Your search keyword '"Qianyong Liang"' showing total 29 results

1. Multibeam water column image super-resolution by combining morphological and intensity features

Author

Jianbing Chen, Ziyin Wu, Ruifu Wang, Mingwei Wang, Qianyong Liang, Chao Qi, and Fanlin Yang

Subjects

Underwater acoustic remote sensing, multibeam systems, water column images (WCI), sonar image super-resolution, Mathematical geography. Cartography, GA1-1776

Abstract

Multibeam water column images (WCI) play a crucial role in the detection and recognition of underwater targets. However, WCI is not a complete image of underwater space due to the gaps between beams inherent in multibeam systems. In this study, we design the WCI super-resolution network (WCISRN) based on Swin-transformer to adapt to the uneven and sparse distribution of water column data. To enable WCISRN to learn morphological features effectively, we produced simulated datasets for pre-training. Subsequently, we conduct self-supervised training on the measured WCI dataset to fine-tune the network parameters, aiming to better adapt WCISRN to the backscattering intensity features of WCI. Finally, by performing network cross-fusion, the pre-trained network and self-supervised training network are combined to form a new network that achieves a balance between image morphology and intensity features. The proposed method is evaluated through visual analysis and quantitative comparison using simulated and real-world datasets. The experimental results demonstrate that our method exhibits stronger detail restoration ability and clearer image morphology. The average peak signal-to-noise ratio (PSNR) on the test set improved from 23.75–26.14, indicating a significant enhancement in the imaging quality of WCI.

Published

2024

2. Design of a multiparameter data acquisition and control system for in situ seabed observation base stations

Author

Chao Zhong, Jing'an Lu, Dongju Kang, and Qianyong Liang

Subjects

energy measurement, environmental monitoring (geophysics), geophysical techniques, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Abstract With the exploration, development, and research of deep‐sea resources, there is an urgent need for long‐term and continuous observation data of the deep‐sea seabed boundary layer. The traditional method of deep‐sea seabed survey and sampling based on scientific research vessels has the discontinuity of observation data in space and time scales. There are some problems in the seabed in situ observation method based on the seabed observation network for low mobility and high operation and maintenance costs, restricting the in‐depth understanding of the dynamic change process of the deep‐sea floor. To solve the above problems, an open and modular data acquisition control system was designed based on an embedded system and signal processing technology. In terms of the physical, chemical, geological, and ecosystem characteristics of the seafloor or near the seafloor boundary layer, various functional sensors and instrumentation were matched to form an independent underwater integrated measurement or experimental device, eventually realizing in situ multiparameter and long‐time series observations of the seafloor. The system data acquisition and control test were completed through laboratory experiments, which verified the feasibility of the system design. The research showed important theoretical and technical reference significance for the exploration and development of resources in the submarine boundary layer and the promotion of deep‐sea scientific research.

Published

2024

3. Quantifying the Extent of Authigenic Carbonate Formation in Shallow Marine Sediments Through a Correlation Between Carbonate Precipitation Rate and Sulfate Flux

Author

Yu Hu, Min Luo, Jörn Peckmann, Xinxin Zhang, Linying Chen, Junxi Feng, Qianyong Liang, Duofu Chen, and Dong Feng

Subjects

Geophysics. Cosmic physics, QC801-809

Abstract

Abstract The accumulation of authigenic carbonate in marine sediments has been regarded as a significant contributor to the carbon cycle over Earth's history. However, accurate quantification of the extent of authigenic carbonate formation in both modern and ancient oceans has been challenging due to limited approaches. Here, we analyzed calcium, magnesium, dissolved inorganic carbon, and alkalinity pore‐water profiles of 153 sites influenced by methane diffusion from the northern South China Sea. By combining these data with published data of diffusive sulfate flux, we found a significant positive correlation between carbonate precipitation rate and sulfate flux in the subseafloor. This correlation can be used to quantify the regional extent of authigenic carbonate formation, representing an advantage over a spatial interpolation approach. We therefore propose that the observed correlation can serve as a new approach for quantifying authigenic carbonate formation in shallow sediments along continental margins for both modern and ancient oceans.

Published

2023

4. Lipidomic diversity and proxy implications of archaea from cold seep sediments of the South China Sea

Author

Tingting Zhang, Wei He, Qianyong Liang, Fengfeng Zheng, Xi Xiao, Zhiyu Zeng, Jingzhuo Zhou, Wenyong Yao, Haodong Chen, Yuanqing Zhu, Jing Zhao, Yan Zheng, and Chuanlun Zhang

Subjects

cold seeps, South China Sea, archaeal lipid biomarkers, ANMEs, methane index, Microbiology, QR1-502

Abstract

Cold seeps on the continental margins are characterized by intense microbial activities that consume a large portion of methane by anaerobic methanotrophic archaea (ANME) through anaerobic oxidation of methane (AOM). Although ANMEs are known to contain unique ether lipids that may have an important function in marine carbon cycling, their full lipidomic profiles and functional distribution in particular cold-seep settings are still poorly characterized. Here, we combined the 16S rRNA gene sequencing and lipidomic approaches to analyze archaeal communities and their lipids in cold seep sediments with distinct methane supplies from the South China Sea. The archaeal community was dominated by ANME-1 in the moderate seepage area with strong methane emission. Low seepage area presented higher archaeal diversity covering Lokiarchaeia, Bathyarchaeia, and Thermoplasmata. A total of 55 core lipids (CLs) and intact polar lipids (IPLs) of archaea were identified, which included glycerol dialkyl glycerol tetraethers (GDGTs), hydroxy-GDGTs (OH-GDGTs), archaeol (AR), hydroxyarchaeol (OH-AR), and dihydroxyarchaeol (2OH-AR). Diverse polar headgroups constituted the archaeal IPLs. High concentrations of dissolved inorganic carbon (DIC) with depleted δ13CDIC and high methane index (MI) values based on both CLs (MICL) and IPLs (MIIPL) indicate that ANMEs were active in the moderate seepage area. The ANME-2 and ANME-3 clades were characterized by enhanced glycosidic and phosphoric diether lipids production, indicating their potential role in coupling carbon and phosphurus cycling in cold seep ecosystems. ANME-1, though representing a smaller proportion of total archaea than ANME-2 and ANME-3 in the low seepage area, showed a positive correlation with MIIPL, indicating a different mechanism contributing to the IPL-GDGT pool. This also suggests that MIIPL could be a sensitive index to trace AOM activities performed by ANME-1. Overall, our study expands the understanding of the archaeal lipid composition in the cold seep and improves the application of MI using intact polar lipids that potentially link to extent ANME activities.

