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![Geological map of the Sakya dome. +—granite intrusion; ×—pegmatite swarm. Solid line delineates margins of discrete porphyritic plutons, and anastomosing nature of anastomosing, equigranular leucogranites is indicated by absence of bounding line. TSS—Tethyan Sedimentary Series.]()
![La/Yb versus Y plot of Sakya dome granites. Anastomosing, equigranular granites (AEG)—■, Discrete, porphyritic plutons (DPP)—○. Data are from Table 1 and Zhang et al. (2004).]()
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![Figure 4. Band ratio images of key locations indicated in Figure 3: (A) Kangmar dome, (B) Kampa dome, (C) Sakya dome, (D) (from left to right) Mabja, Gomdre, and Kouwu granites, (E) Lhagoi Kangri dome, (F) Nakok granite, (G) Tingri dome.]()
![Chondrite-normalized plot for rare earth element compositions for granites intruding the Sakya dome. Dashed lines indicate anastomosing, equigranular leucogranites; solid lines indicate discrete porphyritic plutons. Data are from Table 1 and Zhang et al. (2004).]()
![Figure 2. Geological sketch map of study area from published sources. Geological boundaries taken from Chinese geological maps (Zengqian et al., 1986), with modifications from Burg et al. (1984) and Lee et al. (2000, 2004). The South Tibetan detachment system is labeled as STDS. Note that only western region of the core of the Sakya dome has been mapped in any detail (Lee et al., 2004).]()
![(A) Deformation temperature versus depth profiles calculated from microstructure and quartz opening angle thermometry for the Lhagoi Kangri dome (LKD, blue bars and dots; this study), the Kangmar dome (KD, dark gray; after Wagner et al., 2010), the Mabja-Sakya dome (MD, light gray; after Langille et al., 2010), and the Dzakaa Chu transect (DC, pink; after Cottle et al., 2011). Dotted lines correspond to calculated deformation temperature gradients (color of line corresponds with data set color). Minimum and maximum gradients are shown for LKD as discussed in text. The black dashed line denotes a linear best fit to the LKD opening angles. Data for Kangmar, Mabja-Sakya, and Dzakaa Chu are simplified from the listed references, and a plot with original data can be viewed in Figure DR3. TSS—Tethyan sedimentary sequence; GHS—Greater Himalayan sequence. (B) Deformation temperatures and field gradients reported by Law et al. (2011) for three transects in the Rongbuk valley calculated from [c] axis fabric opening angle temperatures, shown without ±50 °C error bars to improve clarity. HG—Hermits Gorge; RM—Rongbuk Monastery; NT—Northern transect. Adapted from Law et al. (2011). (C) Deformation temperature transects along the South Tibetan detachment system at Ra Chu and Gondasampa (red and green, respectively; Jessup and Cottle, 2010).]()
![Top-to-north shear band development in the Tethyan Sedimentary Series above the contact with the Kuday granite (anastomosing, equigranular leucogranites) from northern Sakya dome: (A) View toward west on the west side of the Kuday gorge with (B) annotated overlay. S2 (white dashed ornament) is main foliation; black dashed lines indicate C-surfaces of S3 shear bands. (C) View toward east on the east side of the Kuday gorge with (D) annotated overlay (ornaments as in B). (E) Plane-polarized light and (F) cross-polarized photomicrograph of top-to-north shear bands (S3) deflecting main foliation (S2) at microstructural scale in pre-D3 deformational (M1) garnet mica schists. Garnet porphyroblast size is 1–5 mm.]()
![Contact relationships between Tethyan Sedimentary Series and Kuday granite (anastomosing, equigranular leucogranites) from northern Sakya dome, seen from east side of the Kuday gorge. (A) Anastomosing, equigranular granites (AEG) intruding orthogneiss; view is looking north from sample site JK3/05. (B) Same relationship as A, in detail with annotated sketch showing the complex timing relationships among anastomosing, equigranular leucogranites, foliated anastomosing, equigranular leucogranites, Kuday orthogneiss, restite, and anastomosing, equigranular leucogranite pegmatites 1 and 2, from same sample site JK3/05. (C) View looking west, north of contact, and (D) overlay showing granite (anastomosing, equigranular leucogranites) dike distribution (indicated by crosses). The Miocene dacitic dikes (King et al., 2007) are indicated by irregular black lines. Distance from contact of lower granite to top of section is 50 m.]()
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1-18 OF 18 RESULTS FOR
Sakya Dome
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Image
Geological map of the Sakya dome. +—granite intrusion; ×—pegmatite swarm. S... Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
Figure 2. Geological map of the Sakya dome. +—granite intrusion; ×—pegmatite swarm. Solid line delineates margins of discrete porphyritic plutons, and anastomosing nature of anastomosing, equigranular leucogranites is indicated by absence of bounding line. TSS—Tethyan Sedimentary Series.
