Ecological stoichiometry of the honeybee: Pollen diversity and adequate species composition are needed to mitigate limitations imposed on the growth and development of bees by pollen quality

• Published in: PloS one Vol. 12; no. 8; p. e0183236
• Main Authors: Filipiak, Michał, Kuszewska, Karolina, Asselman, Michel, Denisow, Bożena, Stawiarz, Ernest, Woyciechowski, Michał, Weiner, January
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 22.08.2017; Public Library of Science (PLoS)
• Subjects: Agricultural sciences; Analysis; Animal biology; Animal production studies; Animals; Bees; Bees - genetics; Bees - physiology; Behavior; Biodiversity; Biodiversity and Ecology; Biology and Life Sciences; Castes; Chemical composition; Chemical elements; Clover; Constraining; Copper; Diet; Ecology; Ecology, environment; Ecosystems; Environmental science; Environmental Sciences; European honeybee; Female; Food; Foraging behavior; Growth; Growth (Physiology); Horticulture; Intervention; Iron; Laboratories; Life Sciences; Literature reviews; Male; Manganese; Medicine and Health Sciences; Nectar; Nutrients; Nutrition; Physical Sciences; Physiological aspects; Plant biology; Plant diversity; Plant nectar; Plant reproduction; Plantations; Pollen; Pollination; Pollinators; Species composition; Species diversity; Stoichiometry; Sulfur; Zinc; colony collapse disorder; limitation; development; bee; nutritional mismatch; pollen; CCD; pollinator syndrome; health; pollinator; honeybee; microelement; ecological stoichiometry; stoichiometric mismatch; nutrition; mismatch; growth; atom; colony collapse
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0183236

The least understood aspects of the nutritional needs of bees are the elemental composition of pollen and the bees' need for a stoichiometrically balanced diet containing the required proportions of nutrients. Reduced plant diversity has been proposed as an indirect factor responsible for the pollinator crisis. We suggest stoichiometric mismatch resulting from a nutritionally unbalanced diet as a potential direct factor. The concentrations and stoichiometric ratios of C, N, S, P, K, Na, Ca, Mg, Fe, Zn, Mn, and Cu were studied in the bodies of honeybees of various castes and sexes and in the nectar and pollen of various plant species. A literature review of the elemental composition of pollen was performed. We identified possible co-limitations of bee growth and development resulting mainly from the scarcity of Na, S, Cu, P and K, and possibly Zn and N, in pollen. Particular castes and sexes face specific limitations. Concentrations of potentially limiting elements in pollen revealed high taxonomic diversity. High floral diversity may be necessary to maintain populations of pollen eaters. Single-species crop plantations, even if these species are rich in nectar and pollen, might limit bee growth and development, not allowing for gathering nutrients in adequate proportions. However, particular plant species may play greater roles than others in balancing honeybee diets. Therefore, we suggest specific plant species that may (1) ensure optimal growth and production of individuals by producing pollen that is exceptionally well balanced stoichiometrically (e.g., clover) or (2) prevent growth and development of honeybees by producing pollen that is extremely unbalanced for bees (e.g., sunflower). Since pollen is generally poor in Na, this element must be supplemented using "dirty water". Nectar cannot supplement the diet with limiting elements. Stoichiometric mismatch should be considered in intervention strategies aimed at improving the nutritional base for bees.