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The evolutionary correlation associated with seed mass and altitude on nutrient allocation of seeds

Bu, Hai-Yan, Zhang, Yan-Ming, Zhao, Di, Wang, Su-Yu, Jia, Peng, Qi, Wei, Liu, Kun, Xu, Dang-Hui, Ge, Wen-Jing, Wang, Xue-Jing
Seed science research 2019 v.29 no.1 pp. 38-43
Spermatophytina, altitude, carbon, herbaceous plants, nitrogen, phosphorus, phylogeny, progeny, seed germination, seed weight, seedling growth, seedlings, seeds
Seed reserves play vital roles in seed germination and seedling growth and their variation may be related to various environment factors, plant traits and phylogenetic history. Here, the evolutionary correlation associated with seed mass and altitude and carbon (C), nitrogen (N) and phosphorus (P) allocation of seeds among 253 alpine herbaceous plants was tested. In this study, phylogeny had strong limitations on nutrient allocation of seeds across species, and species from younger phylogenetic groups tended to have higher N and P contents, which might be considered as the evolutionary selection of seed plants. Higher seed N and P content would help seedlings to gain more survival chance and stronger competitive capacity, and their progeny would be more likely to be preserved. When phylogeny was considered, altitude only had a significant positive effect on P content, but the negative effects on seed mass were all expressed. The independent effects of altitude and seed mass suggest that the nutrient allocation of seeds might be affected by both environment and plant traits. In addition, altitude and seed mass displayed partial overlapping effects on nutrient allocation of seeds. The negative effects of seed mass were affected slightly by altitude, whereas altitude only had a significant positive effect on P content when seed mass was controlled. Above all, seed P content showed obvious and general correlations with seed mass, altitude and age of clade, which indicated that higher seed P content might be an adaptive selection of species associated with growth and survival of progeny.