Stoichiometric traits of oriental oak (Quercus variabilis) acorns and their variations in relation to environmental variables across temperate to subtropical China

The stoichiometric composition of plant reproductive organs varies with environmental conditions at a large geographical scale, which has potentially important consequences both for plant reproductive success and for the nutrition of consumers. In the study reported here, we investigated variations in the concentrations of macronutrients in acorns of the oriental oak (Quercus variabilis) in relation to environmental variables across a geographic gradient spanning temperate and subtropical latitudes. Across this gradient, nitrogen (N) and calcium (Ca) concentrations of the acorns had higher coefficients of variance (CV 18-23 %) than the other elements (CV 8-14 %). With increasing latitude (LAT), acorn N, potassium (K), and magnesium (Mg) concentrations increased, whereas those of sulfur (S) and Ca and the carbon:nitrogen (C:N) and S:N ratios decreased. The K and Mg concentrations of the acorns were positively correlated with the concentrations of these elements in the soil, whereas N and Ca concentrations were inversely correlated with soil concentrations. The C:N:P (phosphorus) molar ratio of the acorns was 1,008:17:1. A low temperature and short growing season stimulated seeds to accumulate more macronutrient elements in the north to ensure reproductive success, while high soil Ca in the north led plants to allocate less Ca to their acorns. The pattern of variation in acorn stoichiometric traits along LAT may be the result of interacting effects of plant reproduction strategy and environmental factors. Our results can help improve our understanding of the effects of global changes on the chemical compositions of plant reproductive organs and advance our knowledge of global patterns of ecological stoichiometry in reproductive organs.