Image
La/Yb versus Y plot of Sakya dome granites. Anastomosing, equigranular gran... Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
Figure 9. La/Yb versus Y plot of Sakya dome granites. Anastomosing, equigranular granites (AEG)—■, Discrete, porphyritic plutons (DPP)—○. Data are from Table 1 and Zhang et al. (2004) .
Image
U-Pb AGE SUMMARY DATA FOR THE SAKYA DOME GRANITES Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
TABLE 2. U-Pb AGE SUMMARY DATA FOR THE SAKYA DOME GRANITES
Image
Ar-Ar COOLING AGES FOR THE NORTH HIMALAYAN GRANITES OF THE SAKYA DOME Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
TABLE 3. Ar-Ar COOLING AGES FOR THE NORTH HIMALAYAN GRANITES OF THE SAKYA DOME
Journal Article
Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet Available to Purchase
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 01 January 2011
GSA Bulletin (2011) 123 (1-2): 218–239.
...Figure 2. Geological map of the Sakya dome. +—granite intrusion; ×—pegmatite swarm. Solid line delineates margins of discrete porphyritic plutons, and anastomosing nature of anastomosing, equigranular leucogranites is indicated by absence of bounding line. TSS—Tethyan Sedimentary Series. ...
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Journal Article
Origin of the Miocene Adakitic Rocks and Implication for Tectonic Transition in the Himalayan Orogen: Constraints from Kuday Granitoid Porphyry in Southern Tibet Open Access
Journal: Lithosphere
Publisher: GSW
Published: 24 February 2022
Lithosphere (2022) 2022 (1): 8061474.
... Himalayan Sequence near the Sakya Dome of southern Tibet. The Kuday dikes are granitoid porphyries with zircon U-Pb ages of ca. 11 Ma. The Kuday granitoid porphyry dikes have high SiO 2 (63.01–68.41 wt.%) and Al 2 O 3 (17.31–19.87 wt.%) but low Mg (0.88–1.41 wt.%), Mg# (36–50), Ni (2.8–19.3 ppm), and Cr...
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Includes: Supplemental Content
Image
Figure 4. Band ratio images of key locations indicated in Figure 3 : (A) K... Available to Purchase
in Mapping granite and gneiss in domes along the North Himalayan antiform with ASTER SWIR band ratios
> GSA Bulletin
Published: 01 July 2005
Figure 4. Band ratio images of key locations indicated in Figure 3 : (A) Kangmar dome, (B) Kampa dome, (C) Sakya dome, (D) (from left to right) Mabja, Gomdre, and Kouwu granites, (E) Lhagoi Kangri dome, (F) Nakok granite, (G) Tingri dome.
Image
Chondrite-normalized plot for rare earth element compositions for granites ... Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
Figure 8. Chondrite-normalized plot for rare earth element compositions for granites intruding the Sakya dome. Dashed lines indicate anastomosing, equigranular leucogranites; solid lines indicate discrete porphyritic plutons. Data are from Table 1 and Zhang et al. (2004) .