Published

2023

5. Mechanical Characteristics of Gas Hydrate-Bearing Sediments: An Experimental Study from the South China Sea

Author

Qingmeng Yuan, Liang Kong, Qianyong Liang, Jinqiang Liang, Lin Yang, Yifei Dong, Zhigang Wang, and Xuemin Wu

Subjects

gas hydrate-bearing sediments, triaxial shear test, mechanical properties, empirical formulas, seabed soft clay, South China Sea, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Clarifying the mechanical characteristics of gas hydrate-bearing sediments (GHBS) from a mechanical perspective is crucial for ensuring the long-term, safe, and efficient extraction of natural gas hydrates. In this study, seabed soft clay from the northern South China Sea was utilized to prepare clayey silt samples, aligning with gradation curves related to hydrate extraction projects in the Shenhu area of the South China Sea. Utilizing the high-pressure low-temperature hydrate triaxial testing system (ETAS), twelve sets of triaxial shear tests were conducted. The results highlight that increases in hydrate saturation and confining pressure significantly enhance GHBS’ strength and stiffness, with more pronounced volume expansion observed during shearing. These tests have elucidated the mechanical responses of GHBS. Subsequently, empirical formulas were developed to characterize their properties under varying conditions. Additionally, based on the experimental data, the micro-mechanisms of GHBS were analyzed, suggesting that hydrates notably contribute to the filling and cementing effects in GHBS, with these effects varying with changes in hydrate saturation and confining pressure. This study contributes to a deeper understanding of the fundamental mechanical properties of GHBS.

Published

2024

6. Depressurization-induced gas production from hydrate reservoirs in the Shenhu sea area using horizontal well: Numerical simulation on horizontal well section deployment for gas production enhancement

Author

Tinghui Wan, Zhanzhao Li, Yanjiang Yu, Qianyong Liang, Hongfeng Lu, and Jingli Wang

Subjects

natural gas hydrate, Shenhu sea area, horizontal well, numerical simulation, TOUGH+HYDRATE, Science

Abstract

In 2020, China successfully conducted the second round of natural gas hydrate pilot production with horizontal wells at W11-W17 deposits in the Shenhu sea area of South China Sea, but the average daily gas production is far from reaching the commercial exploitation. Low productivity has become one of the key factors hindering the commercial exploitation of gas hydrate reservoir. This work taking SHSC-4 well as an example, uses numerical simulation method to analyze the impact of the placement of horizontal well section, length and the production system on productivity of horizontal well in depressurization exploitation. From the analysis of simulation results, it can be seen that the best performance of production capacity can be achieved when horizontal section placed in layer II, which is compared with that placed in layer I and III. More importantly, hydrate in layer I and free gas in layer III can be effectively utilized to improve productivity when layer II is exploited. When the horizontal section is arranged in layer II and produced by depressurization with small pressure difference (1 MPa), the longer the horizontal section length is, the better the productivity will be. However, the average cumulative gas production increment per meter is gradually decreasing. According to the simulation results, 300 m is a reasonable horizontal section length for the exploitation of layer II, and the cumulative gas production reaches 2.55 million cubic meters after 60 days of continuous exploitation. In addition, due to the limitations of convective heat transfer in the low-permeability reservoir in the Shenhu sea area, sensible heat can significantly improve the secondary hydrate generated in the wellbore and the reservoir around the wellbore due to throttling expansion effect, which has a good effect on productivity improvement. Compared with the situation without heating, when the horizontal section is arranged in layer II and the length is 300 m, the production mode of depressurization and combined heating is adopted, and the cumulative gas production of 60 days with different pressure difference (1–5 MPa) is 0.14, 5.55, 14.75, 23.72, and 29.5 times higher than that without heating.

Published

2023

7. Geomechanical properties of gas hydrate-bearing sediments in Shenhu Area of the South China Sea

Author

Jiangong Wei, Lin Yang, Qianyong Liang, Jinqiang Liang, Jingan Lu, Wei Zhang, Xuhui Zhang, and Xiaobing Lu

Subjects

Natural gas hydrate, Pressure core, Effective stress, Shear strength, Permeability anisotropy, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

It is essential to understand the in-situ geomechanical properties of natural gas hydrate-bearing reservoirs for hydrate drilling, the design of reservoir stimulation and production schemes, geologic disaster prevention, and environmental impact assessment. In this way, it serves as the basis for the development and utilization of gas hydrate resources. In 2016, the Guangzhou Marine Geological Survey conducted the fourth natural gas hydrate drilling (Expedition GMGS4) in the north of the South China Sea, during which the effective stress of gas hydrate-bearing reservoirs in the study area was ascertained and gas hydrate-bearing pressure cores were collected. The effective stress was determined to be 700–800 kPa by in-situ piezocone penetration tests. The saturation, permeability, and shear strength of gas hydrates in the pressure core samples were measured under the in-situ stress state using the shipboard multi-sensor core logger (MSCL), pressure core analysis and transfer system (PCATS), and PCATS Triaxial system. Based on this, the distribution characteristics and the relationship of the permeability and gas hydrate saturation of the gas hydrate-bearing reservoirs were explored. Furthermore, the effects of effective stress and gas hydrate saturation on shear strength of gas hydrate-bearing clayey-silt sediments were mainly analyzed, as well as the stress–strain characteristics of gas hydrate-bearing sediments. The results are as follows: (i) the gas hydrate saturation and reservoir permeability in the study area are 0.7%–55% and 10−3–10−1mD, respectively, indicating low-permeability reservoirs; (ii) the gas hydrate saturation and reservoir permeability have obvious anisotropy in horizontal and vertical directions; (iii) the undrained shear strength of gas hydrate-bearing sediments is 0.24–0.52 MPa, and the shear strength of fine-grained sediments is more sensitive to the changes of in-situ stress. In the case that deviatoric stress continues increasing, micro-fractures may occur inside gas hydrate-bearing sediments, and this can lead to drastic changes in the strength of gas hydrate-bearing reservoirs. Therefore, it is necessary to take into account the effects of micro-fractures in gas hydrate-bearing reservoirs on engineering safety during long-term hydrate production.

