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Fractal characterization of sediment particle-size distribution in the water-level fluctuation zone of the Three Gorges Reservoir, China 被引量:7
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作者 LI Jin-lin BAO Yu-hai +3 位作者 WEI Jie HE Xiu-bin TANG Qiang Jean de Dieu NAMBAJIMANA 《Journal of Mountain Science》 SCIE CSCD 2019年第9期2028-2038,共11页
The combined effect of periodic water impoundment and seasonal natural flood events has created a 30 m high water-level fluctuation zone(WLFZ) around the Three Gorges Reservoir(TGR), China, forming a unique eco-landsc... The combined effect of periodic water impoundment and seasonal natural flood events has created a 30 m high water-level fluctuation zone(WLFZ) around the Three Gorges Reservoir(TGR), China, forming a unique eco-landscape. Siltation, eutrophication, enrichment of heavy metals, and methane emissions in the WLFZ have been widely associated with sediment and soil particles generated from the upstream catchment or upland slopes. However, little attention has been paid to the complexity of sediment particle-size distributions in the WLFZ. In the present study, core samples(from a 345 cm thick sediment core from the base of the WLFZ), slope transect surface samples(across/up a WLFZ slope), and along-river/longitudinal surface samples(from the reservoir reaches) were collected. Laser granulometry and a volume-based fractal model were used to reveal the characteristics of sediment particle-size distributions. Results indicate that the alternation of coarse and fine particles in the sedimentary core profile is represented as a fluctuation of low and high values of fractal dimension(D), ranging from 2.59 to 2.77. On the WLFZ slope transect, surface sediment particles coarsen with increasing elevation, sand content increases from 3.3% to 78.5%, and D decreases from 2.76 to 2.53. Longitudinally, surface sediments demonstrate a downstream-fining trend, and D increases gradually downstream. D is significantly positively correlated with the fine particle content. We conclude that D is a useful measure for evaluating sediment particle-size distribution. 展开更多
关键词 Spatial DIFFERENTIATION SEDIMENT particle FRACTAL dimension water-level fluctuation zone Three Gorges Reservoir
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Role of the rhizosphere of a flooding-tolerant herb in promoting mercury methylation in water-level fluctuation zones
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作者 Juan Wang Yuping Xiang +6 位作者 Xiaosong Tian Cheng Zhang Guiqing Gong Jinping Xue Tao Jiang Dingyong Wang Yongmin Wang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2022年第9期139-151,共13页
The water-level fluctuation zone(WLFZ) has been considered as a hotspot for mercury(Hg) methylation. Flooding-tolerant herbs are gradually acclimated to this water-land ecotone, tending to form substantial root system... The water-level fluctuation zone(WLFZ) has been considered as a hotspot for mercury(Hg) methylation. Flooding-tolerant herbs are gradually acclimated to this water-land ecotone, tending to form substantial root systems for improving erosion resistance. Accompanying rhizosphere microzone plays crucial but unclear roles in methylmercury(Me Hg) formation in the WLFZ. Thus, we conducted this study in the WLFZ of the Three Gorges Reservoir, to explore effects of the rhizosphere of a dominant flooding-tolerant herb(bermudagrass) on Me Hg production. The elevated Hg and Me Hg in rhizosphere soils