The results highlight the importance of including seed quality in addition to seed quantity for a more complete representation of reproductive output. Both larger embryo volume and larger overall seed size increased the likelihood of germination. The likelihood of embryo presence increased as growth rate decreased, while embryo size increased with tree height, smaller DBH, and in areas dominated by hemlock. Only 63% of scanned seeds showed embryo development, and of those seeds-only 23% germinated. ![]() The trees with the most seeds also showed reduced growth in recent years. The number of seeds produced was negatively affected by frost events during flowering, and stand density. A random subsample of collected seeds from each tree was micro‐CT scanned to determine embryo volume, photographed for morphology measurements, and used for germination trials. A variety of individual‐level characteristics were measured (e.g., DBH, canopy area, height, and tree cores were taken to quantify growth), and seed traps were placed under seed‐bearing trees to collect samaras and quantify total seed production. Thus, to quantify how environmental and tree‐level characteristics affect seed quality and quantity, the reproductive output of red maple ( Acer rubrum) was measured along an elevation gradient in the Monongahela National Forest, WV. While total seed production is clearly important, seed quality is equally as critical and often overlooked. As seeds represent the single opportunity for plants to move, it is critical to quantify the factors that influence reproduction. Under future climate change, plant species are expected to shift their ranges in response to increasing temperatures and altered precipitation patterns.
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