Published

2021

8. New insights into the archives of redox conditions in seep carbonates from the northern South China Sea

Author

Qianyong Liang, Huiwen Huang, Yuedong Sun, Shanggui Gong, Xudong Wang, Xi Xiao, Yifei Dong, Junxi Feng, and Dong Feng

Subjects

redox condition, Fe/Mn oxidation, seep intensity, cold seep, tubular carbonates, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Modern cold seeps are of fluctuant flux, which could result in variabilities of geochemical archives through intensively influencing the redox condition in pore fluids. However, the geochemical archives are not fully understood when the redox condition changes. Here, tubular carbonates from the Shenhu Sea Area were used to reconstruct the formation environment and redox conditions. The moderately negative δ13C values of the carbonates (−40.1‰ to −30.8‰, VPDB) indicate a mixed carbon source of thermogenic and biogenic methane. The low δ18O values (−2.7‰ to 1.0‰, VPDB) suggest a type of 18O-depleted pore fluid possibly influenced by gas hydrate formation. Co-variation of MoEF, WEF, CoEF, and CrEF suggests that high Fe contents in the rims of samples R1 and R2 are induced by Fe (oxyhydr)oxidation enrichment, while the positive correlation between MoEF and Mn/Al ratio indicates that high Mn contents in the rims of samples R3 and R4 are induced by Mn (oxyhydr)oxidation enrichment. The occurrence of Fe or Mn enrichment in the rims and the absence of Fe/Mn enrichment in the cores suggest Fe/Mn (oxyhydr)oxides forming in pore fluid rather than in bottom seawater. The carbonate phases of the rims enriched in Fe (oxyhydr)oxides are dominated by high magnesium calcite, while those of the rims enriched in Mn (oxyhydr)oxides are dominated by aragonite. The occurrence of Fe or Mn (oxyhydr)oxides corresponds to the previously proposed formation depth for the carbonate phase. The occurrence of dissolution textures in these rims indicates episodic oxic conditions, which would facilitate Fe2+/Mn2+ oxidation. We suppose that the Fe2+ and Mn2+ could be supplied through fluid seepage or diffusion from underlying sediments when the flux decreased. Similar archives may be applied to qualitatively reflect the changes of redox conditions in seep systems. Similar scenarios may help us understand the geochemical records in seeps of fluctuant flux.

Published

2022

9. Enhancement of Gas Production From Clayey Silt Hydrate Reservoirs Based on Near Wellbore Artificial Fractures Constructed Using High-Pressure Rotating Water Jets Technology

Author

Zhanzhao Li, Tinghui Wan, Yanjiang Yu, Qianyong Liang, Hongfeng Lu, Jingli Wang, Lieyu Tian, Huice He, Keliang Li, and Haijun Qiu

Subjects

natural gas hydrate, high-pressure rotating water jets, near wellbore artificial fractures, low-permeability reservoirs, production enhancement, Science

Abstract

Over 90% of the global hydrate resources are stored in very-low-permeability clayey silt reservoirs. The low permeability significantly restricts the efficiency of gas and water flow into the production well. To enhance gas production efficiency in low-permeability hydrate reservoirs, the high-pressure rotating water jets (HPRWJ) technology is proposed to construct near wellbore artificial fractures (NWAFs) in hydrate reservoirs. The HPRWJ avoid the risks of hydraulic fracturing as well as large-scale reservoir damage, which makes it more suitable for constructing fractures in hydrate-bearing sediments (HBS). In this article, the site SH7 in the South China Sea is studied to evaluate the feasibility of this technology for enhancing gas production of low-permeability hydrate reservoirs by numerical simulation. The results show that the gas productivity is increased by approximately three times by using the HPRWJ technology to construct NWAFs with a depth of 3 m. It is suggested that the proposed technology is a promising method for improving gas production from the low-permeability hydrate reservoirs. Furthermore, the gas production performance is closely related to NWAF depth, NWAF permeability, and NWAF spacing. For the site SH7 in the South China Sea, the NWAF depth, permeability, and spacing are recommended as 3 m, 3D, and 3 m, respectively.

Published

2022

10. Application of the Navigational Air-Sea Methane Exchange Flux Observation System in the Qiongdongnan Basin of the Northern South China Sea

Author

Chao Zhong, Jing’an Lu, Dongju Kang, and Qianyong Liang

Subjects

navigation measurement, dissolved CH4 concentration, air-sea exchange flux, South China Sea, Technology

Abstract

The sources and sinks of dissolved CH4 in offshore waters are becoming diversified with the rapid increase in human activities. The concentration and air–sea exchange flux of dissolved CH4 present new characteristics of more intense spatiotemporal evolution, and the contribution to atmospheric CH4 continues to increase. Herein, a new model based on navigable air–sea exchange flux observations was proposed, which replaced the traditional station-based sampling analysis and testing method, realizing the synchronous measurement of methane in the atmosphere and surface seawater carried by ships. Based on the Marine Geological Survey project of the China Geological Survey, comprehensive environmental surveys were conducted in April 2018, September 2018, and June 2019 in the Qiongdongnan area in the northern part of the South China Sea, and the dissolved methane content in the sea surface atmosphere and surface seawaters in 2019 were simultaneously obtained. The methane exchange flux ranges of the southeastern sea area were calculated as −0.001~−0.0023 μmol·m−2·d−1 and −0.00164~−0.00395 μmol·m−2·d−1 by using the Liss and Merlivat formula (LM86), the Wanninkhof formula (W92), and the field-measured wind speed. The feasibility of the navigational air–sea methane exchange flux observation system was proven in a sea trial, and the measurement accuracy and observation efficiency of air-sea flux were improved with the designed system, providing a new technical means for further research on multiscale air–sea interactions and global climate change.

