Key message <p>We evaluated the seed storability of three native Korean <i>Rhododendron</i> species (<i>Rhododendron micranthum</i> Turcz., <i>R. mucronulatum</i> Turcz., and <i>R. schlippenbachii</i> Maxim.) under storage seed bank conditions. Although the three species were classified as bearing orthodox seeds, our analysis revealed a profound interspecific divergence in storability trends. These results highlight the need for species-specific storage protocols, even within the same genus or storage category.</p> Context <p><i>Rhododendron micranthum</i>, <i>R. mucronulatum</i>, and <i>R. schlippenbachii</i> are representative native <i>Rhododendron</i> species in Korea. They differ genetically and ecologically. Conservation of each species is becoming critical under climate change conditions, and reliable long-term data on seed storability are essential for effective conservation planning.</p> Aims <p>This study aimed to obtain long-term germination data for the three species across various storage periods (&gt;10&#xa0;years) to statistically evaluate the interspecific differences in longevity and storability during seed bank storage.</p> Methods <p>Seeds were collected from wild populations in Korea and processed according to standardized seed bank protocols. Changes in germination were assessed using periodic germination tests.</p> Results <p>Seed longevity varied significantly among species (<i>p</i> &lt; 0.001), and <i>R. micranthum</i> exhibited a rapid decline in germination beyond 10&#xa0;years. <i>R. mucronulatum</i> showed a more gradual decline. In contrast, <i>R. schlippenbachii</i> maintained a consistently high germination rate throughout the storage. Probit-based P<sub>50</sub> estimates supported these patterns for species exhibiting significant slopes of deterioration, whereas the longevity of highly persistent seeds remained statistically uncertain. The GLM analysis revealed a highly significant Time × Species interaction (<i>χ</i><sup>2</sup> = 142.01, df = 2, <i>p</i> &lt; 0.001), demonstrating fundamentally different rates of germination loss despite identical storage conditions.</p> Conclusion <p>These findings demonstrate a strong interspecific variation in seed storability among Korean <i>Rhododendron</i> species. The results underscore that categorical storage designations (i.e., “orthodox”) may mask substantial differences in actual storage potential.</p>

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Long-term seed bank storage reveals interspecific variation in seed longevity of native Rhododendron species in Korea

  • SeongHyeon Yong,
  • Dabin Yeom,
  • Yeonji Lee,
  • Jiwon Kim,
  • HyeokJin Kim,
  • MiJin Jeong

摘要

Key message

We evaluated the seed storability of three native Korean Rhododendron species (Rhododendron micranthum Turcz., R. mucronulatum Turcz., and R. schlippenbachii Maxim.) under storage seed bank conditions. Although the three species were classified as bearing orthodox seeds, our analysis revealed a profound interspecific divergence in storability trends. These results highlight the need for species-specific storage protocols, even within the same genus or storage category.

Context

Rhododendron micranthum, R. mucronulatum, and R. schlippenbachii are representative native Rhododendron species in Korea. They differ genetically and ecologically. Conservation of each species is becoming critical under climate change conditions, and reliable long-term data on seed storability are essential for effective conservation planning.

Aims

This study aimed to obtain long-term germination data for the three species across various storage periods (>10 years) to statistically evaluate the interspecific differences in longevity and storability during seed bank storage.

Methods

Seeds were collected from wild populations in Korea and processed according to standardized seed bank protocols. Changes in germination were assessed using periodic germination tests.

Results

Seed longevity varied significantly among species (p < 0.001), and R. micranthum exhibited a rapid decline in germination beyond 10 years. R. mucronulatum showed a more gradual decline. In contrast, R. schlippenbachii maintained a consistently high germination rate throughout the storage. Probit-based P50 estimates supported these patterns for species exhibiting significant slopes of deterioration, whereas the longevity of highly persistent seeds remained statistically uncertain. The GLM analysis revealed a highly significant Time × Species interaction (χ2 = 142.01, df = 2, p < 0.001), demonstrating fundamentally different rates of germination loss despite identical storage conditions.

Conclusion

These findings demonstrate a strong interspecific variation in seed storability among Korean Rhododendron species. The results underscore that categorical storage designations (i.e., “orthodox”) may mask substantial differences in actual storage potential.