suggest that the rhizosphere environment provides favorable conditions for Hg accumulation and methylation. The increased bioavailable Hg and microbial activity in the rhizosphere probably serve as important factors driving Me Hg formation in the presence of bermudagrass. Simultaneously, the rhizosphere environments changed the richness, diversity, and distribution of hgc A-containing microorganisms. Here, a typical ironreducing bacterium( Geobacteraceae) has been screened, however, the majority of hgc A genes detected in rhizosphere, near-, and non-rhizosphere soils of the WLFZ were unclassified. Collectively, these results provide new insights into the elevated Me Hg production as related to microbial processes in the rhizosphere of perennial herbs in the WLFZ, with general implications for Hg cycling in other ecosystems with water-level fluctuations. 展开更多
关键词 Three Gorges Reservoir water-level fluctuation zone Rhizosphere soil METHYLMERCURY Mercury methylator
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Influence of the Repeated Flooding on Growth and Development of Acorus calamus Vegetation in Water-level-fluctuation Zone of the Three Gorges Reservoir
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作者 LI Qiang 《Meteorological and Environmental Research》 2012年第7期23-27,共5页
[ Objective] The research aimed to study influence of the repeated flooding on growth and development of A. calamus in water-level-fluc- tuation zone of the Three Gorges Reservoir. [ Method] A. calamus plants were exp... [ Objective] The research aimed to study influence of the repeated flooding on growth and development of A. calamus in water-level-fluc- tuation zone of the Three Gorges Reservoir. [ Method] A. calamus plants were exposed to water under the dark conditions respectively in Septem- ber 2009 and September 2010. Then, they were taken away from the water, and grew in natural conditions in the following March and April respec- tively ( marked as S1, S2, S1 and S2). The plant number was conducted statistics respectively. On May 7, the leaf number was made statistics. Length, width and rapid light responding curve of the leaf were determined. [ Result] Repeated flooding restrained significantly plant germination un- der the dark condition. Plant number in S1 and S2 groups decreased by 38.9% and 33.3% respectively compared with the control. It also reduced survival rate of the plant. Plant number in S2 group decreased by 16.7% (P 〈 0.05) compared with that of S2 group when they were taken away from the water. Both of flooding promoted elongation of the leaves, restrained leaves to grow wider, and also restrained leaf formation of the plants except for S1 and S1 groups. Total leaf length of a plant decreased markedly after the second flooding which in S1 and S2 groups were 50.6% and 36.9% respectively less than that after the first flooding. Total leaf number of the plant in S1and S2 groups reduced significantly, and they were only 63.1% and 38.5% respectively of the control. Compared with the first flooding, total leaf length of a plant in the control increased signifi- cantly and decreased remarkably in S2 group after the second flooding. Furthermore, light response ability of the relative electronic transfer rate (rETR) in S1 group wasn't significantly different from the control, and rETRmax, in S2 group was significantly less than the control. Moreover, non- photochemical quenching (NPQ) decreased remarkably in S1 and S2 groups. It indicated that A. calamus had good restore ability of the light re- sponse, but restoring of its heat dissipation capacity was slower. [ Conclusion] Repeated flooding inhibited plant growth and population recovery of A. calamus under the dark condition. 展开更多