Published

2023

11. Corrigendum: Active Anaerobic Archaeal Methanotrophs in Recently Emerged Cold Seeps of Northern South China Sea

Author

Tingting Zhang, Xi Xiao, Songze Chen, Jing Zhao, Zongheng Chen, Junxi Feng, Qianyong Liang, Tommy J. Phelps, and Chuanlun Zhang

Subjects

anaerobic methanotrophs, methane, anaerobic oxidation of methane, cold seeps, calyptogena, Microbiology, QR1-502

Published

2021

12. Gas Hydrate Accumulation and Occurrence Associated with Cold Seep Systems in the Northern South China Sea: An Overview

Author

Wei Zhang, Jinqiang Liang, Qianyong Liang, Jiangong Wei, Zhifeng Wan, Junxi Feng, Wei Huang, Jing Zhao, Miaomiao Meng, Wei Deng, and Chongmin Chen

Subjects

Geology, QE1-996.5

Abstract

Studying deep-water cold seep systems is of great significance to gas hydrate exploration due to their close relationship. Various cold seep systems and related gas hydrate accumulations have been discovered in the northern South China Sea in the past three decades. Based on high-resolution seismic data, subbottom profiles, in situ submergence observations, deep drilling and coring, and hydrate gas geochemical analyses, the geological and geophysical characteristics of these cold seep systems and their associated gas hydrate accumulations in the Qiongdongnan Basin, the Shenhu area, the Dongsha area, and the Taixinan Basin have been investigated. Cold seep systems are present in diverse stages of evolution and exhibit various seabed microgeomorphic, geological, and geochemical features. Active cold seep systems with a large amount of gas leakage, gas plumes, and microbial communities and inactive cold seep systems with authigenic carbonate pavements are related to the variable intensity of the gas-bearing fluid, which is usually derived from the deep strata through mud diapirs, mud volcanoes, gas chimneys, and faults. Gas hydrates are usually precipitated in cold seep vents and deeper vertical fluid migration pathways, indicating that deep gas-bearing fluid activities control the formation and accumulation of gas hydrates. The hydrocarbons collected from cold seep systems and their associated gas hydrate reservoirs are generally mixtures of biogenic gas and thermogenic gas, the origin of which is generally consistent with that of deep conventional gas. We also discuss the paragenetic relationship between the gas-bearing fluid and the seafloor morphology of cold seeps and the deep-shallow coupling of gas hydrates, cold seeps, and deep petroleum reservoirs. It is reasonable to conclude that the deep petroleum systems and gas-bearing fluid activity jointly control the development of cold seep systems and the accumulation of gas hydrates in the northern South China Sea. Therefore, the favorable areas for conventional oil and gas enrichment are also prospective areas for exploring active cold seeps and gas hydrates.

Published

2021

13. Active Anaerobic Archaeal Methanotrophs in Recently Emerged Cold Seeps of Northern South China Sea

Author

Tingting Zhang, Xi Xiao, Songze Chen, Jing Zhao, Zongheng Chen, Junxi Feng, Qianyong Liang, Tommy J. Phelps, and Chuanlun Zhang

Subjects

anaerobic methanotrophs, methane, anaerobic oxidation of methane, cold seeps, calyptogena, Microbiology, QR1-502

Abstract

Cold seep ecosystems are developed from methane-rich fluids in organic rich continental slopes, which are the source of various dense microbial and faunal populations. Extensive studies have been conducted on microbial populations in this unique environment; most of them were based on DNA, which could not resolve the activity of extant organisms. In this study, RNA and DNA analyses were performed to evaluate the active archaeal and bacterial communities and their network correlations, particularly those participating in the methane cycle at three sites of newly developed cold seeps in the northern South China Sea (nSCS). The results showed that both archaeal and bacterial communities were significantly different at the RNA and DNA levels, revealing a higher abundance of methane-metabolizing archaea and sulfate-reducing bacteria in RNA sequencing libraries. Site ROV07-01, which exhibited extensive accumulation of deceased Calyptogena clam shells, was highly developed, and showed diverse and active anaerobic archaeal methanotrophs (ANME)-2a/b and sulfate-reducing bacteria from RNA libraries. Site ROV07-02, located near carbonate crusts with few clam shell debris, appeared to be poorly developed, less anaerobic and less active. Site ROV05-02, colonized by living Calyptogena clams, could likely be intermediary between ROV07-01 and ROV07-02, showing abundant ANME-2dI and sulfate-reducing bacteria in RNA libraries. The high-proportions of ANME-2dI, with respect to ANME-2dII in the site ROV07-01 was the first report from nSCS, which could be associated with recently developed cold seeps. Both ANME-2dI and ANME-2a/b showed close networked relationships with sulfate-reducing bacteria; however, they were not associated with the same microbial operational taxonomic units (OTUs). Based on the geochemical gradients and the megafaunal settlements as well as the niche specificities and syntrophic relationships, ANMEs appeared to change in community structure with the evolution of cold seeps, which may be associated with the heterogeneity of their geochemical processes. This study enriched our understanding of more active sulfate-dependent anaerobic oxidation of methane (AOM) in poorly developed and active cold seep sediments by contrasting DNA- and RNA-derived community structure and activity indicators.

Published

2020

14. The mitochondrial genome of the deep-sea tubeworm Paraescarpia echinospica (Siboglinidae, Annelida) and its phylogenetic implications

Author

Yanan Sun, Qianyong Liang, Jin Sun, Yi Yang, Jun Tao, Jinqiang Liang, Dong Feng, Jian-Wen Qiu, and Pei-Yuan Qian

Subjects

tubeworm, deep-sea, mitogenome, paraescarpia echinospica, next generation sequencing, Genetics, QH426-470

Abstract

Paraescarpia echinospica is a conspicuous annelid living in the cold seeps and hydrothermal vents of the Western Pacific region and relying on their endosymbiont bacteria as a source of energy and organic carbon. We report the complete mitochondrial genome of P. echinospica, which is 15,280 bp in length, containing 13 protein-coding genes, two ribosomal RNA genes, 22 tRNA genes and a putative control region. The overall base composition is AT-biased. The control region contains repeated nucleotide motifs. Phylogenetic analyses of the concatenated mitochondrial genes strongly support a sister relationship of P. echinospica with a clade containing Escarpia and Seepiophila.

