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Bjorn K. Klatt et al.
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Nanxiang Jin et al.
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Maj Rundlof et al.
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Dave Goulson et al.
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J. P. van der Sluijs et al.
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Maria Arena et al.
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Gina Retschnig et al.
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Francisco Sanchez-Bayo et al.
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Gennaro Di Prisco et al.
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Simon G. Potts et al.
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C. D. Scott-Dupree et al.
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The ontogeny of immunity: Development of innate immune strength in the honey bee (Apis mellifera)
Noah Wilson-Rich et al.
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ANNUAL REVIEW OF ENTOMOLOGY (2007)
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J. D. Evans et al.
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Assessing delayed and acute toxicity of five formulated fungicides to Osmia lignaria Say and Apis mellifera
E Ladurner et al.
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