关键词 A. calamus FLOODING water-level-fluctuation zone Growth and development China
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The cooling fluctuation events during Holocene in the tropical zone of China 被引量:4
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作者 HUANG Zhen-guo, ZHANG Wei-qiang (Guangzhou Institute of Geography, Guangzhou 510070, China) 《Journal of Geographical Sciences》 SCIE CSCD 2002年第1期91-98,共8页
Forty-eight samples are chosen to discuss the distribution in space and time of the cooling fluctuation events during Holocene in the tropical zone of China in this paper. The authors consider that the Neoglaciations ... Forty-eight samples are chosen to discuss the distribution in space and time of the cooling fluctuation events during Holocene in the tropical zone of China in this paper. The authors consider that the Neoglaciations II and III (or Cooling Event) have a widespread impact on the drop in temperature of 1–2 °C or less than 2 °C. The YD Event was dated at 11,300-10,200 a BP in the tropical mainland and its dating is 11,400-10,500 a BP in the sea area with a drop in temperature of 4–6 °C. The distribution of Event B and Neoglaciation I is taking a position of north, with a drop in temperature of 2.5–3.0 °C. The Cooling Event shows the temporality in time. The Cooling Event shows the limitation of regional distribution with a drop in temperature of less than 1.5°C. The more recent the cooling event is, the smaller the drop amplitude in temperature will be. In the eastern part of tropical zone seven events are complete in all varieties but the cooling fluctuation is weaker in the western part. In Hainan Island and South China Sea the appearance of cooling fluctuations is synchronous with each other. 展开更多
关键词 cooling fluctuation tropical zone China
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Effects of seasonal water-level fluctuation on soil pore structure in the Three Gorges Reservoir,China 被引量:9
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作者 ZHANG Shu-juan TANG Qiang +5 位作者 BAO Yu-hai HE Xiu-bin TIAN Feng-xia LüFa-you WANG Ming-feng Raheel ANJUM 《Journal of Mountain Science》 SCIE CSCD 2018年第10期2192-2206,共15页
Inundation of the Three Gorges Reservoir has created a 30-m water-level fluctuation zone with seasonal hydrological alternations of submergence and exposure, which may greatly affect soil properties and bank stability... Inundation of the Three Gorges Reservoir has created a 30-m water-level fluctuation zone with seasonal hydrological alternations of submergence and exposure, which may greatly affect soil properties and bank stability. The aim of this study was to investigate the response of soil pore structure to seasonal water-level fluctuation in the reservoir, and particularly, the hydrological change of wetting and drying cycles. Soil pore structure was visualized with industrial X-ray computed tomography and digital image analysis techniques. The results showed that soil total porosity(? 