Published

2018

15. Submarine Landslides and their Distribution in the Gas Hydrate Area on the North Slope of the South China Sea

Author

Xuemin Wu, Qianyong Liang, Yun Ma, Yaohong Shi, Zhen Xia, Lihua Liu, and Matthias Haeckel

Subjects

submarine landslides, landslide types, distribution characteristics, gas hydrate, South China Sea, Technology

Abstract

Integrated investigations have revealed abundant resources of gas hydrates on the northern slope of the South China Sea (SCS). Regarding the gas hydrate research of northern SCS, the gas hydrate related environment problem such as seabed landslides were also concentrated on in those areas. Based on 2D seismic data and sub-bottom profiles of the gas hydrate areas, submarine landslides in the areas of Qiongdongnan, Xisha, Shenhu, and Dongsha have been identified, characterized, and interpreted, and the geophysical characteristics of the northern SCS region investigated comprehensively. The results show 6 major landslides in the gas hydrate zone of the northern SCS and 24 landslides in the Shenhu and Dongsha slope areas of the northern SCS. The landslide zones are located mainly at water depths of 200⁻3000 m, and they occur on the sides of valleys on the slope, on the flanks of volcanoes, and on the uplifted steep slopes above magmatic intrusions. All landslides extend laterally towards the NE or NEE and show a close relationship to the ancient coastline and the steep terrain of the seabed. We speculate that the distribution and development of submarine landslides in this area has a close relationship with the tectonic setting and sedimentary filling characteristics of the slopes where they are located. Seismic activity is the important factor controlling the submarine landslide in Dongsha area, but the important factor controlling the submarine landslides in Shenhu area is the decomposition of natural gas hydrates.

Published

2018

16. Fabrication of Photoluminescent Coatings Composed of Boron and Nitrogen Co-doped Carbon Dots on the Cotton Fabric by Layer-by-Layer Self-assembly Method

Author

Pan Ying, Qianyong Liang, Jia Du, Huaiwei Zhao, Dong Zhang, Hongting Zhao, Ting Lü, and Yan Zhang

Abstract

Boron and nitrogen co-doped carbon dots (BN-CDs) were synthesized by one-pot hydrothermal carbonization. Then the as-prepared CDs was combined with alginate and polyethyleneimine to fabricate the multi-layered coating on the cotton fabric by Layer-by-Layer (LbL) self-assembly method. The CDs containing coating emitted visible blue light under 365 nm UV lamp. Subsequently, the UV protection property, thermal stability, flame retardancy and wash durability of the CDs treated cotton fabric were investigated. The ultraviolet protection factors of pure cotton fabric and cotton fabric treated with 12 bilayers CDs consisting coating were 6.48 and 64.10, respectively, which indicated that the synthesized CDs was an efficient UV absorber. In TGA test, more char residues at 700°C were observed for CDs consisting coatings treated cotton fabrics under nitrogen atmosphere. After B, N co-doped CDs were enriched in the PEI/alginate multi-layered coating, the PHRR of cotton-CDs-12BL were reduced 15% and TPHRR of cotton-CDs-12BL were improved 26.4°C in microscale combustion calorimeter test. This result indicated that B, N co-doped CDs presented potential application as a flame retardant on surface of cotton fiber.

Published

2023

17. Metal-driven anaerobic oxidation of methane as an important methane sink in methanic cold seep sediments

Author

Xi Xiao, Min Luo, Chuwen Zhang, Tingting Zhang, Xiuran Yin, Xuemin Wu, Jing Zhao, Jun Tao, Zongheng Chen, Qianyong Liang, and Xiyang Dong

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, Genetics, Cell Biology

Abstract

Anaerobic oxidation of methane (AOM) coupled with reduction of metal oxides is supposed to be a globally important bioprocess in marine sediments. However, the responsible microorganisms and their contributions to methane budget are not clear in deep sea cold seep sediments. Here, we combined geochemistry, muti-omics and numerical modeling to study metal-dependent AOM in methanic cold seep sediments in the northern continental slope of the South China Sea. Geochemical data based on methane concentrations, carbon stable isotope, solid-phase sediment analysis and pore water measurements indicate the occurrence of anaerobic methane oxidation coupled to metal oxides reduction in the methanic zone. The 16S rRNA gene amplicons and transcripts, along with metagenomic and metatranscriptomic data suggest that diverse ANME groups actively mediated methane oxidation in the methanic zone either independently or in syntrophy with e.g. ETH-SRB1 as potential metal reducers. Modeling results suggest that the estimated rates of methane consumption via Fe-AOM and Mn-AOM were both 0.3 μmol cm-2yr-1, which account for ∼3% of total CH4removal in sediments. Overall, our results highlight metal-driven anaerobic oxidation of methane as an important methane sink in methanic cold seep sediments.

Published

2022

18. Gas Hydrate Accumulation and Occurrence Associated with Cold Seep Systems in the Northern South China Sea: An Overview

Author

Junxi Feng, Jiangong Wei, Chongmin Chen, Wei Zhang, Wei Deng, Zhifeng Wan, Qianyong Liang, Jinqiang Liang, Jing Zhao, Miaomiao Meng, and Wei Huang

Subjects

QE1-996.5, Clathrate hydrate, Geochemistry, Geology, Authigenic, Diapir, Cold seep, Associated petroleum gas, chemistry.chemical_compound, chemistry, General Earth and Planetary Sciences, Petroleum, Seabed, Mud volcano

Abstract

Studying deep-water cold seep systems is of great significance to gas hydrate exploration due to their close relationship. Various cold seep systems and related gas hydrate accumulations have been discovered in the northern South China Sea in the past three decades. Based on high-resolution seismic data, subbottom profiles, in situ submergence observations, deep drilling and coring, and hydrate gas geochemical analyses, the geological and geophysical characteristics of these cold seep systems and their associated gas hydrate accumulations in the Qiongdongnan Basin, the Shenhu area, the Dongsha area, and the Taixinan Basin have been investigated. Cold seep systems are present in diverse stages of evolution and exhibit various seabed microgeomorphic, geological, and geochemical features. Active cold seep systems with a large amount of gas leakage, gas plumes, and microbial communities and inactive cold seep systems with authigenic carbonate pavements are related to the variable intensity of the gas-bearing fluid, which is usually derived from the deep strata through mud diapirs, mud volcanoes, gas chimneys, and faults. Gas hydrates are usually precipitated in cold seep vents and deeper vertical fluid migration pathways, indicating that deep gas-bearing fluid activities control the formation and accumulation of gas hydrates. The hydrocarbons collected from cold seep systems and their associated gas hydrate reservoirs are generally mixtures of biogenic gas and thermogenic gas, the origin of which is generally consistent with that of deep conventional gas. We also discuss the paragenetic relationship between the gas-bearing fluid and the seafloor morphology of cold seeps and the deep-shallow coupling of gas hydrates, cold seeps, and deep petroleum reservoirs. It is reasonable to conclude that the deep petroleum systems and gas-bearing fluid activity jointly control the development of cold seep systems and the accumulation of gas hydrates in the northern South China Sea. Therefore, the favorable areas for conventional oil and gas enrichment are also prospective areas for exploring active cold seeps and gas hydrates.

