Your search keyword '"Gao, Jianhua"' showing total 14 results

1. Determination of Critical Shear Stresses for Erosion and Deposition Based on In Situ Measurements of Currents and Waves over an Intertidal Mudflat

Author

Shi, Benwei, Wang, Ya Ping, Yang, Yang, Li, Mingliang, Li, Peng, Ni, Wenfei, and Gao, Jianhua

Published

2015

2. Provenance Tracing of Indicative Minerals in Sediments of the Yalu River Estuary and its Adjacent Shallow Seas

Author

Liu, Yue, Cheng, Yan, Li, Huixiang, Liu, Jingwei, Zhang, Chunpeng, Zhang, Liang, Zheng, Cunde, and Gao, Jianhua

Published

2013

3. Coastal Embayment Long-Term Erosion/Siltation Associated with P-A Relationships: A Case Study from Jiaozhou Bay, China

Author

Liu, Yunling, Wang, Ya Ping, Li, Yan, Gao, Jianhua, Jia, Jianjun, Xia, Xiaoming, and Gao, Shu

Published

2012

4. Influence of Spartina Colonization on the Supply and Accumulation of Organic Carbon in Tidal Salt Marshes of Northern Jiangsu Province, China

Author

Gao, Jianhua, Bai, Fenglong, Yang, Yang, Gao, Shu, Liu, Zhiyong, and Li, Jun

Published

2012

5. Formation of Turbidity Maxima in the Yalu River Estuary, China

Author

Gao, Jianhua, Gao, Shu, Cheng, Yan, Dong, Lixian, and Zhang, Jing

Published

2004

6. Anthropogenic plutonium in the North Jiangsu tidal flats of the Yellow Sea in China

Author

Liu, Zhiyong, Zheng, Jian, Pan, Shaoming, and Gao, Jianhua

Published

2013

7. Effects of Meretrix meretrix on sediment thresholds of erosion and deposition on an intertidal flat.

Author

Li, Jiasheng, Wang, Ya Ping, Du, Jiabi, Luo, Feng, Xin, Pei, Gao, Jianhua, Shi, Benwei, Chen, Xindi, and Gao, Shu

Subjects

EROSION, SEDIMENTATION & deposition, TIDAL flats, SUSPENDED sediments, SEDIMENTS, SHEARING force

Abstract

Meretrix meretrix (M. meretrix) are commonly found on tidal flats along the global coastlines. They are believed to potentially affect the sedimentary processes and thus morphological dynamics on the tidal flat. Their effects on sediment erosion and deposition, however, are not well quantitatively understood. To fill this gap, we conducted an integrated synchronous field investigation of hydrodynamic, sediment properties, and macrobenthos at two nearby tidal flats, one with abundant M. meretrix and the other without. In addition, seasonal comparison between summer and winter for the M. meretrix abundant site, where there was much less M. meretrix in winter than in summer, was conducted to further examine the influence of M. meretrix on critical value for the initiation of sediment entrainment. The results show that the critical shear stress for erosion (τ e) in the M. meretrix abundant site was lower than the bare tidal flat by ~23%. Differently, for the critical shear stress for deposition (τ d), the value at the M. meretrix abundant site was greater than that at the bare tidal flat by ~30%. Overall, we concluded that the existence of M. meretrix tends to enhance both the erodibility of the sea bed and the deposition of suspended sediment in the water column. It is suggested that the effect of macrobenthos on sediment erosion/deposition should not be neglected when predicting long-term morphological changes of an intertidal flat. [ABSTRACT FROM AUTHOR]

Published

2021

8. Quantitative reconstruction of Holocene sediment sources contributing to the central Jiangsu coast, China: New insights into source‐to‐sink processes.

