INRA, UMR1402 ECOSYS, F-78026 Versailles, France; Laboratoire Ecologie, Systématique et Evolution, UMR8079, Univ. Paris-Sud/CNRS/AgroParisTech, Université Paris-Sud, F-91405 Orsay, France.
INRA, UMR1402 ECOSYS, F-78026 Versailles, France; AgroParisTech, UMR1402 ECOSYS, F-78026 Versailles cedex, France.
Chemosphere. 2015 Jun;128:332-40. doi: 10.1016/j.chemosphere.2015.02.008. Epub 2015 Mar 6.
The impact of a crude extract of Microcystis aeruginosa (PCC7820) containing 14 microcystin variants was investigated on seeds germination and radicles development of four agricultural plants: two tomato varieties Solanum lycopersicum (MicroTom and Saint-Pierre), the wheat Triticum aestivum and the lettuce Lactuca sativa. In addition, the effect of 14 d-exposure to irrigation water containing realistic concentrations of microcystins (0-0.1 mg eq. microcystin-LRL(-1)) on the tomato MicroTom seedling growth was further evaluated on roots and aerial part biomasses. Impacts on soil bacterial parameters, as such extracellular enzymatic activities, nitrification activity and abundances of ammonia-oxidizing microorganisms were also investigated. In germination-test, the cyanobacterial extract inhibited only the germination of the wheat seeds, with an EC50 of 11 mg eq. microcystin-LRL(-1); which is 13 times lower than that of the cadmium chloride (EC50 of 145 mg L(-1)). Moreover, the cyanobacterial extract containing low concentrations of microcystins increased the growth of primary roots; however, high concentrations decreased it for all plants except for the wheat. In the soil-plant approach, only aerial part biomass of the tomato MicroTom was enhanced significantly. In addition, only soil nitrification potential and ammonia-oxidizing bacterial abundances were consistently impacted. A significant positive correlation (r=0.56) was found between the increase of nitrification potential and abundances of ammonia-oxidizing bacteria. This work suggested, that exposure to a cyanobacterial extract containing realistic environmental microcystins concentrations could affect seed germination, depending plant species. It was also highlighted, for the first time, disturbances in soil bacteria functioning, evidences on soil nitrification process.
微囊藻(PCC7820)粗提物对四种农作物种子萌发和幼根发育的影响,该粗提物含有 14 种微囊藻毒素变体。研究了四种农作物:两个番茄品种(MicroTom 和 Saint-Pierre)、小麦(Triticum aestivum)和生菜(Lactuca sativa)。此外,还进一步评估了在含有实际浓度微囊藻毒素(0-0.1mg eq. microcystin-LRL(-1))的灌溉水中暴露 14 天对番茄 MicroTom 幼苗生长的根系和地上部分生物量的影响。还研究了对土壤细菌参数的影响,如细胞外酶活性、硝化活性和氨氧化微生物的丰度。在萌发试验中,蓝藻提取物仅抑制了小麦种子的萌发,其 EC50 为 11mg eq. microcystin-LRL(-1);这比氯化镉(EC50 为 145mg L(-1))低 13 倍。此外,含有低浓度微囊藻毒素的蓝藻提取物增加了主根的生长;然而,高浓度除了小麦外,对所有植物的主根生长都有抑制作用。在土壤-植物方法中,只有番茄 MicroTom 的地上部分生物量显著增加。此外,只有土壤硝化潜力和氨氧化细菌的丰度受到持续影响。硝化潜力的增加与氨氧化细菌的丰度之间存在显著的正相关(r=0.56)。这项工作表明,暴露于含有实际环境微囊藻毒素浓度的蓝藻提取物可能会影响种子的萌发,具体取决于植物种类。这也是首次强调了土壤细菌功能的干扰,为土壤硝化过程提供了证据。