Image
Figure 2. Geological sketch map of study area from published sources. Geolo... Available to Purchase
in Mapping granite and gneiss in domes along the North Himalayan antiform with ASTER SWIR band ratios
> GSA Bulletin
Published: 01 July 2005
that only western region of the core of the Sakya dome has been mapped in any detail ( Lee et al., 2004 ).
Image
![(A) Deformation temperature versus depth profiles calculated from microstructure and quartz opening angle thermometry for the Lhagoi Kangri dome (LKD, blue bars and dots; this study), the Kangmar dome (KD, dark gray; after Wagner et al., 2010), the Mabja-Sakya dome (MD, light gray; after Langille et al., 2010), and the Dzakaa Chu transect (DC, pink; after Cottle et al., 2011). Dotted lines correspond to calculated deformation temperature gradients (color of line corresponds with data set color). Minimum and maximum gradients are shown for LKD as discussed in text. The black dashed line denotes a linear best fit to the LKD opening angles. Data for Kangmar, Mabja-Sakya, and Dzakaa Chu are simplified from the listed references, and a plot with original data can be viewed in Figure DR3. TSS—Tethyan sedimentary sequence; GHS—Greater Himalayan sequence. (B) Deformation temperatures and field gradients reported by Law et al. (2011) for three transects in the Rongbuk valley calculated from [c] axis fabric opening angle temperatures, shown without ±50 °C error bars to improve clarity. HG—Hermits Gorge; RM—Rongbuk Monastery; NT—Northern transect. Adapted from Law et al. (2011). (C) Deformation temperature transects along the South Tibetan detachment system at Ra Chu and Gondasampa (red and green, respectively; Jessup and Cottle, 2010).](https://gsw.silverchair-cdn.com/gsw/Content_public/Journal/lithosphere/8/5/10.1130_L506.1/2/s_480f16.jpeg?Expires=2147483647&Signature=3tNvZ2sCBVr0Lt0S6KicEkDr2r53wADQg8lLVczddrWSzZ5C34nJX2h-Wv4Ml64jOk~111rglmiqfYJD3HF-x0ZTt3OmTz2TGt5FnmhoUZ9E2r3rhJB15A-lpPuL2GvqLkSyfj5hUEPU1dhhG7p2sxgAZ267XW-0TRVFVQIUyJC1pXjouRkCYp5KaYdOY7EVaI1NP9YQz-MGT4wMHh8rUZ6WwDQeCuLJbggKdHADNhuzIlozIk1yAMC7eck9Pl30yNJGf1grWC5CRzm3CSOry0KvCz9Mkl5pufowD5Ie2CvPWF5SWS-GKqMj0vMenBAyffL5pux7xqzdcWf8jIbyJQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
(A) Deformation temperature versus depth profiles calculated from microstru... Open Access
in Tectonic evolution of the middle crust in southern Tibet from structural and kinematic studies in the Lhagoi Kangri gneiss dome
> Lithosphere
Published: 01 October 2016
Figure 16. (A) Deformation temperature versus depth profiles calculated from microstructure and quartz opening angle thermometry for the Lhagoi Kangri dome (LKD, blue bars and dots; this study), the Kangmar dome (KD, dark gray; after Wagner et al., 2010 ), the Mabja-Sakya dome (MD, light gray
Image
Top-to-north shear band development in the Tethyan Sedimentary Series above... Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
Figure 6. Top-to-north shear band development in the Tethyan Sedimentary Series above the contact with the Kuday granite (anastomosing, equigranular leucogranites) from northern Sakya dome: (A) View toward west on the west side of the Kuday gorge with (B) annotated overlay. S 2 (white dashed
Image
Contact relationships between Tethyan Sedimentary Series and Kuday granite ... Available to Purchase
in Contribution of crustal anatexis to the tectonic evolution of Indian crust beneath southern Tibet
> GSA Bulletin
Published: 01 January 2011
Figure 4. Contact relationships between Tethyan Sedimentary Series and Kuday granite (anastomosing, equigranular leucogranites) from northern Sakya dome, seen from east side of the Kuday gorge. (A) Anastomosing, equigranular granites (AEG) intruding orthogneiss; view is looking north from sample
Journal Article
Mapping granite and gneiss in domes along the North Himalayan antiform with ASTER SWIR band ratios Available to Purchase
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 01 July 2005
GSA Bulletin (2005) 117 (7-8): 879–886.