100 ?m), total pore number, total throat number, and mean throat surface area increased significantly under wetting and drying cycles. Soil porosity, pore number and throat numberwithin each size class increased in the course of wetting and drying cycles. The coordination number, degree of anisotropy and fractal dimension were indicating an increase. In contrast, the mean shape factor, pore-throat ratio, and Euler-Poincaré number decreased due to wetting and drying cycles. These illustrated that the wetting and drying cycles made soil pore structure become more porous, continuous, heterogeneous and complex. It can thus be deduced that the water-level fluctuation would modify soil porosity, pore size distribution, and pore morphology in the Three Gorges Reservoir, which may have profound implications for soil processes, soil functions, and bank stability. 展开更多
关键词 Soil pore structure X-ray computed tomography Image analysis Wetting and drying cycles water-level fluctuation Three Gorges
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THE RELATIONSHIP BETWEEN INLAND LAKES EVOLUTION AND CLIMATIC FLUCTUATION IN ARID ZONE 被引量:1
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作者 秦伯强 施雅风 王苏民 《Chinese Geographical Science》 SCIE CSCD 1991年第4期26-33,共8页
The evolution of the inland lakes in arid and semi-arid zones is accorded with the climatic fluctuation. The humid climate is in harmony with the higher water level and greater lake water quantity budget while arid cl... The evolution of the inland lakes in arid and semi-arid zones is accorded with the climatic fluctuation. The humid climate is in harmony with the higher water level and greater lake water quantity budget while arid climate is in correspondence with the lower water level and little water budget. Based on the analysis of the lake fluctuation and lake budget change, with the aid of the data of geom’orphology, palynology, sedimentology and chronology, It is found that the climate experienced a warm and humid period during 7000-3500 yr. B. P. and showed a drying and warming trend in the last century in the Central Asia. 展开更多
关键词 CLIMATIC fluctuation INLAND LAKES lake EVOLUTION ARID zone
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Soil anti-scourability enhanced by herbaceous species roots in a reservoir water level fluctuation zone 被引量:3
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作者 XU Wen-xiu YANG Ling +2 位作者 BAO Yu-hai LI Jin-lin WEI Jie 《Journal of Mountain Science》 SCIE CSCD 2021年第2期392-406,共15页
Revegetation is one of the successful approaches to soil consolidation and streambank protection in reservoir water level fluctuation zones(WLFZs).However,little research has been conducted to explore the impact of he... Revegetation is one of the successful approaches to soil consolidation and streambank protection in reservoir water level fluctuation zones(WLFZs).However,little research has been conducted to explore the impact of herbaceous species roots on soil anti-scourability during different growth stages and under different degrees of inundation in this zone.This study sampled two typical grasslands(Hemarthria compressa grassland and Xanthium sibiricum grassland)at two elevations(172 and 165 m a.s.l.)in the water level fluctuation zone(WLFZ)in the Three Gorges Reservoir(TGR)of China to quantify the changes in soil and root properties and their effects on soil anti-scourability.A simulated scouring experiment was conducted to test the soil anti-scourability in April and August of 2018.The results showed that the discrepancy in inundation duration and predominant herbaceous species was associated with a difference in root biomass between the two grasslands.The root weight density(RWD)values in the topsoil(0-10 cm)ranged from 7.31 to 13 mg cm^(-3) for the Hemarthria compressa grassland,while smaller values ranging