Author

Yang, Yang, Jia, Jianjun, Zhou, Liang, Gao, Jianhua, Gao, Wenhua, Shi, Benwei, Li, Zhanhai, Wang, Ya Ping, and Gao, Shu

Subjects

HOLOCENE Epoch, TIDAL flats, SEDIMENTS, SEDIMENT analysis, COASTS, TIME series analysis

Abstract

Coastal deltaic deposits are the primary locations for sediment storage on Earth, and quantifying their source contributions is a critical prerequisite for delineating S2S patterns in marginal seas. In most cases, quantification for the contribution by fine‐grained sediments (i.e. particle size < 63 μm) is considered to be representative to constrain the overall sediment supply. However, this approach may be inappropriate because large differences exist between the two quantities. Here we propose an approach to solve the problem, which is based on the maximum number of tracers from multiple sediment size fractions incorporating the content of all size fractions of sediment. Using this approach, absolute source contributions during the Holocene are reconstructed that provide a first‐order model for the S2S pattern of the central Jiangsu coast, China. The Huanghe River is the strongest driver for the Holocene sedimentation, with a mean contribution of ~72 ± 6% (1417 × 108 t). The absolute contributions from the Changjiang and offshore areas were of secondary importance, (i.e. ~17 ± 1% (330 × 108 t) and ~11 ± 5% (217 × 108 t), respectively). The results show that a large difference between the relative and absolute source contributions and the assumption that the relative contribution represents the absolute contribution is invalid in a coastal setting. The impact of the Huanghe is mainly based on episodic events, such as the event of 1128–1855 AD. The model also reveals that the offshore sediments are as important as the Changjiang sediments for the central Jiangsu coast during the Holocene. Thus, the model provides both the time series and overall quantities of sediment supply during the formation and evolution of the Holocene tidal flats on the Jiangsu coast. Our findings shed new light on quantitative analysis of sediment sources applicable to future S2S studies of marginal seas. © 2020 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2020

9. Sedimentary record of plutonium in the North Yellow Sea and the response to catchment environmental changes of inflow rivers.

Author

Xu, Yihong, Pan, Shaoming, Gao, Jianhua, Hou, Xiaolin, Ma, Yongfu, and Hao, Yongpei

Subjects

*PLUTONIUM isotopes, *SEDIMENTATION & deposition, *NUCLEAR weapons, *SOIL erosion, *SEDIMENTS

Abstract

Plutonium (Pu) isotopes were first determined in surface and core sediment samples collected from the northern North Yellow Sea (NYS) to elucidate their source terms and deposition process as well as the response to catchment environmental changes of inflow rivers. 240 Pu/ 239 Pu atom ratios in all sediments showed the typical global fallout value of ∼0.18 without any influences from the nuclear weapons tests conducted recently in the North Korea or early in the Pacific Proving Ground. The large variation of 239+240 Pu activities (0.022–0.515 mBq/g) observed in surface sediments should be mainly attributed to the re-suspension and transportation of fine sediments influenced by the Liaonan Costal Current. Based on the two 239+249 Pu depth profiles with easily observed onset fallout levels (1952) and global fallout peaks (1963), 239+240 Pu served as a valid time mark in the coastal sedimentary system. Riverine input Pu contributed only 15–27% to the total global fallout inventory (92.5–108.8 Bq/m 2 ) in the northern NYS, much lower than that in the Yangtze River estuary (77–80%), indicating a better soil conservation in the northeast China due to higher forest coverage compared to the Yangtze River's drainage basin. The increase of riverine input Pu after 1980s reflected the more intense soil erosion degree caused by the land use and cover change due to the increment of human activities in the northeast China at the same period. Our results demonstrated that plutonium is a good indicator for studying sedimentary process and its response to the environment in the coastal area. [ABSTRACT FROM AUTHOR]

Published

2018

10. Quantifying the anthropogenic and climatic contributions to changes in water discharge and sediment load into the sea: A case study of the Yangtze River, China.

