1·Metallogenic fluid stemmed from magmatic water and mixed with seawater.
成矿流体来源于岩浆水,并有海水混入。
2·The other is mixture of Mesozoic meteoric water and initial magmatic water.
另一类为中生代大气降水与原始岩浆水的混合。
3·The isotopic composition of oxygen shows that the origin of the ore forming solution was turn from magmatic water in early stage to circulated meteoric water in later stage.
通过氧同位素研究证明了成矿溶液的来源由早期岩浆水转变为晚期大气降水;
4·The mineralization temperature is in a range of 90 ~ 300, and the mineralization fluid is a combination of slightly acidic - slightly alkalic precipitations, seawater and magmatic water.
其成矿温度在90 ~ 300之间,成矿流体为低盐度的弱酸性弱堿性大气降水、海水和岩浆水的混合溶液。
5·The fluid inclusion compositions of the samples from Bunan gold mine show that the ore-forming fluid is the mixture of magmatic water containing mantle fluid partially and meteoric water.
金岭金矿埠南矿区成矿流体成分特征显示流体为有幔源流体参与的岩浆水与大气水的混合流体。
6·Sulfur isotope studies demonstrate that sulfur was derived from the mantle, and oxygen isotope analyses reveal that the fluid of the deposit was a mixed source of magmatic water and atmospheric water.
同位素研究表明,矿层中硫来源于地幔,而氧同位素则显示其成矿过程有大气降水的参与。
7·Hydrogen and oxygen isotopic composition of the fluid inclusion in quartz indicates that the water in ore-forming fluid was derived meanly from mixture water of meteoric and magmatic.
石英流体包裹体氢氧同位素组成表明,成矿流体中的水主要来源于大气降水和岩浆水的混合。
8·The formation, distribution and fault structure of underground thermal water has a close relationship with the Mesozoic granitic magmatic activity.
地下热水的形成和分布与断裂构造及中生代花岗质岩浆活动具有密切关系。