Abstract
Female individuals of dioecious plants invest their resources more in storage and defence, and the males have higher nitrogen content invested in the production of pollen grains. An unresolved problem is whether this strategy occurs only in sexually mature plants or can also occur in juvenile plants. To answer this, Taxus baccata (L.) needles from the mature plants and rooted cuttings (juveniles) in a pot experiment were compared for the content of carbon, nitrogen, starch, total non-structural carbohydrates (TNC), and total phenolic compounds (TPhC). The results indicate that the differences between sexes occurred mainly in sexually mature plants, where the starch content was higher in females and nitrogen in males. However, the novelty of the results is that TPhC was generally higher in females than males in both adults and juveniles, suggesting that defence is a priority for females from an early age. We do not know if this is an innate trait because the strobili production (albeit at a very low level) of juveniles was observed in all individuals after the autumn of the first year. We found no effect of fertilization on sex-specific response in the pot experiment, which may be related to the lower reproductive effort of juveniles.
Highlights
IntroductionA general biological rule is that growth, maintenance, and reproduction compete for the same limited resources [7,8]; many different factors (plant age, habitat, and phenology) influence which trait receives most of them
The fertilization treatment had a significant effect on the content of N, C, and phenolic compounds (TPhC) in needles (Table S1)
Adult yews showed chemistry characteristics typical for dioecious species: female individuals had higher levels of storage and defence substances, and male individuals had a higher level of N necessary for pollen production
Summary
A general biological rule is that growth, maintenance, and reproduction compete for the same limited resources [7,8]; many different factors (plant age, habitat, and phenology) influence which trait receives most of them. This could offset life-history trade-offs among the sexes between growth and reproduction. SSD is pointed to as a consequence of reproductive inputs, and it may constitute an adaptation to fulfilling sexual functions [9] These can be physiological mechanisms as well as differences in resource management [10,11]
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