M
Mary V. Price
Researcher at University of Arizona
Publications - 101
Citations - 11697
Mary V. Price is an academic researcher from University of Arizona. The author has contributed to research in topics: Ipomopsis aggregata & Pollination. The author has an hindex of 51, co-authored 99 publications receiving 11055 citations. Previous affiliations of Mary V. Price include University of California, Riverside & Rocky Mountain Biological Laboratory.
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Generalization in pollination systems, and why it matters
TL;DR: To illustrate the range of specialization and generalization in pollinators' use of plants and vice versa, studies of two floras in the United States, and of members of several plant families and solitary bee genera are drawn.
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Global warming and the disruption of plant–pollinator interactions
TL;DR: This work used a highly resolved empirical network of interactions between 1420 pollinator and 429 plant species to simulate consequences of the phenological shifts that can be expected with a doubling of atmospheric CO(2), causing as much as half of the ancestral activity period of the animals to fall at times when no food plants were available.
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Tolerance of pollination networks to species extinctions
TL;DR: Tolerance in pollination networks contrasts with catastrophic declines reported from standard food webs, and the most–linked pollinators were bumble–bees and some solitary bees, which should receive special attention in efforts to conserve temperate pollination systems.
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Pollen dispersal and optimal outcrossing in Delphinium nelsoni
TL;DR: It is suggested that outbreeding depression will often occur on a much finer scale than previously recognised, especially in plants subject to restricted pollen and seed dispersal, and a short outcrossing distance is optimal for Delphinium nelsoni Greene.
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A global test of the pollination syndrome hypothesis.
Jeff Ollerton,Ruben Alarcón,Ruben Alarcón,Ruben Alarcón,Nickolas M. Waser,Nickolas M. Waser,Nickolas M. Waser,Mary V. Price,Mary V. Price,Mary V. Price,Stella Watts,Louise Cranmer,Andrew B. Hingston,Craig I. Peter,John T. Rotenberry +14 more
TL;DR: Ordination of flowers in a multivariate 'phenotype space' defined by the pollination syndromes showed that almost no plant species fall within the discrete syndrome clusters and the most common pollinator could not be successfully predicted.