Popović-Djordjević Jelena, Marjanović Žaklina S, Gršić Nemanja, Adžić Tamara, Popović Blaženka, Bogosavljević Jelena, Brčeski Ilija
University of Belgrade, Faculty of Agriculture, Chair of Chemistry and Biochemistry, Nemanjina 6, 11080, Belgrade, Serbia.
University of Belgrade, Institute for Multidisciplinary Research, Kneza Višeslava 1, 11030, Belgrade, Serbia.
Chem Biodivers. 2019 Apr;16(4):e1800693. doi: 10.1002/cbdv.201800693. Epub 2019 Mar 25.
True truffles (Tuber sp.) that establish ectomycorrhizal symbiosis (ECM) with trees in the Mediterranean and temporal regions have species specific abilities to assimilate soil born elements. Suitable habitats are usually inhabited by few truffle species, while distinguishing their symbiotic potentials appeared very difficult. Two species that commonly inhabit riparian forests in Serbia are the most prized one, Tuber magnatum Pico (Piedmont white truffle) and not so highly valued Tuber brumale Vitt. In order to assess potential differences between their assimilation and accumulation abilities, the differences between contents of elements that may be the subjects of the symbiotic trade between the host plant and fungi were evaluated in accumulation target (ascocarps) and their source (the soil). Essential (K, Na, Ca, Mg, Fe, P, S, and Zn) and essential trace elements (Co, Cr, Cu, Mn, and Se) in truffles and soil samples were determined by means of inductively coupled plasma with optical emission spectrometry (ICP-OES). Their concentrations (mg/kg) in ascocarps were in the range from 1.364±0.591 (Cr) to 10760.862±16.058 (K), while in soil ranged from 23.035±0.010 (Cr) to 20809.300±122.934 (Fe). Element accumulation potential (bioaccumulation factor) was calculated in the system truffle/soil. The statistical approaches were used for establishing the differences, while the possible differentiation between symbiotic potentials of two mycelia in the defined soil conditions was discussed.
在地中海地区和温带地区与树木建立外生菌根共生关系(ECM)的真正块菌(块菌属)具有吸收土壤中元素的物种特异性能力。适宜的栖息地通常只有少数几种块菌,而区分它们的共生潜力似乎非常困难。塞尔维亚河岸森林中常见的两种块菌是最珍贵的意大利白块菌(Tuber magnatum Pico)和价值不那么高的冬块菌(Tuber brumale Vitt.)。为了评估它们在吸收和积累能力上的潜在差异,对宿主植物和真菌之间可能进行共生交换的元素在积累目标物(子囊果)及其来源(土壤)中的含量差异进行了评估。通过电感耦合等离子体发射光谱法(ICP-OES)测定了块菌和土壤样品中的必需元素(钾、钠、钙、镁、铁、磷、硫和锌)和必需微量元素(钴、铬、铜、锰和硒)。它们在子囊果中的浓度(mg/kg)范围为1.364±0.591(铬)至10760.862±16.058(钾),而在土壤中的范围为23.035±0.010(铬)至20809.300±122.934(铁)。在块菌/土壤系统中计算了元素积累潜力(生物积累因子)。采用统计方法来确定差异,并讨论了在特定土壤条件下两种菌丝体共生潜力的可能差异。
