Application of multi-source
data synthetic analysis to Uranium exploration in Northern Hebei and
Langshan area, inner Mongolia Wang Wenjian, Cao Hongjing, Gao Shuhui Airborne Survey and Remote Sensing center China National Nuclear Corporation ShijiaZhuang , China Abstract In this paper, the new discoveries and developments of multi-source data for synthetic geological interpretation are introduced to examine volcanic and sandstone types of uranium deposits in northern Hebei and Langshan area, Inner Mongolia. These multi-source data consist of space remote sensing information, airborne remote sensing and telemeter information and geological information, etc. The geological products obtained from synthetic interpretation and analysis present obvious effect in guiding uranium exploration. For examples, discovering of alternation zones in ore-controlling fault structures and gilding to look for mineral deposits; establishment of image models of volcano-tectonic type and relationship between these models and uranium mineralization; image model of stratabound sandstone type uranium deposit in the basin and are prospecting; synthetic interpretation correcting some misled judgements on fundamental geology, thus expanding the realm of ore prospecting and reducing the ore targets. All above- mentioned are dealt with in this paper. Our center has made a synthetic interpretation for remote sensing geology in northern Hebei and Langshan area which are located in the transitional zone between north China Platform and Inner Mongolia geosyncline in order to make attempt to achieve new progress in exploration for upper Jurassic volcanic type uranium diposit in northern Hebei and Cretaceous sandstone type uranium deposit in Langshan area, Inner Mongolia by synthetic analysis of multi-source data (space remote sensing images, color infrared aerial photographs, airborne side-looking radar images, aerial energy spectrum measurements, aeromagnetic survey, and routine geology, etc. ) In recent years, the practice have shown that the synthetic interpretation have got out standing achievements to guide uranium exploration in two regions above mentioned and the expected purpose has been attained. Several typical examples of synthetic interpretation will be introduced in the following parts. Discovery of alteration zones in ore-controlling fault structures By synthetic interpretation for space and serial remote sensing images the framework of fault structures has been established in northern Hebei. The strikes of these fault structures can be divided into EW, NS, NE, NNE and NW directions in which the EW and NS directional faults are the important discoveries. The EW and NS striking light-colored zones appeared in space remote sensing image, have been mutually proved by synthetic geological interpretation and identified by actual observation. Along the fualt structures, the slight negative landforms are displayed with about 2-3 km in width and are in parallel reappeared with 8-11 km at interval. The scattered material of broken and altered hydromicazed volcanic rock are widespread all over the low foothill, where vegetation is obviously sparse in contrast with the background. The light-colored zones appeared in TM visible light image, the bluish zones in TM 4,5,7 bands false-color composite image, the extremely bright-colored zones in TM (5/7 - 4/3) ratio image, the dark blue zones infrared false color image; and in aerial energy spectrum U, Th and K content images, the linear low field is in agreement with fault structures in position. The linear expanding gradient zones in aerial magnetic image coincide with fault structures for the most part. Aeromagnetic maps continued down to different depth show the faults are inclined to the north and extend to the north and extend to the depth more than 18 km. By synthetic analysis it is known that they are crust-cutting faults formed in accompany with inner Mongolia axis, having long and complex active history and controlling geological and mineral developing history from Lower Proterozoic era to Mesozoic-Cenozoic era. During Lower Proterozoic in the north margin of Inner Mongolia axis they restrict accretion of the platform, to set apart from Inner Mongolia geosyncline with a fault zone. The eruptive zones in volcanic rock extending in EW direction was controlled by late Jurassic epoch to be closed and opened for many times. From late Yanshanian period to Himalayan period, reactivation of EW and NS striking faults and stretching to cover volcanics caused fracturing and hydrothermal alternation in volcanic rock strata, to bring about multiple mineralization of polymetals, precious metals and metallic uranium, therefore, fault structures can be interpreted from images, and become regional structural indications for uranium and gold exploration. Now, lead, zinc, copper, gold and uranium deposits and occurrences discovered almost occur in alternation zones in EW and NS striking fault structures and their vicinity, so it is verified that distribution of end genetic metal minerals coincide with regional EW and NS striking fault structures. Prospecting for uranium and gold deposits arranging in the developed portion of EW and NS striking deep faults by following synthetic interpretation has received primary effect. One uranium prospect, two surface exposed points of uranium and two points of gold mineralization have been discovered. Among them, one gold mineralized structure zone with a length of over 3,000m and a mineralization range of 200m are considered to be promising areas to search for altered rock of gold deposit. The satellite image can clearly reflect altered structure zone, which has been mutually proved by synthetic interpretation and has been confirmed that it is an or-controlling structure. This obvious effect of ore prospecting by remote sensing is certainly is certainly a rare example. Establishment of volcanic appratus type of image model Upper Jurassic volcanic rocks are widely distributed in northern Hebei, in which numerous mineral deposits are located. By synthetic interpretation of remote sensing geology, it has been discovered that the known large type lead-zinc deposit occurs in central edifice at the intersection of EW and NS deep faults. A large type type of uranium-molybdenum deposit and several occurrences are related with volcanic apparatus compounded with deep faulting, and mineralization is present in sub volcanic rock body and contact zone controlled by volcanic apparatus. Therefore, they will cause great interest in remote sensing geological interpretation, if in the interpretation of volcanic apparatus, a great attention is paid to the difference between types, and their spatial and genetic relation with mineral deposits. A perfectly developed volcanic appratus is a volcanic appratus regularly consisting of multiple structural elements as a whole. Because of different modes of volcanism, Corresponding characteristic types of volcanic appratus are produced, providing marks for the interpretation of remote sensing image. Many circular patterns are interpretated by carefully contrasting and analysing and based on similarity of image structure feature, five types of image models of volcanic appratus have been established and determined by field verification.
