The developmental basis of floral nectary diversity and evolution. [PDF]
New PhytolLiao IT, Gong Y, Kramer EM, Nikolov LA.
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Morphological characterization of Andean Passifloras (Passiflora spp.) from Ecuador [PDF]
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Honey Bee Foraging Decisions Are Shaped by Floral Trait Distinctiveness and Perception of Gains or Losses. [PDF]
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Structure and ultrastructure of nuptial and extranuptial nectaries explain secretion changes throughout flower lifetime and allow for multiple ecological interactions. [PDF]
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Draft genome sequences of 25 candidate biocontrol bacteria against <i>Phytophthora cactorum</i>. [PDF]
Microbiol Resour AnnouncFerreira J, Rediers H.
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Enhancing Pollinator Support: Plant-Pollinator Dynamics Between <i>Salvia yangii</i> and <i>Anthidium</i> Bees in Anthropogenic Landscapes. [PDF]
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Neuroactive nectar: compounds in nectar that interact with neurons
Arthropod-Plant Interactions, 2020As well as sugars to entice pollinators, nectar contains many other chemicals including amino acids and plant secondary compounds such as phenolics, alkaloids, and glycosides. Rather than simply the byproducts of plant metabolism or contamination by compounds meant to deter herbivory, it is clear that these chemicals may have important roles in nectar.
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