Ballast! The increase of sandstone uranium resources in northern Sedimentary basin guarantees the demand for nuclear energy development
CCTV News:On July 21, CNNC released the latest achievements in China's uranium exploration, and the resources of sandstone uranium exploration projects in the northern Sedimentary basin increased significantly. The release of this achievement has played a "ballast stone" role in China's development of nuclear power under the "dual carbon" goal...
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Open the gate to release water! 3700 cubic meters of discharge per second! The Sanmenxia Dam opens for pre flood Yellow River water and sediment regulation
Dahe Daily, video reporter of Henan Lu Bin, correspondent Bing Lei, Wang MeixinA thousand miles of water, a waterfall reappears! At 18:00 on July 6, with the accurate opening of the discharge hole of Sanmenxia Dam, a huge "water tap" gushed in an instant, with rough waves and sonic canyons, the Yellow River water and sediment regulation work before the flood season in 2023 was officially started, helping to flush the tail of Xiaolangdi Reservoir and providing follow-up power for the water and sediment regulation of Xiaolangdi Reservoir.On the same day, the Dahe Daily Henan video reporter saw at the flood discharge site that the Yellow River water gushed out along the hole, just like white practice, and the water waves hit the river channel, making a huge roar...
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The sediment load of major rivers in China has decreased by over 2/3 compared to more than 20 years ago
Recently, the Ministry of Water Resources released the 2022 China River Sediment Bulletin. According to the bulletin, the total annual sediment discharge of representative hydrological stations in China's major rivers in 2022 has shown a trend of decreasing in the past 10 years...
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Study on the metabolic potential of six ancient bacterial lineages in deep-sea sediments using MAGs macrogene assembly method
//CR(MAGs)6(Lokiarchaeota, Thorarchaeota, Heimdallarchaeota, Bathyarcheota, ThermoplasmatalesHadesarchaea)31magLokiarchaeotaBathyarchaeotamagCRLokiarchaeotaLokiarchaeotaWood-LjungdahlcomarchaeotaarchaeotaCR31(MAGs)6(Lokiarchaeota, Thorarchaeota, Heimdallarchaeota, Bathyarcheota, ThermoplasmatalesHadesarchaea)LokiarchaeotaBathyarchaeotaMAGsLokiarchaeotaDNAIQ-Tree16(L2L3L4L5L6L14L15L16L18L22L24S3S8S10S17S19)(VT + F + R10) 1000HMMsearchHMMMAGsBlastKoalKEGGUSEARCH-ublastMEROPSbinKEGG,CR Lokiarchaeota(rG)pH81mmCRU1378U1379CR Lokiarchaeota:G0rRCHNOSZ(4C)Qr16S rRNACR5,12616S rRNA(3125%)archaeotaLokiarchaeota531mag11(60%5%)magNCBI (nr)MAG(60-75%)CR_1215%Heimdallarchaeota16MAGs6Lokiarchaeota, Thorarchaeota, Heimdallarchaeota, Bathyarcheota, ThermoplasmatalesHadesarchaeaCRMAGs(ESPs)espCRHeimdallarchaeotaLokiarchaeota MAGs (CR_06, CR_11)ESPsCRarchaeota, HadesarchaeotaThermoplasmata MAGsespMCR(mcrABCDG)CRMCRHMMmag(AssA)(BssA)C-CLokiarchaeota CR_06Lokiarchaeota CR_06BCRBBzd4(BzdONPQ)BCRiCR_06BCR(LokiarchaeotaBathyarchaeotaArchaeoglobus)BCRPQATP/ATP[4Fe-4S]a(ON)aaCR_06BCR4(CR_06-contig-100_3495)CR_06 MAG(= 1110)> 200xCR_ Lokiarchaeota (CR_06)CRAsgardAsgard MAGs(CR_06, 07, 08, 1112)CO2H2OrG '(rG ' = 196.3 [kJ/mol])CR(86%)Lokiarchaetoa():(a)CO2H2O(rG ' =1206...
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