Author

Zhao, Yifei, Zou, Xinqing, Gao, Jianhua, Xu, Xinwanghao, Wang, Chenglong, Tang, Dehao, Wang, Teng, and Wu, Xiaowei

Subjects

*EFFECT of human beings on climate change, *SEDIMENTS, *HYDROLOGICAL stations, *METEOROLOGICAL stations

Abstract

Based on data from the Datong hydrological station and 147 meteorological stations, the influences of climate change and human activities on temporal changes in water discharge and sediment load were examined in the Yangtze River basin from 1953 to 2010. The Mann–Kendall test, abrupt change test (Mann–Kendall and cumulative anomaly test), and Morlet wavelet method were employed to analyze the water discharge and sediment load data measured at the Datong hydrological station. The results indicated that the annual mean precipitation and water discharge exhibited decreasing trends of − 0.0064 mm/10 yr and − 1.41 × 10 8 m 3 /yr, respectively, and that the water sediment load showed a significant decreasing trend of − 46.5 × 10 6 t/yr. Meanwhile, an abrupt change in the water discharge occurred in 2003. The sediment load also exhibited an abrupt change in 1985. From 1970 to 2010, the climate change and human activities contributed 72% and 28%, respectively, to the water discharge reduction. The human-induced decrease in the sediment load was 914.03 × 10 6 t/yr during the 1970s and 3301.79 × 10 6 t/yr during the 2000s. The contribution from human activities also increased from 71% to 92%, especially in the 1990s, when the value increased to 92%. Climate change and human activities contributed 14% and 86%, respectively, to the sediment load reduction. Inter-annual variations in water discharge and sediment load were affected by climate oscillations and human activities. The effect of human activities on the sediment load was considerably greater than those on water discharge in the Yangtze River basin. [ABSTRACT FROM AUTHOR]

Published

2015

11. Identification of sediment provenance in the South Yellow Sea using detrital amphibole geochemistry.

Author

Wang, Mengyao, Jin, Bingfu, Gao, Jianhua, Wang, Xin, and Jia, Jianjun

Subjects

*AMPHIBOLES, *SEDIMENTS, *TERRIGENOUS sediments, *RIVER sediments, *TRACE elements, *GEOCHEMISTRY, *SPATIAL variation, *SEDIMENT transport

Abstract

Marginal seas are major sinks of fluvial sediments. Identifying the sources and quantifying the contributions of different sources are essential to studying the transport and distribution of terrestrial sediments on the shelves of marginal seas. The South Yellow Sea (SYS) to the east of the Asian continent receives sediment discharged by the Huanghe (Yellow) and Changjiang (Yangtze) rivers, and it is a favorable location for studying the provenance of marginal sea deposits. In this study, we tested the geochemistry of amphibole in different grain-size fractions (very fine sand and coarse silt) of the SYS sediments, and compared this geochemistry with those of fractions in the Huanghe River (HH) and the Changjiang River (CJ) to quantify the terrestrial provenance of the sea. The results show that for the very fine sand fraction, Zr, Be, Ga, Ge, Nb, Cd, and Hf in amphibole can be used as indicators to discriminate between the HH and CJ sediments. For the coarse silt fraction, the trace elements of Ba, Zr, Li, Rb, and Hf in amphibole can be used to distinguish the sediment of the two rivers. The mean contribution of the HH sediment to the very fine sand and coarse silt fractions of SYS is 45.0% ± 6.7% and 57.6% ± 5.9%, respectively, compared with 54.8% ± 6.7% and 42.4% ± 5.9% for the CJ, respectively. Provenance analysis of amphibole reveals spatial variation in the supply of terrigenous sediment to different parts of the SYS: the nearshore area of the Shandong Peninsula and the sea areas adjacent to the abandoned Huanghe River (FHH) estuary are supplied mainly by the HH, whereas the South and eastern parts of the SYS are supplied predominantly by the CJ. In the SYS sediment of very fine sand, a line extending from 34°N, 121°E to 35°N, 123°E demarcates the boundary between areas supplied by the HH (north) and the CJ (south), while coarse silt has a longer transport distance and higher mixing degree compared with very fine sand. This study demonstrates that quantitative analysis of the trace-element geochemistry of detrital amphibole can discriminate terrigenous sediment provenance in the mixed area of the marginal sea. • Provenance analysis new strategy: the geochemical elements of amphibole • The tracer indexes are selected to distinguish the Yellow and Yangtze Rivers • Quantification and transport diffusion of fluvial materials in marginal sea [ABSTRACT FROM AUTHOR]