For many years practices to search for minerals have shown that uranium deposits are principally present in Upper Jurassic acidic volcanic rocks, and gold deposits in Archaean metamorphic rocks and igneous rocks at content Zone. The synthetic geological interpretation has corrected some mistakes in geological strata (bodies) and litho logical units, thus expanding ore prospecting field and clearly defining the geological strata (bodies and litho logical targets to search for minerals. In the initial stage of analyzing information, the sub volcanic rock bodies distributed over large areas on original geological map have been doubted. If the sub volcanic rock bodies in the original geological map were the intrusive rocks of the name, they would certainly be the plutonic intrusive rock fancies, but not the sub volcanic faces. So the conclusion would be that the deeply denuded volcanic rock strata are not good for prospecting potential. We have undertaken a synthetic interpretation with this important problem. From image shadow stripe structure, tone, U, Th, K contents and magnetic fields features, it can be seen that the primary sub volcanic rock bodies agree with homo-compositional volcanic lava of background and both are undistigusgh able. By the experience from interpreting similar geological environments, it is contrarily evidenced that among those intrusive rocks with same compositions but at different stages and phases and among those background volcanic lava, they can be distinguished, because of the difference of structure or apparatus in different circumstances. Conversely the products of common constituent in same circumstances are undistinguishable. Through prompting of synthetic interpretation, theoretical analysis on the occurrence and origin of rock bodies and field examination, it has been confirmed that the original Subquartz porphyry actually is the acid mortar lava, so the two problems in searching for minerals have been solved : It has been proved that the volcanic rock strata were denuded only superficially, so it is still good for prospecting potential; The acid mortar lava is the ideal objective stratum for uranium prospecting, since there is a relatively high abundance of uranium content; the former examples forming large ore field have been encountered in this of strata . In recent years many altered structure zones, with 1/10000 uranium content, have been discovered in this stratum, so the economic ore deposit is very hopefully to be looked for. The most part of the known uranium deposits, prospects and mineralized points concentrated in the three-lithologic segment (rhyotaxitic volcanic rock) of Upper Jurassic Zhangjiakou Formation and two-lithologic segment (trachyte) in the contact zone. These two segments are the favorable mineralized location combining stratum structure and lithology. Because the cover seriously influences correct delimitation of stratigraphic units, a considerable part of three lithologic segment has been mistaken as ore-litho logic segment. Based on magnetic field feature and actual examination to denysubtrachyte, the synthetic interpretation has corrected misconception for original stratigraphic units. The causes for misconception are that the fold and fault caused the replication of strata, and vague cover structure on the surface. Image model of strata bound standstone uranium deposit By synthetic interpretation of multi-source data dominated by satellite imagery and analysis on geological setting of occurring the sandstone uranium deposits in Langshan area, Inner Mongolia, some geological information closely related with uranium deposits have been extracted, a new recognition has been generalized that mineralization is controlled by the tonal anomaly, arcuate, ring and linear image model (four-in-one image model). The limitation of former study has been broken through and better result of ore prospecting is obtained.
Conclusion Synthetic interpretation is a direction of development in remote sensing geology. Single remote sensing means can only solve some aspects of geological problem, but by using the multichannel function of synthetic remote telemetering, could the success of our center in the guide for uranium and gold exploration is that in remote sensing geological interpretation we have adopted the space and aerial remote sensing methods, used MSS, TM sensor multi-band information sources, infrared pseudo-color, side-looking radar image as well as aerial energy spectrum survey of lithologic U, Th and K contents, aeromagnetic survey by different lithologic magnetic permeability etc. The synthetic geological interpretation in northern Hebei and Langshan area, Inner Mongolia have reached expected purpose obtained good effects. Several EW and NS directional altered structure zones are interpreted and examined, thus achieving more through understanding. They are confirmed to be ore-controlling structural zones of polymetals, precious metals and metallic uranium; identifying the existence of considerable volcanic appratuses and dividing their types, establishing corresponding image models, pointing out their spatial association with mineral resources; establishing image model of strata bound uranium deposit in the basin effectively guiding the exploration of sandstone uranium deposit in the basin; setting up fault structure framework of this coverage area, correcting some misconception to geological strats or bodies expanding the field for ore prospecting, clearly defining the prospecting targets; some deeply understanding metallogenetic geological conditions in working areas, presenting some potential areas and segments for uranium deposits have preliminarily effected ,and will produce a marked effect continually. |