from 0.48 to 8.61 mg cm^(-3) were observed for the Xanthium sibiricum grassland.In addition,the root biomass of the two herbs was significantly greater at 172 m a.s.l.than that at 165 m a.s.l.in the early recovery growth period(April).Both herbs can effectively improve the soil properties;the organic matter contents of the grasslands were 128.06%to 191.99%higher than that in the bare land(CK),while the increase in the water-stable aggregate ranged from 8.21%to 18.56%.Similarly,the topsoil antiscourability indices in both the herbaceous grasslands were larger than those in the CK.The correlation coefficients between the root length density(RLD),root surface area density(RSAD)and root volume density(RVD)of fine roots and the soil antiscourability index were 0.501,0.776 and 0.936,respectively.Moreover,the change in the soil antiscourability index was more sensitive to alternations in the RLD with diameters less than 0.5 mm.Overall,the present study showed that the perennial herbaceous(H.compressa)has great potential as a countermeasure to reduce or mitigate the impact of erosion in the WLFZ of the Three Gorges Reservoir. 展开更多
关键词 Herbaceous species root system Soil anti-scourability Water level fluctuation zone Three Gorges Reservoir
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Protection and Ecological Restoration of Water Level Fluctuation Zone in the Three Gorges Reservoir 被引量:1
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作者 PAN Xiaojie WAN Chengyan +1 位作者 ZHANG Zhiyong ZHENG Zhiwei 《Journal of Landscape Research》 2017年第1期44-50,共7页
Water level fluctuation zone(hereinafter referred to as "WLFZ") is a transitional ecosystem between terrestrial ecosystem and aquatic ecosystem,and also a key area to control its neighboring terrestrial and ... Water level fluctuation zone(hereinafter referred to as "WLFZ") is a transitional ecosystem between terrestrial ecosystem and aquatic ecosystem,and also a key area to control its neighboring terrestrial and aquatic ecosystem. After the Three Gorges Reservoir was put into use,ecological environment of its WLFZ has aroused wide concern from domestic and foreign experts. On the basis of introducing characteristics of WLFZ of the Three Gorges Reservoir,current ecological environment and main problems of this area were analyzed,plant selection and configuration was elaborated as well as the implementation effect of many WLFZ protection and ecological restoration modes. In view of the actual conditions,pertinent suggestions were proposed for WLFZ of the Three Gorges Reservoir,namely classified protection and ecological restoration,enhancing monitoring and assessment of current situation and change tendency,carrying out technical researches and demonstration of WLFZ wetland ecological restoration. 展开更多
关键词 Three Gorges Reservoir Water level fluctuation zone(WLFZ) Ecological restoration Classified protection
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Evolution Mechanism of Slip Zone Under Fluctuation of Ground Water Table of Landslide
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作者 Bo Chai~1,Kunlong Yin~2 1.School of Environmental Studies,China University of Geosciences(Wuhan),Wuhan 430074,China. 2.Engineering Faculty,China University of Geosciences(Wuhan),Wuhan 430074,China 《地学前缘》 EI CAS CSCD 北大核心 2009年第S1期55-56,共2页