Published

2022

12. Mechanisms of maintaining high suspended sediment concentration over tide-dominated offshore shoals in the southern Yellow Sea.

Author

Xiong, Jilian, Wang, Xiao Hua, Wang, Ya Ping, Chen, Jingdong, Shi, Benwei, Gao, Jianhua, Yang, Yang, Yu, Qian, Li, Mingliang, Yang, Lei, and Gong, Xulong

Subjects

*SEDIMENTS, *MARINE ecology, *BANKS (Oceanography), *SHEARING force, *TIDAL currents

Abstract

An understanding of the dynamics and behaviors of suspended sediments is vital in analysis of morphological, environmental, and ecological processes occurring in coastal marine environments. To study the mechanisms of maintaining high suspended sediment concentrations (SSCs) on a tide-dominated offshore shoal, we measured water depths, current velocities, SSCs, wave parameters and bottom sediment compositions in the southern Yellow Sea. These data were then used to calculate bottom shear stresses generated by currents ( τ c ), waves ( τ w ), and wave–current interactions ( τ cw ). SSCs time series exhibited strong quarter-diurnal peaks during spring tides, in contrast to the semidiurnal signal during neap tides. A Fourier analysis showed that suspended sediment variations within tidal cycles was mainly controlled by resuspension in most stations. There existed relatively stable background SSCs (maintaining high SSCs among tidal cycles) values at all four stations during both windy (wind speed > 9.0 m/s) and normal weather conditions (wind speed < 3.0 m/s). The background SSCs had strong relationship with spring/neap-averaged τ cw , indicating background SSCs were mainly controlled by mean bottom shear stress, with a minimum value of 0.21 N/m 2 . On account of the strong tidal currents, background SSCs of spring tides were greater than that of neap tides. In addition, on the base of wavelet, statistics analyses and turbulence dissipation parameter, background SSCs during slack tide in the study area may be maintained by intermittent turbulence events induced by a combined tidal current and wave action. [ABSTRACT FROM AUTHOR]

Published

2017

13. Sea level change and Kuroshio intrusion dominated Taiwan sediment source-to-sink processes in the northeastern South China Sea over the past 244 kyrs.

Author

Zhang, Chi, Yang, Shouye, Huang, Xiangtong, Dou, Yanguang, Li, Fangliang, Xu, Xinning, Hao, Qiang, and Gao, Jianhua

Subjects

*TERRIGENOUS sediments, *RARE earth metals, *SEDIMENTS, *CONTINENTAL slopes, KUROSHIO