Published

2021

19. Biogeochemistry, microbial activity, and diversity in surface and subsurface deep‐sea sediments of South China Sea

Author

Qianyong Liang, Guang-Chao Zhuang, Xibei Fan, Samantha B. Joye, Fengping Wang, Zhen Xia, and Lei Xu

Subjects

Oceanography, South china, media_common.quotation_subject, Biogeochemistry, Aquatic Science, Deep sea, Geology, Diversity (politics), media_common

Published

2019

20. The mitochondrial genome of the deep-sea tubeworm

Author

Yanan, Sun, Qianyong, Liang, Jin, Sun, Yi, Yang, Jun, Tao, Jinqiang, Liang, Dong, Feng, Jian-Wen, Qiu, and Pei-Yuan, Qian

Subjects

next generation sequencing, deep-sea, mitogenome, Paraescarpia echinospica, Mitogenome Announcement, Tubeworm, Research Article

Abstract

Paraescarpia echinospica is a conspicuous annelid living in the cold seeps and hydrothermal vents of the Western Pacific region and relying on their endosymbiont bacteria as a source of energy and organic carbon. We report the complete mitochondrial genome of P. echinospica, which is 15,280 bp in length, containing 13 protein-coding genes, two ribosomal RNA genes, 22 tRNA genes and a putative control region. The overall base composition is AT-biased. The control region contains repeated nucleotide motifs. Phylogenetic analyses of the concatenated mitochondrial genes strongly support a sister relationship of P. echinospica with a clade containing Escarpia and Seepiophila.

Published

2021

21. Geochemical record of methane seepage in authigenic carbonates and surrounding host sediments: A case study from the South China Sea

Author

Duofu Chen, Linying Chen, Yu Hu, Qianyong Liang, Dong Feng, and Zhen Xia

Subjects

010504 meteorology & atmospheric sciences, Clathrate hydrate, Trace element, Sediment, Mineralogy, Geology, Authigenic, 010502 geochemistry & geophysics, 01 natural sciences, Methane, chemistry.chemical_compound, δ34S, chemistry, Anaerobic oxidation of methane, Carbonate, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Sediments at marine methane seep sites provide potential archives of past fluid flow that serve to explore seepage activities over time. Three gravity cores (D-8, D-F, and D-7) were collected from seep sites on the northern slope of the South China Sea where gas hydrates were drilled in the subsurface. Various carbon and sulfur contents, δ13C values of total inorganic carbon (δ13CTIC), δ34S values of chromium reducible sulfur (δ34SCRS), trace element contents, grain size, and AMS 14C dating of planktonic Foraminifera in the sediments were determined to explore the availability of related proxies at seeps and to trace past methane seepage activities. Evidence for the presence of methane seepage and consequently anaerobic oxidation of methane comes from the occurrence of 13C-depleted authigenic carbonate nodules (δ13C values as low as −49‰) discovered at an interval of 150–200 cm in core D-7. This finding is supported by high S/C ratios and molybdenum enrichment in the same interval. However, low contents of CRS and negative δ34SCRS values are present. It is suggested to reflect a transient methane seepage event, which continued for about 1 ka based on the 14C ages. Cores D-8 and D-F have δ13CTIC values close to zero, low S/C ratios and CRS contents, negative δ34SCRS values, and no trace element enrichment, suggesting a negligible impact of methane-seepage on the sediments. The negative δ34SCRS values of the studied seep-impacted and background sediments suggest that the application of δ34SCRS alone as a proxy to identify AOM-related process may be insufficient. Sediment carbon-sulfur-trace element systematics and 14C ages used here have the potential to be a promising tool to recognize transient methane seepages and constrain their timescales.

Published

2017

22. Carbon isotopic fractionation during vaporization of low molecular weight hydrocarbons (C6–C12)

Author

Chenchen Fang, Jing Zhao, Qianyong Liang, Yongqiang Xiong, and Yun Li

Subjects

010504 meteorology & atmospheric sciences, Science, Analytical chemistry, Energy Engineering and Power Technology, chemistry.chemical_element, Fractionation, 010501 environmental sciences, complex mixtures, 01 natural sciences, Isotope fractionation, Geochemistry and Petrology, Vaporization, Low molecular weight hydrocarbons, Rayleigh fractionation, Petrology, 0105 earth and related environmental sciences, QE420-499, Geology, Geotechnical Engineering and Engineering Geology, Mass-independent fractionation, Equilibrium fractionation, Geophysics, Fuel Technology, chemistry, Isotopes of carbon, Gas chromatography–isotope ratio mass spectrometry, Economic Geology, Carbon

Abstract

Three series of laboratory vaporization experiments were conducted to investigate the carbon isotope fractionation of low molecular weight hydrocarbons (LMWHs) during their progressive vaporization. In addition to the analysis of a synthetic oil mixture, individual compounds were also studied either as pure single phases or mixed with soil. This allowed influences of mixing effects and diffusion though soil on the fractionation to be elucidated. The LMWHs volatilized in two broad behavior patterns that depended on their molecular weight and boiling point. Vaporization significantly enriched the 13C present in the remaining components of the C6–C9 fraction, indicating that the vaporization is mainly kinetically controlled; the observed variations could be described with a Rayleigh fractionation model. In contrast, the heavier compounds (n-C10–n-C12) showed less mass loss and almost no significant isotopic fractionation during vaporization, indicating that the isotope characteristics remained sufficiently constant for these hydrocarbons to be used to identify the source of an oil sample, e.g., the specific oil field or the origin of a spill. Furthermore, comparative studies suggested that matrix effects should be considered when the carbon isotope ratios of hydrocarbons are applied in the field.

