery

Overview of Pesticide Residues in Stored Pollen and Their Potential Effect on Bee Colony (Apis mellifera) Losses in Spain

Physico‐chemical parameters for the characterization of pure beeswax and detection of adulterations

High-performance liquid chromatographic determination of methyl anthranilate, hydroxymethylfurfural and related compounds in honey

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