Abstract

The terrigenous sediment source-to-sink processes in continental margins are determined by complex interactions among climate, sediment discharge, sea level and oceanic circulations on various temporal and spatial scales. The northeastern South China Sea (NSCS) margin is a natural laboratory to catch a glimpse of these processes due to large amounts of terrigenous sediment inputs and continuous sedimentations during the late Quaternary. Based on a 35 m-long sedimentary sequence (core MD12-3429) retrieved from the NSCS upper continental slope, we distinguished sediment sources based on geochemical compositions, and then linked sedimentary responses to sea level change and Kuroshio intrusion over the past 244 kyrs via various sedimentary records including mass accumulation rates (MAR), foraminifera data, grain-size end-member modeling (EMM) and spectral analysis. Geochemical proxies including major element ratios and fractionation parameters of rare earth elements suggest that the detrital sediment in the core was derived primarily from the Taiwan. The MAR of terrigenous sediment yields an average 9.6 g/cm2/kyr, and high MAR values are both observed in glacial and interglacial intervals. The results of EMM reveal three end-members with dominant modal grain sizes of 6.6 μm (EM1), 26.3 μm (EM2) and 49 μm (EM3), respectively. The temporal variations of the finest end-member (EM1) and the coarsest end-member (EM3) demonstrate clearly glacial-interglacial cyclicity, and the spectral analysis indicates the dominance of 100-kyr eccentricity, which suggests that sea level changes are the first-order control for the NSCS continental margin sedimentation. In addition, the temporal variations in hydrodynamic sensitive component (EM2) and its MAR display gradually increasing trends with weakening East Asian monsoon. Combing with modern observation and modeling results, we suggest that enhanced Kuroshio intrusion might account for the transport of Taiwan-derived sediment during the late Quaternary. As indicated by a 31 kyr periodicity in EM2, we infer that the development of El Niño-like condition strengthened the intrusion of oligotrophic Kuroshio from the Luzon Strait, resulting in the obvious increase of Taiwan terrigenous MAR but decreases of the primary productivity in the northeastern South China Sea. This study provides deep insight into the complex terrigenous sediment source-to-sink processes in a fast-changing marginal sea environment during the late Quaternary. • Sea-level change was the primary control for terrigenous sediment source-to-sink processes in the NSCS since MIS7. • Strengthened intrusion of Kuroshio dominated Taiwan sediments transport. • Kuroshio intrusion and ENSO forcing were coupled on glacial-interglacial scale. • Grain size end-member modeling provides insights into sedimentary response to changes of sea level and oceanic circulation. [ABSTRACT FROM AUTHOR]

Published

2022

14. A comparison study on the sediment flocculation process between a bare tidal flat and a clam aquaculture mudflat: The important role of sediment concentration and biological processes.

Author

Li, Jiasheng, Chen, Xindi, Townend, Ian, Shi, Benwei, Du, Jiabi, Gao, Jianhua, Chuai, Xiaowei, Gong, Zheng, and Wang, Ya Ping

Subjects

*TIDAL flats, *FLOCCULATION, *PARTICLE size distribution, *SEDIMENTS, *AQUACULTURE, *SUSPENDED sediments

Abstract

The flocculation process of cohesive sediment impacts upon estuaries and tidal flats by affecting the sediment dynamics, modifying the biogeochemical exchanges, and playing an essential role in coastal ecosystems and geomorphologic evolution. To understand the roles of biological activity on flocculation processes in aquaculture areas, here we undertook in situ measurements over a bare tidal flat and a nearby clam aquaculture mudflat on the Jiangsu coast, China. Near-bed in situ floc size, the grain size distribution of suspended particles in seawater, suspended sediment concentration (SSC), and currents were obtained for nine consecutive semidiurnal tidal cycles simultaneously at the two sites. Correlation analysis indicated that the flocculation and its break-up process in this study appeared to be controlled by the variations in SSC and bottom shear stress due to combined wave and current. The floc sizes showed less difference between the two sites under calm conditions. However, the near-bed in situ floc size in the aquaculture mudflat was 23% larger than that in the bare tidal flat in the severe erosion events, suggesting modulation of the flocculation process due to the extracellular polymeric substances (EPS) eroded from the seabed sediments at the aquaculture site, as the hydrodynamics were very similar between the two sites. A higher EPS content was observed in the sediment layer below the surface seabed at the aquaculture site. We conclude that abundant filter feeders alter floc properties and enhance flocculation by excretion of exopolymer particles. • The higher EPS contents in sediment were observedat aquaculture site. • The near-bed in situ floc size in the aquaculture mudflat was much larger. • Negative relationships were found between SSC, turbulent and floc size. [ABSTRACT FROM AUTHOR]

Published

2021