Published

2017

23. Submarine Landslides and their Distribution in the Gas Hydrate Area on the North Slope of the South China Sea

Author

Matthias Haeckel, Yun Ma, Xue-min Wu, Zhen Xia, Lihua Liu, Yaohong Shi, and Qianyong Liang

Subjects

Control and Optimization, 010504 meteorology & atmospheric sciences, Clathrate hydrate, Energy Engineering and Power Technology, gas hydrate, South China Sea, 010502 geochemistry & geophysics, lcsh:Technology, 01 natural sciences, landslide types, Natural gas, 14. Life underwater, Electrical and Electronic Engineering, Engineering (miscellaneous), Geomorphology, Seabed, 0105 earth and related environmental sciences, geography, distribution characteristics, geography.geographical_feature_category, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, Landslide, Tectonics, Volcano, submarine landslides, 13. Climate action, Sedimentary rock, business, Geology, Energy (miscellaneous), Submarine landslide

Abstract

Integrated investigations have revealed abundant resources of gas hydrates on the northern slope of the South China Sea (SCS). Regarding the gas hydrate research of northern SCS, the gas hydrate related environment problem such as seabed landslides were also concentrated on in those areas. Based on 2D seismic data and sub-bottom profiles of the gas hydrate areas, submarine landslides in the areas of Qiongdongnan, Xisha, Shenhu, and Dongsha have been identified, characterized, and interpreted, and the geophysical characteristics of the northern SCS region investigated comprehensively. The results show 6 major landslides in the gas hydrate zone of the northern SCS and 24 landslides in the Shenhu and Dongsha slope areas of the northern SCS. The landslide zones are located mainly at water depths of 200&ndash, 3000 m, and they occur on the sides of valleys on the slope, on the flanks of volcanoes, and on the uplifted steep slopes above magmatic intrusions. All landslides extend laterally towards the NE or NEE and show a close relationship to the ancient coastline and the steep terrain of the seabed. We speculate that the distribution and development of submarine landslides in this area has a close relationship with the tectonic setting and sedimentary filling characteristics of the slopes where they are located. Seismic activity is the important factor controlling the submarine landslide in Dongsha area, but the important factor controlling the submarine landslides in Shenhu area is the decomposition of natural gas hydrates.

Published

2018

24. Using chemical compositions of sediments to constrain methane seepage dynamics: A case study from Haima cold seeps of the South China Sea

Author

Dong Feng, Duofu Chen, Hongpeng Tong, Yu Hu, Xudong Wang, Qianyong Liang, Germain Bayon, Jun Tao, Niu Li, and Shanggui Gong

Subjects

Total organic carbon, 010504 meteorology & atmospheric sciences, Carbon and sulfur isotopes, Geochemistry, Sediment, Geology, South China Sea, 010502 geochemistry & geophysics, 01 natural sciences, Cold seep, Methane, chemistry.chemical_compound, δ34S, Total inorganic carbon, chemistry, 13. Climate action, Isotopes of carbon, Anaerobic oxidation of methane, 14. Life underwater, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Cold seeps frequently occur at the seafloor along continental margins. The dominant biogeochemical processes at cold seeps are the combined anaerobic oxidation of methane and sulfate reduction, which can significantly impact the global carbon and sulfur cycles. The circulation of methane-rich fluids at margins is highly variable in time and space, and assessing past seepage activity requires the use of specific geochemical markers. In this study, we report multiple sedimentary proxy records for three piston gravity cores (QDN-14A, QDN-14B, and QDN-31) from the Haima seep of the South China Sea (SCS). By combining total organic carbon (TOC), total inorganic carbon (TIC), total nitrogen (TN), total sulfur (TS), acid insoluble carbon and sulfur isotope (δ13Corganic carbon and δ34Sacid-insoluble), and δ34S values of chromium reducibility sulfur (δ34SCRS), as well as carbon isotopes of TIC (δ13CTIC) in sediments, our aim was to provide constraints on methane seepage dynamics in this area. We identified three sediment layers at about 260–300 cm, 380–420 cm and 480–520 cm sediment depth, characterized by particular anomalies of low δ13CTIC values and high TS content, high TS and CRS contents, and high δ34Sacid-insoluble and δ34SCRS values, respectively. On this basis, we propose that these sediment horizons correspond to distinct methane release events preserved in the sediment record. While the exact mechanisms accounting for the presence (or absence) of these particular geochemical signals in the sediment are not known, we propose that they correspond to variations in methane flux and their duration through time. Overall, our results suggest that sedimentary carbon and sulfur and their isotopes are useful tracers for better understanding of methane seepage dynamics over time.

Published

2018

25. Methane-metabolizing microbial communities in sediments of the Haima cold seep area, northwest slope of the South China Sea

Author

Qianyong Liang, Fengping Wang, Mingyang Niu, Guang-Chao Zhuang, and Xibei Fan

Subjects

0301 basic medicine, China, Geologic Sediments, Oceans and Seas, 030106 microbiology, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, RNA, Ribosomal, 16S, Dissolved organic carbon, Seawater, Sulfate, Ecosystem, Phylogeny, Chemosynthesis, Ecology, biology, Sulfates, Methanosarcinales, biology.organism_classification, Cold seep, Petroleum seep, chemistry, Anaerobic oxidation of methane, Oxidoreductases, Methane, Archaea

Abstract

Cold seeps are widespread chemosynthetic ecosystems in the deep-sea environment, and cold seep microbial communities of the South China Sea are poorly constrained. Here we report on the archaeal communities, particularly those involved in methane metabolization, in sediments of a newly discovered cold seep (named 'Haima') on the northwest slope of the South China Sea. Archaeal diversity, abundance and distribution were investigated in two piston cores collected from a seep area (QDN-14B) and a non-seep control site (QDN-31B). Geochemical investigation of the QDN-14B core identified an estimated sulfate-methane transition zone (Estimated SMTZ) at 300-400 cm below sea floor (cmbsf), where a high abundance of anaerobic methane-oxidizing archaea (ANME) occurred, as revealed by analysis of the 16S rRNA gene and the gene (mcrA) encoding the α-subunit of the key enzyme methyl-coenzyme M reductase. ANME-2a/b was predominant in the upper and middle layers of the estimated SMTZ, whereas ANME-1b outcompeted ANME-2 in the sulfate-depleted bottom layers of the estimated SMTZ and the methanogenic zone. Fine-scale phylogenetic analysis further divided the ANME-1b group into three subgroups with different distribution patterns: ANME-1bI, ANME-1bII and ANME-1bIII. Multivariate analyses indicated that dissolved inorganic carbon and sulfate may be important factors controlling the composition of the methane-metabolizing community. Our study on ANME niche separation and interactions with other archaeal groups improves our understanding of the metabolic diversity and flexibility of ANME, and the findings further suggest that ANME subgroups may have evolved diversified/specified metabolic capabilities other than syntrophic anaerobic oxidation of methane coupled with sulfate reduction in marine sediments.

