| dc.description.abstract | The structure of pollination networks is critical to ecosystem stability and functioning. We
investigated pollinator-plant interactions to understand the foraging preference and develop
pollination networks in a semi-arid rangeland of different grazing management categories in
Tanzania. Along three line transects, each measuring 100 m, in each of the four grazing man-
agement categories (private and communal enclosures, wet and dry season grazing areas), we laid
out three quadrats measuring 5 m x 5 m (25 m2,) located 30 m apart. We recorded insects visiting
flowering plants for two consecutive days in each quadrat every week at each site from April to
May, in 2019 and 2020. Aspilia mossambicensis received the most significant proportion of insect
visitors (28%), followed by Justicia debile (21%). The mean protein concentration in sampled
pollen varied significantly between plant species (χ2 = 25.9, P = 0.001), with Solanum incanum
containing the highest concentration (299.3 ± 0.68) g/100 g. We did not notice any correlation
between honey bee visitation and protein concentration in pollen (r = 0.471, P = 0.239) nor
with fatty acids concentration (r = 0.253, P = 0.546). When comparing pollinator-plant network
properties including connectance, nestedness, robustness, number of links, modularity, network
diversity and linkage density across rangeland management, we found that the private enclosure
contained significantly larger networks than the communal enclosure, the dry and the wet season
grazing sites. We conclude that particularly private enclosures are vital to promote pollination
networks in our studied rangeland system as they include important pollinator forage plants. | en_US |