The fluctuation of ground water table of landslide caused by the changing of rain fall and reservoir water level leads the slip zone to possess the complicated deformation features of stepped and vibration.Actual role... The fluctuation of ground water table of landslide caused by the changing of rain fall and reservoir water level leads the slip zone to possess the complicated deformation features of stepped and vibration.Actual role of the ground water fluctuation to landslide is the synthesis of pore pressure,chemical intenerating 展开更多
关键词 GROUNDWATER fluctuation SLIP zone LANDSLIDE
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Water-Level Fluctuations of Urmia Lake: Relationship with the Long-Term Changes of Meteorological Variables (Solutions for Water-Crisis Management in Urmia Lake Basin)
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作者 Mojtaba Zoljoodi Ali Didevarasl 《Atmospheric and Climate Sciences》 2014年第3期358-368,共11页
Urmia Lake in northwest of Iran, through the recent years has been extremely faced with the water crisis. Climate variations and anthropogenic impacts could be two main affiliated factors in this regard. We considered... Urmia Lake in northwest of Iran, through the recent years has been extremely faced with the water crisis. Climate variations and anthropogenic impacts could be two main affiliated factors in this regard. We considered the long term data series of precipitation, temperature and evaporation in monthly and yearly scales in order to compare to water-level values of Urmia Lake. The statistics approaches such as: standard deviation, trend analysis, T test, Pearson and Spearman correlations, liner regression are used to analyze all variables. The results released that the water-level of Urmia Lake along with the precipitation and temperature of the lake’s basin have experienced the periodic changes through 1961 to 2010, as there are some gradual dryness trends on the study area according to precipitation and temperature variations. Urmia Lake periodic water-level fluctuations show more significant correlation to temperature than the precipitation. Whiles, the water-level’s decreasing behavior especially through 1998 to 2010 is more harsh and different than the rate that is considered for precipitation’s decrease and temperature’s increase. Thus, there could be some anthropogenic factors in the basin which produced some supplementary causes to shrink Urmia Lake. Extracting the double precipitation over the basin through introducing and categorizing of atmospheric synoptic systems in order to cloud seeding operation could be one of urgent and innovative solutions to mitigate water crisis in the basin. 展开更多
关键词 Urmia LAKE water-level fluctuation Climate Variations WATER CRISIS ANTHROPOGENIC Impacts Cloud SEEDING Operation
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双酚A在消落带土壤中的吸附/解吸及降解行为
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作者 胡莺 孙姣霞 秦燕 《中国环境科学》 EI CAS CSCD 北大核心 2024年第10期5705-5713,共9页
为探究双酚A(BPA)在消落带的环境行为,于涪陵清溪消落带采集不同高程土壤样品(S_(L):155m,S_(M):160m,S_(H):165m),开展批量吸附/解吸和模拟降解实验,研究了BPA在消落带土壤中的吸附、解吸及降解行为.15℃、25℃、35℃条件下,各高程土壤... 为探究双酚A(BPA)在消落带的环境行为,于涪陵清溪消落带采集不同高程土壤样品(S_(L):155m,S_(M):160m,S_(H):165m),开展批量吸附/解吸和模拟降解实验,研究了BPA在消落带土壤中的吸附、解吸及降解行为.15℃、25℃、35℃条件下,各高程土壤对BPA的吸附等温线符合Freundlich模型,吸附能力均随温度升高而降低,并表现出一定吸附非线性.各实验温度下,消落带土壤对BPA的吸附能力均与土壤有机质含量趋势一致,随采样高程降低而增加(S_(L)>S_(M)>S_(H)).吸附热力学参数ΔG、ΔH和ΔS均小于0,BPA在消落带土壤中的吸附为自发、放热的熵减过程,受物理吸附主导.解吸迟滞系数HI(0.853-0.981)接近1,BPA在消落带土壤中的解吸迟滞性不明显,易于解吸释放.25℃实验条件下,BPA在消落带土壤中的降解半衰期为S_(L)(4.88d)<S_(M)(6.68d)<S_(H)(10.07d),落干期较长区域的土壤中BPA降解速率更低.10℃条件下,BPA在土壤S_(H)中的降解半衰期延长至12.01d,分别为25℃的1.19倍和35℃的1.20倍,低温条件抑制BPA的降解. 展开更多
关键词 双酚A 消落带 吸附 解吸 降解
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周期性水位波动对三峡水库消落带土壤有机碳含量和密度的影响