Published

2017

26. The mitochondrial genome of the deep-sea tubeworm Paraescarpia echinospica (Siboglinidae, Annelida) and its phylogenetic implications

Author

Dong Feng, Yanan Sun, Jian-Wen Qiu, Yi Yang, Pei-Yuan Qian, Jun Tao, Jin Sun, Jinqiang Liang, and Qianyong Liang

Subjects

0301 basic medicine, Mitochondrial DNA, Annelid, biology, Phylogenetic tree, Siboglinidae, Ecology, biology.organism_classification, Deep sea, DNA sequencing, Cold seep, 03 medical and health sciences, 030104 developmental biology, Genetics, Molecular Biology, Hydrothermal vent

Abstract

Paraescarpia echinospica is a conspicuous annelid living in the cold seeps and hydrothermal vents of the Western Pacific region and relying on their endosymbiont bacteria as a source of energy and ...

Published

2018

27. Advances of formation dynamics of natural gas hydrate

Author

PingKang Wang, QianYong Liang, Xuhui Zhang, and XiaoBing Lu

Subjects

Mathematical model, Petroleum engineering, Natural gas, business.industry, High pressure, Gas supply, Geological survey, Hydrate, business

Abstract

It is of great importance for the estimation of reserve, distribution and feasibility of exploitation to study the formation dynamics of natural gas hydrate. Appropriate low temperature and high pressure are the two key parameters for the formation of natural gas hydrate besides gas supply and migration pathway. Meanwhile, the characteristics of the sediment and the existence of the Chloridionand Sulfate ions are also important for the formation of natural gas hydrate. To analyze correctly the formation of natural gas hydrate in some area, we should first obtain detailed historical data of geology, physics and mechanics by geological survey and then build the proper mathematical model. In this paper, summary on several areas has been first processed based on the enough relative data. Next the general and special characteristics of the formation in these areas have been discussed. Then the previous mathematical models for the formation dynamics of natural gas hydrate have been reviewed. The suggestions about the development of the mathematical model for the formation and the main parameter should be focused in the future exploration have been presented.

Published

2019

28. A new species of Hemichela Stock, 1954 from the South China Sea (Arthropoda, Pycnogonida, Ammotheidae)

Author

Jianjia Wang, Rongcheng Lin, Jianjun Wang, Zhen Xia, Heshan Lin, Qianyong Liang, and Chengxing Zheng

Subjects

Not assigned, South china, Arthropoda, Ammotheidae, Nephrozoa, Protostomia, South China Sea, Circumscriptional names of the taxon under, Deep sea, Research vessel, Pycnogonida, HemichelaAnimalia, PycnogonidaAnimalia, Pantopoda, ArthropodaAnimalia, PycnogonidaCephalornis, Bilateria, Animalia, Chela, Ecology, Evolution, Behavior and Systematics, Stock (geology), biology, biology.organism_classification, Oceanography, Hemichela, Dactylus, Notchia, Ecdysozoa, Chasmataspidida, Animal Science and Zoology, Coelenterata, Research Article

Abstract

A new species of pycnogonid collected by the Chinese research vessel, R/V HY IV, during deep sea cruises to the South China Sea in 2013, is described. The new species, Hemichela nanhaiensis, obtained from more than 1300 m depth, is distinguished from the other two species in the genus by the characters of the chela dactylus with 12 denticulations on the inner margin and by the presence of taller tubercles on the lateral processes.

Published

2015

29. Methane-metabolizing microbial communities in sediments of the Haima cold seep area, northwest slope of the South China Sea.

Author

Mingyang Niu, Xibei Fan, Guangchao Zhuang, Qianyong Liang, and Fengping Wang

Subjects

CHEMOSYNTHESIS (Biochemistry), MICROBIAL communities, MARINE ecology, METHANE, PHYLOGENY

Abstract

Cold seeps are widespread chemosynthetic ecosystems in the deep-sea environment, and cold seep microbial communities of the South China Sea are poorly constrained. Here we report on the archaeal communities, particularly those involved in methane metabolization, in sediments of a newly discovered cold seep (named 'Haima') on the northwest slope of the South China Sea. Archaeal diversity, abundance and distribution were investigated in two piston cores collected from a seep area (QDN-14B) and a non-seep control site (QDN-31B). Geochemical investigation of the QDN-14B core identified an estimated sulfate--methane transition zone (Estimated SMTZ) at 300-400 cm below sea floor (cmbsf), where a high abundance of anaerobic methane-oxidizing archaea (ANME) occurred, as revealed by analysis of the 16S rRNA gene and the gene (mcrA) encoding the α-subunit of the key enzyme methyl-coenzyme M reductase. ANME-2a/b was predominant in the upper and middle layers of the estimated SMTZ, whereas ANME-1b outcompeted ANME-2 in the sulfate-depleted bottom layers of the estimated SMTZ and the methanogenic zone. Fine-scale phylogenetic analysis further divided the ANME-1b group into three subgroups with different distribution patterns: ANME-1bI, ANME-1bII and ANME-1bIII. Multivariate analyses indicated that dissolved inorganic carbon and sulfate may be important factors controlling the composition of the methane-metabolizing community. Our study on ANME niche separation and interactions with other archaeal groups improves our understanding of the metabolic diversity and flexibility of ANME, and the findings further suggest that ANME subgroups may have evolved diversified/specified metabolic capabilities other than syntrophic anaerobic oxidation of methane coupled with sulfate reduction in marine sediments. [ABSTRACT FROM AUTHOR]

Published

2017