...Figure 4. Band ratio images of key locations indicated in Figure 3 : (A) Kangmar dome, (B) Kampa dome, (C) Sakya dome, (D) (from left to right) Mabja, Gomdre, and Kouwu granites, (E) Lhagoi Kangri dome, (F) Nakok granite, (G) Tingri dome. ...
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Book Chapter
Gneiss Dome Formation in the Himalaya and southern Tibet Available to Purchase
Series: Geological Society, London, Special Publications
Publisher: The Geological Society of London
Published: 08 October 2019
DOI: 10.1144/SP483.15
EISBN: 9781786204523
... dome ( Aoya et al. 2006 ). In contrast, low- to medium-grade rocks in the Mabja–Sakya dome record a roughly equal contribution of top-to-the-S and top-to-the-N shear sense, while high-grade rocks record only a top-to-the-S shear sense ( Lee et al. 2004 ). For the Kampa dome, Quigley et al. (2008...
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Journal Article
Tectonic evolution of the middle crust in southern Tibet from structural and kinematic studies in the Lhagoi Kangri gneiss dome Open Access
Journal: Lithosphere
Publisher: GSW
Published: 01 October 2016
Lithosphere (2016) 8 (5): 480–504.
...Figure 16. (A) Deformation temperature versus depth profiles calculated from microstructure and quartz opening angle thermometry for the Lhagoi Kangri dome (LKD, blue bars and dots; this study), the Kangmar dome (KD, dark gray; after Wagner et al., 2010 ), the Mabja-Sakya dome (MD, light gray...
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Journal Article
First field evidence of southward ductile flow of Asian crust beneath southern Tibet Available to Purchase
Journal: Geology
Publisher: Geological Society of America
Published: 01 August 2007
Geology (2007) 35 (8): 727–730.
... is the apparent absence of material derived from Asian lithosphere within the High Himalayan Series (Indian plate) that could represent the putative channel. A north-south–trending mid-Miocene dike swarm that intrudes the Tethyan sedimentary cover of the Sakya gneiss dome (Indian plate) yields new Sr-Nd isotopic...
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Journal Article
Eocene thickening without extra heat in a collisional orogenic belt: A record from Eocene metamorphism in mafic dike swarms within the Tethyan Himalaya, southern Tibet Available to Purchase
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 08 August 2021
GSA Bulletin (2022) 134 (5-6): 1217–1230.
... ; Khanal et al., 2020 ). The North Himalayan gneiss domes include the Malashan, Lhagai Kangri, Mabja, Sakya, Kangmar, Ramba, and Yardoi gneiss domes within the Tethyan Himalayan Sequence, south of the Indus-Yarlung suture zone and north of the South Tibetan detachment system ( Fig. 1A ). For each...
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Journal Article
Formation of Eocene–Miocene felsic magmatic rocks along N-S–trending Yardoi-Kongbugang mountain ranges in the eastern Himalaya: New insights into surface uplift and the initiation of E-W extension in southern Tibet Available to Purchase
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 24 March 2023
GSA Bulletin (2024) 136 (1-2): 433–446.
... isothermal decompression that was closely related to midcrustal anatexis and generation of leucogranites. This period also recorded intense heating of the crust and exhumation of deep-seated rocks. The occurrences of dacitic, adakitic, and ultrapotassic dikes in the Dala area (16–14 Ma), Sakya dome (12–9 Ma...
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