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作者 王鹏 冉义国 +3 位作者 梅渝 马茂华 黄平 吴胜军 《土壤》 CAS CSCD 北大核心 2024年第3期672-680,共9页
为探究水位波动对三峡水库消落带土壤有机碳的影响,在三峡水库消落带采集和测定了受不同水淹强度影响的石灰土、紫色土、黄壤及其植物样品,并运用Kruskal-Wallis非参数检验和基于冗余分析的典范分析等方法进行了研究。结果表明:周期性... 为探究水位波动对三峡水库消落带土壤有机碳的影响,在三峡水库消落带采集和测定了受不同水淹强度影响的石灰土、紫色土、黄壤及其植物样品,并运用Kruskal-Wallis非参数检验和基于冗余分析的典范分析等方法进行了研究。结果表明:周期性水淹增加了石灰土和紫色土的有机碳含量和密度,但降低了黄壤的有机碳含量和密度。此外,石灰土的有机碳分布还受地上生物量、土壤pH和土层深度的影响,紫色土的有机碳分布还受土层深度和地上生物量的影响,而黄壤的有机碳含量和密度则与地上生物量、土层深度和地下生物量有关。总之,周期性水位波动对消落带土壤有机碳影响深刻,但土壤类型分异了有机碳对水位波动的响应。 展开更多
关键词 三峡水库 消落带 土壤有机碳 有机碳密度
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考虑消落带岩体劣化影响的典型危岩岸坡稳定性研究
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作者 刘新荣 王浩 +3 位作者 郭雪岩 罗新飏 周小涵 许彬 《岩土力学》 EI CAS CSCD 北大核心 2024年第2期563-576,共14页
三峡库区周期性水位升降引起的消落带岩体劣化对典型危岩岸坡稳定性具有重大影响。基于野外调研及地勘资料,采用通用离散单元法程序(universal distinct element code,简称UDEC)研究了消落带劣化区形态对近水平层状高陡危岩岸坡的稳定... 三峡库区周期性水位升降引起的消落带岩体劣化对典型危岩岸坡稳定性具有重大影响。基于野外调研及地勘资料,采用通用离散单元法程序(universal distinct element code,简称UDEC)研究了消落带劣化区形态对近水平层状高陡危岩岸坡的稳定性影响。研究表明:目前三峡库区巫山段的近水平层状危岩岸坡消落带岩体劣化严重,在不同消落带劣化区存在紧密层状、松散碎裂状、溶蚀凹腔状、含挤压碎裂带等典型消落带劣化区形态;含有第1种消落带劣化区形态的危岩岸坡稳定性较好,危岩体位移较小,失稳模式为滑移破坏;含有第2种消落带劣化区形态的危岩岸坡危岩体先向坡内偏移,其后随着消落带岩体支撑强度弱化向坡外倾倒破坏;含有第3种消落带劣化区形态的危岩岸坡危岩体向坡外位移较大,失稳模式为倾倒破坏;含有第4种消落带劣化区形态的危岩岸坡稳定性主要受挤压破碎带的力学性质控制,易产生沿破碎带切割面的旋转滑移破坏;通过对以上4种劣化区形态的危岩岸坡增加防治加固措施,危岩体的变形位移得到了不同程度的有效控制。 展开更多
关键词 危岩岸坡 消落带劣化区形态 野外调研 通用离散单元法程序(UDEC) 数值模拟 劣化特征 稳定性
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南四湖消落带底泥中磷及微生物群落结构研究
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作者 张彦浩 杨月彪 +2 位作者 赵强 周冉 张志斌 《山东建筑大学学报》 2024年第3期128-134,共7页
研究不同频率干湿交替条件下,南四湖消落带底泥磷形态变化及其与生物群落结构的关联性,可为维持南四湖消落带水生态系统健康及保障南四湖水质提供技术支持。文章模拟了南四湖消落带底泥不同频率干湿交替过程,通过高通量测序技术分析了... 研究不同频率干湿交替条件下,南四湖消落带底泥磷形态变化及其与生物群落结构的关联性,可为维持南四湖消落带水生态系统健康及保障南四湖水质提供技术支持。文章模拟了南四湖消落带底泥不同频率干湿交替过程,通过高通量测序技术分析了底泥生物群落的变化特征。结果表明:在干湿交替过程中,底泥总磷、无机磷呈降低趋势,而有机磷基本保持不变;不同干湿交替过程中消落带底泥微生物群落结构比较稳定,但群落丰度变化显著;频繁干湿交替不利于消落带底泥保持微生物多样性;消落带底泥中蓝藻门(Cyanobacteria)和疣微菌门(Verrucomicrobiota)与底泥中NaOH-P呈显著负相关,变形菌门(Proteobacteria)与总磷则呈正相关。 展开更多
关键词 消落带 南四湖 微生物群落结构 干湿交替
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城市湿地公园消落带景观生态重建模式探讨——以南昌市马兰圩湿地公园为例
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作者 魏绪英 王佩怡 吴淑贞 《江西科学》 2024年第2期445-451,共7页
消落带区域因季节性淹没与裸露,水流反复冲刷,加之人类活动频繁,是城市生态系统的生态敏感区和脆弱区。前人相关研究多聚焦于三峡库区或大江大河的消落带土壤、植被、生境与污染物等方面,较少关注城市湿地公园的消落带,尤其是其生态重... 消落带区域因季节性淹没与裸露,水流反复冲刷,加之人类活动频繁,是城市生态系统的生态敏感区和脆弱区。前人相关研究多聚焦于三峡库区或大江大河的消落带土壤、植被、生境与污染物等方面,较少关注城市湿地公园的消落带,尤其是其生态重建与生态恢复方面。以南昌市马兰圩湿地公园消落带为例,系统分析了其消落带的现状及存在的问题,并基于此提出了湿地公园消落带的生态重建原则与模式,以最大限度地恢复这一区域的生态、环境和经济功能,从而为城市湿地公园的消落带生态恢复与重建提供参考。 展开更多
关键词 城市湿地公园 消落带 生态重建 环境治理 植被设计
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南昌市象湖湿地公园消落带植物景观生态修复策略
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作者 魏绪英 吴淑贞 +1 位作者 王佩怡 付千譞 《江西科学》 2024年第3期654-659,共6页
为减轻城市湿地公园的消落带生态退化问题(环境污染、水土流失、土壤侵蚀、功能退化等),探求高效的生态修复策略。以南昌市象湖湿地公园为研究对象,在系统分析消落带的共性生态环境问题及现状基础上,提出了相应的景观生态修复策略:1)在... 为减轻城市湿地公园的消落带生态退化问题(环境污染、水土流失、土壤侵蚀、功能退化等),探求高效的生态修复策略。以南昌市象湖湿地公园为研究对象,在系统分析消落带的共性生态环境问题及现状基础上,提出了相应的景观生态修复策略:1)在广泛调查地域性消落带植物种类及其群落组成的基础上,筛选出适合公园环境的湿生植物种类;2)适度调整消落带的护坡和护岸结构,以自然式护岸为主;3)以乡土的湿生植物为主,建议配植适生植物群落,修复受损的消落带生境,形成特色护岸景观。研究城市湿地公园消落带的植物景观生态修复,有利于实现消落带生境修复、景观游憩、水体净化、减污增汇等生态效益,以构建生态环境友好型的消落带景观。 展开更多
关键词 城市湿地公园 消落带 景观生态修复 适生植物 策略
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农业耕作和外来植物入侵对金沙江下游库区新生消落带土壤养分和酶活性的影响 被引量:3
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作者 张月华 张凤英 +4 位作者 邓鑫欣 于江 肖欣怡 潘开文 张林 《环境科学研究》 CAS CSCD 北大核心 2024年第6期1315-1325,共11页
