Keywords: فلات تبت; Hydropower; Water utilization; Greenhouse gas reduction; Tibet;
مقالات ISI فلات تبت (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: فلات تبت; Ridge subduction; Slab rollback; Adakite; Tibet; Driving force;
Keywords: فلات تبت; continental subduction; analogue model; mantle drag; slab pull; far field forces; Tibet;
Keywords: فلات تبت; Tibet; Niche model; Forager; Karuo; Zongri;
Keywords: فلات تبت; Access; Extra-legal; Global value chain; Sustainability; Himalaya; Tibet;
Keywords: فلات تبت; Pamir; Tibet; Karakoram; delamination; high-flux; Qiangtang;
Keywords: فلات تبت; Atmospheric pollution; Coal combustion; Heavy metals; Fossil fuel; Tibet; Ice core;
Keywords: فلات تبت; Soil erosion; RUSLE; Tibet; Factor downscale; Digital soil mapping;
Keywords: فلات تبت; Tibet; Selong; Conodonts; Permian-Triassic boundary; End-Permian extinction;
Keywords: فلات تبت; Growth of continental crust; Paleocene-Eocene; Indian-Asian collision; Gangdese; Tibet;
Keywords: فلات تبت; Mid-crustal layer; Crustal deformation; Continental subduction; Tibet;
Keywords: فلات تبت; Himalaya; Tibet; Eastern Himalayan syntaxis; Extrusion tectonics; Crustal flow; Thrust tectonics;
Keywords: فلات تبت; Middle-Late Triassic magmatism; Neo-Tethyan ocean; Tethyan Himalaya; Tibet;
Keywords: فلات تبت; Tibet; North Lhasa terrane; Detrital zircon dating; Petrogenesis; Rift; Early Neoproterozoic;
Keywords: فلات تبت; Chromian spinel (Cr-spinel); Chromitites; Platinum-group elements (PGE); Platinum-group minerals (PGM); Re-Os isotopes; Tibet;
Keywords: فلات تبت; Tibet; North Lhasa terrane; Rodinia; Back-arc; Petrogenesis;
Keywords: فلات تبت; Tibet; North Lhasa terrane; Paleogeography; Geochemistry and isotope; Petrogenesis;
Keywords: فلات تبت; Tibet; Volatile organic compounds; Tracers; Sources; Regional transport;
Keywords: فلات تبت; Tibet; Peraluminous magmatic rocks; Sediment recycling; In-situ B isotope; Tourmalines;
Keywords: فلات تبت; Fault growth; Lithosphere-scale; Kunlun fault; Numerical modeling; Tibet;
Keywords: فلات تبت; Gangrinboche conglomerates; U-Pb age; Provenance analysis; Yarlung Tsangpo River; Tibet;
Keywords: فلات تبت; PETM; Tibet; Bulk carbonate; CIE profile; CIE magnitude;
Keywords: فلات تبت; Moho; Gravity; Crust; Tibet;
Keywords: فلات تبت; Plant evolution; ITCZ; Eocene; Oligocene; Climate; Tibet;
Keywords: فلات تبت; Early Cretaceous magmatism; Thickened lithosphere; Lhasa-Qiangtang syn-collision; Lhasa terrane; Tibet;
Keywords: فلات تبت; Porphyry Mo deposit; Ore control; Collision; Exploration targeting; Gangdese; Tibet;
Keywords: فلات تبت; Hypertension; Knowledge; Prevalence; Agricultural areas; Tibet
Keywords: فلات تبت; Ecological compensation; Habitat equivalency analysis; Carbon sequestration; Grassland rehabilitation; Tibet;
Keywords: فلات تبت; Ecological engineering; Reservoir wetland; Preference; Compensation; Tibet;
Keywords: فلات تبت; Chiru; Chang Tang; Conservation; Hunting; Risk; Tibet;
Keywords: فلات تبت; Fluid inclusions; Ar–Ar dating; Cenozoic orogenic gold deposit; Continental collision; Bangbu gold deposit; Tibet
Keywords: فلات تبت; Arc magmatism; Zircon U–Pb–Hf isotopes; Flat or low-angle subduction; Central Lhasa subterrane; Tibet
Keywords: فلات تبت; Zircon U–Pb ages; Titanites; Amphibolites; Luobusa; Yarlung-Zangbo Suture Zone; Tibet
Keywords: فلات تبت; Petrogenesis; Magma oxidation state; Zircon trace elements; Porphyry deposit; Tibet
Keywords: فلات تبت; Geology; Geochronology; Porphyry Cu–polymetallic system; Gangdese Metallogenic Belt; Tibet
Keywords: فلات تبت; Oxygen fugacity; Water content; Post-collision porphyry deposit; Dabu; Tibet;
Keywords: فلات تبت; Small hydropower; Emergy analysis; Environmental sustainability; Tibet;
Keywords: فلات تبت; Chrome spinel; Neotethyan Ocean; India-Eurasia collision; Tibet; India; Suture zone; Ophiolites; Arc;
Keywords: فلات تبت; Continental collision; India-Asia collision chronology; Himalayan Orogeny; Indus-Yarlung suture zone; Ophiolite obduction; Paleogeography of eastern Tethys; Paleocene; Tibet;
Keywords: فلات تبت; Delivery care; Ethnic minority populations; Facility delivery; Health facility; Tibet;
Keywords: فلات تبت; Hoh-Xil-Songpan-Ganzi complex; Tibet; Kunlun arc; Yidun arc; Granitoids; Paleo-Tethys; Rollback;
Keywords: فلات تبت; Raising geese in cornfields; Conventional corn planting; Emergy analysis method; Sustainability; Tibet
Keywords: فلات تبت; Ecological loss; Installed capacity; Tibet; Hydropower development;
Keywords: فلات تبت; Carbon-related behavior; Embodied carbon; Large hydropower project; Tibet;
Keywords: فلات تبت; Himalaya; Tibet; Sinicuon; Canidae; Pliocene–Pleistocene; Zoogeography
Keywords: فلات تبت; Tibet; low-velocity zone; crustal flow; Rayleigh wave; receiver function; joint inversion;
Keywords: فلات تبت; Karakoram fault; Quaternary; fault evolution; Tibet; strike-slip; neotectonics;
Keywords: فلات تبت; Trace elements; Wet deposition; Seasonal variations; Lhasa; Tibet;
Keywords: فلات تبت; Legitimacy; Legality; Exile; Governance; Western Sahara; Tibet;
Keywords: فلات تبت; H–k stacking of receiver function; Lower crustal delamination; Mantle upwelling; Tectonics; Tibet