Small acorns are usually discarded for seedling cultivation because they reduce plant quality. This, however, can potentially reduce genetic diversity of plantations. The use of small acorns will result in the production of a higher proportion of small seedlings containing low nutrient levels and having poor outplanting performance in oak container seedlings. Nursery fertilization partially offsets the negative effect of small acorns on seedling attributes in the nursery but not on outplanting performance.
Context Small acorns result in low-quality seedlings and so are usually discarded in artificial regeneration programs of oak species. This can potentially reduce genetic diversity of plantations. Nursery fertilization may compensate for the low quality of small-acorn seedlings.
Aims To assess whether nursery fertilization interacts with Quercus variabilis acorn size to determine seedling morphology and nutrition in the nursery and outplanting performance.
Methods Acorns of three size classes were used to cultivate seedlings with or without fertilization. Seedling emergence, nursery morphology and nutrient status, and outplanting survival and growth were measured.
Results Small acorns represented 41% of the seed batch. Most acorn size variation occurred within trees rather than among trees. Smaller acorns were associated with lower emergence and resulted in smaller seedlings that had lower nutrient content levels. Nursery fertilization slightly increased seedling growth for all acorn sizes; it also strongly increased nutrient content, especially in small-acorn seedlings. Two years after planting, survival of small-acorn seedlings was 32% lower than the survival of medium- and large-acorn plants. Fertilization did not affect survival, but it did increase size, especially of small-acorn seedlings, though they did not achieve the growth of large-acorn seedlings.
Conclusion Nursery fertilization increases growth and nutrient status, but not outplanting performance, of small-acorn seedlings.
Acorn size, Nursery fertilization, Nutrient concentration, Outplanting performance, Seedling growth, Survival
Shi, W., Villar-Salvador, P., Li, G. et al. Annals of Forest Science (2019) 76: 22. https://doi.org/10.1007/s13595-018-0785-8
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The datasets generated and analyzed in the current study are available in the Mendeley repository (Shi et al. 2018b). Shi et al. (2018b) Data from: Acorn size is more important than nursery fertilization for outplanting performance of Quercus variabilis container seedlings. V2. Mendeley Digital Repository. [dataset]. https://doi.org/10.17632/krgxdd2rtp.2