金沙江下游梯级水电站新生消落带上农业耕作较为普遍,同时广泛存在外来植物入侵,这可能会对其土壤养分状况产生潜在影响。基于此,以乌东德电站库区新生消落带为研究区域,以淹水后自然形成的狗牙根(Cynodon dactylon)群落为对照,选择典... 金沙江下游梯级水电站新生消落带上农业耕作较为普遍,同时广泛存在外来植物入侵,这可能会对其土壤养分状况产生潜在影响。基于此,以乌东德电站库区新生消落带为研究区域,以淹水后自然形成的狗牙根(Cynodon dactylon)群落为对照,选择典型农作物玉米(Zea mays)与入侵植物银胶菊(Parthenium hysterophorus)为研究对象,通过比较不同群落下0~10 cm和10~20 cm深度土壤养分含量及酶活性差异,探讨农业耕作和外来植物入侵对消落带土壤养分状况的影响。结果表明:①玉米和银胶菊群落下0~10 cm土层有机质、全氮、全磷、速效钾含量显著高于狗牙根群落(P<0.05),增幅为24.58%~136.98%;10~20 cm土层的有机质、氮磷钾养分全量和速效养分含量也较狗牙根群落显著高出16.67%~141.68%(P<0.05)。②相较狗牙根群落,玉米和银胶菊群落下0~10 cm和10~20 cm土层的脲酶、蔗糖酶、碱性磷酸酶、硝酸还原酶活性均显著增加(P<0.05),增幅为5.60%~378.65%。3个群落中,银胶菊群落土壤酶指数最高,较狗牙根群落显著高出23.49%(P<0.05)。③消落带土壤有机质、全氮、全磷、碱解氮、有效磷、速效钾含量均与脲酶、蔗糖酶、硝酸还原酶、碱性磷酸酶活性之间呈显著正相关(P<0.05),表明上述酶活性可作为消落带土壤养分状况变化的有效表征。总的来看,农耕活动和银胶菊入侵促进了落干期金沙江下游新生消落带土壤养分的积累和有效性的增加。因此,应加强消落带农业耕作的管控并尽快开展入侵植物防治,以减少淹水期消落带土壤养分流失风险。 展开更多
关键词 新生消落带 农业耕作 植物入侵 土壤养分 土壤酶活性 金沙江下游
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三峡水库消落带生境特征与植被恢复模式 被引量:1
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作者 饶洁 唐强 +2 位作者 冯韫 韦杰 贺秀斌 《水土保持学报》 CSCD 北大核心 2024年第1期310-318,共9页
[目的]三峡水库蓄水运行后消落带生境破碎斑块化加剧,极端生境胁迫严重损害植被的结构和功能。厘清三峡水库消落带生境状况,提出适宜性植被恢复对策,重建河流受损廊道综合生态功能,对构建区域生态安全格局和保障长江流域水资源安全具有... [目的]三峡水库蓄水运行后消落带生境破碎斑块化加剧,极端生境胁迫严重损害植被的结构和功能。厘清三峡水库消落带生境状况,提出适宜性植被恢复对策,重建河流受损廊道综合生态功能,对构建区域生态安全格局和保障长江流域水资源安全具有重要意义。[方法]针对三峡水库消落带植被退化与生态功能受损的突出问题,系统解析了消落带生境特征及其对植被生长的影响,围绕水库河岸受损廊道生态修复重大需求,探讨面向消落带微生境构建与植被格局功能优化的三峡水库消落带植被恢复模式。[结果]三峡水库消落带生境状况受水库运行形成的独特水位节律、出露期植被生长季气候条件、土壤侵蚀与泥沙沉积过程、土壤环境等多生境因子协同影响,呈现高度空间异质性特征。水位变动形成的淹没时长、出露时令、淹水强度是影响植株繁衍、生长的首要因素;土壤侵蚀、泥沙掩埋、土壤水养条件等影响植被生长状况。[结论]三峡水库消落带植被恢复需综合考虑水位节律、立地条件与物种形态-功能性状,选育优质抗逆物种,注重土壤基质保育,突出植被格局的分区优化配置。重建消落带综合生态功能,为水库消落带生态治理提供理论支撑和科学依据。 展开更多
关键词 生境胁迫 极端淹水 土壤侵蚀 植被恢复 消落带
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潮汐波动带偏载超深基坑变形控制数值模拟分析及工程实践 被引量:1
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作者 陈志良 肖鸣 +1 位作者 鲁剑峰 池凌杰 《施工技术(中英文)》 CAS 2024年第1期31-38,45,共9页
随着我国地下空间的持续开发,穿江越河及邻江邻河的地下工程项目越来越多,这类项目往往伴随邻山且邻水的工程特定环境,其深基坑工程变形机制和影响效力尚不明确,相关控制手段亦少有研究。依托杭州市某紧邻钱塘江的市政隧道工程,考虑潮... 随着我国地下空间的持续开发,穿江越河及邻江邻河的地下工程项目越来越多,这类项目往往伴随邻山且邻水的工程特定环境,其深基坑工程变形机制和影响效力尚不明确,相关控制手段亦少有研究。依托杭州市某紧邻钱塘江的市政隧道工程,考虑潮汐波动影响对36.4m超深大偏载基坑变形进行了三维数值模拟分析,提出相应变形控制方法并进行工程实践。研究表明:通过依托工程基坑内外水位监测数据的理论分析和数值求解,建立基坑渗流场时空演化模型,得知潮汐水流进入土层边界时的水头衰减较大,在渗流路径中,水头变化较稳定,基坑附近地下水对潮汐循环荷载的响应有明显滞后性,基坑周围产生较高孔隙水压力。运用有限元软件采用修正Mohr-Coulomb弹塑性本构模型,建立偏载深基坑开挖及周围环境影响的数值模拟三维模型,为模拟潮汐波动带的影响,简化在基坑河流底部分别施加25kPa和65kPa均布荷载,得出相较于普通环境,潮汐动力影响下的基坑变形控制更应引起重视,通过三维数值模拟及工程实践,验证了超深基坑采用“1 200mm地下连续墙+5道混凝土支撑+2道钢支撑”的联合支护形式是一种有效的临近钱塘江超深基坑的支护对策。 展开更多
关键词 隧道 深基坑 潮汐波动带 偏载 渗流场 变形 数值模拟
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三峡水库消落带土壤反硝化及DOM的影响 被引量:1
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作者 朱砚涛 苏培兴 +3 位作者 张代钧 袁淑培 张峻通 刘寅飞 《中国环境科学》 EI CAS CSCD 北大核心 2024年第6期3270-3279,共10页
在重庆主城与涪陵选取了3个典型点位采集土壤样品,并对土壤的理化性质、原位反硝化速率、溶解性有机质(DOM)驱动的反硝化以及库区土壤的微生物进行了考察与分析.结果显示在海拔145~155m区间,淹水期镇安镇、涪陵区和鱼嘴镇最高氨氮(NH_(4... 在重庆主城与涪陵选取了3个典型点位采集土壤样品,并对土壤的理化性质、原位反硝化速率、溶解性有机质(DOM)驱动的反硝化以及库区土壤的微生物进行了考察与分析.结果显示在海拔145~155m区间,淹水期镇安镇、涪陵区和鱼嘴镇最高氨氮(NH_(4)^(+)-N)平均浓度分别为31.32,28.63和19.23mg/kg,均高于落干期.在淹水期,与高海拔区域土壤中硝酸盐氮(NO_(3)^(-)-N)平均浓度相比,低海拔土壤中NO_(3)^(-)-N平均浓度分别增大了46.91%(镇安镇)、37.89%(涪陵区)和29.69%(鱼嘴镇).在淹水期,土壤有机质(SOM)平均浓度随着海拔高程的降低而降低,镇安镇、涪陵区和鱼嘴镇分别从109.16,80.93和82.61mg/kg降至65.63,64.53,53.41mg/kg.土壤中NH_(4)^(+)-N和NO_(3)^(-)-N的含量与现场反硝化速率呈显著正相关(P<0.05),在提供充足的碳(C)和氮(N)营养元素后,土壤潜在反硝化速率表现出较大的时间和空间差异性.在由DOM驱动的反硝化实验中,DOM降解符合一级动力学模型(R^(2)>0.93),N2O累积量符合Logistic模型(R^(2)>0.97).在三峡水库消落带土壤中,反硝化功能微生物主要是Bacillus和Comamonadaceae,其丰度变化与土壤潜在反硝化速率呈现显著的正相关性(P<0.05). 展开更多
关键词 三峡水库消落带 土壤反硝化 溶解性有机质 微生物群落
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