Ionome of Lithuanian Populations of Purple Loosestrife (Lythrum salicaria) and Its Relation to Genetic Diversity and Environmental Variables

Fifteen riparian populations of Lithuanian Lythrum salicaria were assessed for leaf macronutrient, micronutrient and non-essential element concentrations and compared to the former obtained molecular data at amplified fragment length polymorphism (PLP.AFLP) loci. Inductively coupled plasma mass spectrometry was used to profile the contents of 12 elements in the leaves. The leaf nutrient concentrations were within normal ranges for growth and development and heavy metal concentrations did not reach toxic levels. The concentrations of macroelements such as nitrogen, potassium, calcium and magnesium were in the range of 23,790-38,183; 7327-11,732; 7018-12,306; and 1377-3183 mu g/g dry mass (d. m.), respectively; the concentrations of micronutrients such as sodium, iron, zinc and copper varied in the ranges of 536-6328; 24.7-167.1; 10.88-26.24; and 3.72-5.30 mu g/g d. m., respectively, and the concentrations of non-essential elements such as lead, nickel, chromium, and cadmium were in the intervals of 0.136-0.940; 0.353-0.783; 0.207-0.467; and 0.012-0.028 mu g/g d. m., respectively. When comparing the maximum and minimum values for site elements of L. salicaria, the concentration of N varied by 1.6, K-1.6, Ca-1.8, Mg-2.3, Na-6.1, Fe-6.8, Zn-2.4, Cu-1.5, Pb-6.9, Ni-2.2, Cr-2.2, and Cd-2.3 times. The coefficient of variation (CV) of element concentrations in sites was moderate to large: N-15.4%, K-14.3%, Ca-18.6%, Mg-24.8%, Na-50.7%, Fe-47.0%, Zn-24.9%, Cu-14.5%, Pb-57.1%, Ni-30.11%, Cr-26.0%, and Cd-38.6%. Lythrum salicaria populations growing near regulated riverbeds were characterized by significantly (p < 0.05) lower concentrations of Ca and Mg, and significantly (p < 0.05) higher concentrations of N, K, Fe, Na, Ni, Cr and Cd. The PLP.AFLP was negatively correlated with concentrations of N, Na, Fe, Ni, Cr, and Cd. The L. salicaria population with the lowest leaf N and Na concentration showed the highest genetic polymorphism (PLP.AFLP = 65.4%), while the least polymorphic population (PLP.AFLP = 35.0%) did not show extreme concentrations of either element. In conclusion, our elemental analysis of L. salicaria populations showed that ionomic parameters are related to genomic parameters, and some habitat differences are reflected in the ionomes of the populations.