Characterizing the causes and consequences of calcium oxalate crystal presence in Vitis riparia
Carolyn D. K. Graham, Samantha Molino, Addison L. Yerks, Marjorie Weber

TL;DR
This study explores the causes and effects of calcium oxalate crystals in riverbank grape, finding that soil calcium levels influence crystal formation and that the crystals may not serve as insect defenses.
Contribution
The study provides experimental evidence that calcium regulation, not herbivore defense, may drive calcium oxalate crystal formation in Vitis riparia.
Findings
Adding calcium to soil increased the density of both raphide and druse crystals in V. riparia leaves.
Herbivory treatment decreased raphide density, and crystals did not affect moth larval growth or survival.
The results support the hypothesis that calcium regulation, not herbivore defense, drives crystal formation in this species.
Abstract
Calcium oxalate biomineralization in plants is phylogenetically widespread and morphologically diverse, but the function of these inorganic crystals is an area of active debate. The variety of environmental conditions that produce the crystals, as well as the inconsistent evidence that they provide antiherbivore defense across plant and herbivore species, suggests that different crystal morphologies might have different functions. Using Vitis riparia, or riverbank grape, we experimentally investigated the environmental influence of excess calcium and simulated herbivory on the formation of calcium oxalate druse and raphide crystals in leaves. We also investigated the putative defensive function of these crystals by using a no‐choice herbivore bioassay manipulating herbivore diet composition to test for impacts of crystal shape on herbivore growth, both on its own and with plant…
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Taxonomy
TopicsHorticultural and Viticultural Research · Plant Stress Responses and Tolerance · Plant pathogens and resistance mechanisms
