Poyang Lake
포양호

Poyang Lake(포양호)란 무엇입니까?

Poyang Lake 포양호 - The present study investigated large sand bodies of Pleistocene-Holocene age on Songmenshan Island in the center of Poyang Lake, Jiangxi Province, southern China. ^[1] In this paper, we compare TCA and EST and RST result using two lakes, Onondaga Lake and Poyang Lake, as case studies. ^[2] Two Gram-stain-positive, facultatively aerobic, non-motile and rod- to coccoid-shaped bacterial strains, 23H37-10T and 4HC-13, were isolated from the faeces of greater white-fronted geese (Anser albifrons) at Poyang Lake, Jiangxi Province, PR China. ^[3] 0 for the case of Poyang Lake, China. ^[4] This paper takes the area of Wuyuan County in the upper reaches of Le’an River in Poyang Lake as an example. ^[5] Fluorescence excitation emission matrices (EEMs)-fluorescence regional integration (FRI) coupling techniques and chromophoric dissolved organic matter (CDOM) was used to explore the source of DOM of Poyang Lake including water body, soil and plants, and the effects on morphological changes of heavy metals. ^[6] In this paper, the dynamic changes of the Poyang Lake are monitored by Synthetic Aperture Radar (SAR). ^[7] The three metropolitan areas experienced the highest increases in urban built-up areas; they also had the highest loss of ecological land, which can have critical consequences given their proximity to the Yangtze River, Poyang Lake, Dongting Lake, and other important environmental sensitive areas. ^[8] Under the effect of the Three Gorges Dam, the water level of Poyang Lake has decreased. ^[9] Affected by the construction and operation of the upstream reservoirs and the evolution of the climate conditions, the relationship between the lake and the rivers connected to Poyang Lake (PYL) has changed remarkably. ^[10] This study uses 3D floodplain hydrodynamic modeling to explore the possible effects of a proposed hydraulic project in Poyang Lake (PLHP) on the hydrodynamics, exemplified by a large floodplain system. ^[11] Poyang Lake was selected for this study, whose capacity to receive and discharge through water conveyance is the largest in China. ^[12] The results indicate that the lakes freely connected (FC) to the Yangtze River (Dongting Lake and Poyang Lake) had lower FAIs but higher RUEs than the non-connected lakes (NC; Chaohu Lake and Taihu Lake). ^[13] In this study, CDOM absorption spectrum curves and water quality parameters from 30 sampling sites in the wetlands of Poyang Lake, Jiangxi Province, China, were collected in October 2016. ^[14] Herein, a two-dimensional (2-D) vertically-averaged hydrodynamic model was applied to study the heavy metal particle footprints pre- and post-Three Gorges Dam (TGD) in Poyang Lake. ^[15] Recently, less silver carps observed in the Poyang Lake should be related to the hydrodynamic change at the confluence of the lake outlet and the Yangtze River. ^[16] Based on the changes of sediment C concentration at different depths in Poyang Lake, belonging to China’s large floodplain-lake system, we revealed the sediment C short-term response characteristics to changes in lake water C concentrations as well as their associated impacting factors. ^[17] The ∑PFASs in Hong and Poyang Lakes were higher than those in Dongting Lake and middle reach of Yangtze River (p < 0. ^[18] The results showed that Namtso, Selinco, Zhari Namco, Qinghai Lake, Xingkai Lake, and Taihu Lake belong to the growth type lakesl Hongze Lake, Poyang Lake, and Dongting Lake belong to the non-obvious change type lakes; and Bosten Lake and Hulun Lake belong to the reduction type lakes. ^[19] The seed point method was used to monitor the water area and volume of Poyang Lake, as an important international wetland and the largest fresh water lake in China, from 2019 to the flood season in 2020 using ZY3, GF-1, GF-3, GF-6, and BJ-2 data. ^[20] Poyang Lake is an essential habitat for the critically endangered Yangtze finless porpoise (Neophocaena asiaeorientalis asiaeorientalis, YFP), supporting almost half of their natural population. ^[21] Sentinel-1 data covering Dongting Lake and Poyang Lake are selected for water extraction and dynamic monitoring analysis from 2017 to 2020, and Sentinel-2 images from a similar time frame are selected for verification. ^[22] To design a good conservation strategy for herbivorous Anseriformes wintering in Poyang Lake, knowledge of habitat suitability is essential. ^[23] Poyang Lake (PYL) experiences severe hydrological disturbance under the effects of flood pulse during the rainy season. ^[24] Two rod-shaped and Gram-stain-positive bacteria (strains C64T and C62) were isolated in 2020 from faeces of greater white-fronted geese (Anser albifrons) from Poyang Lake, PR China. ^[25] A modified version of HASM, namely HASM_MOD, is illustrated through a case study of Poyang Lake, China, by comparing the results of HASM, a support vector machine (SVM), and cokriging. ^[26] A total of 71 samples collected during four cruises were analyzed to determine the spectral reflectance and CSPM in Poyang Lake. ^[27] The Yangtze finless porpoise has become as significant indicator of current ecological conservation effectiveness in Poyang Lake, where nearly half of the population is found. ^[28]
본 연구는 중국 남부 장시성 포양호 중심에 있는 송먼산도에서 홍적세-신세 시대의 거대한 모래 덩어리를 조사하였다. ^[1] 본 논문에서는 두 개의 호수인 Onondaga Lake와 Poyang Lake를 사례연구로 사용하여 TCA와 EST, RST 결과를 비교하였다. ^[2] 포양호에서 큰흰기러기(Anser albifrons)의 분변에서 그람염색양성, 통성호기성, 비운동성, 간상체-콕코이드 모양의 세균 23H37-10T와 4HC-13이 분리되었다. 중국 장시성. ^[3] 중국 포양호의 경우 0. ^[4] 본 논문은 포양호(Poyang Lake)의 Le'an River 상류에 있는 Wuyuan County 지역을 예로 들었다. ^[5] 수역, 토양, 식물을 포함한 포양호 DOM의 근원을 탐색하기 위해 형광 여기 방출 매트릭스(EEM)-형광 지역 통합(FRI) 결합 기법과 발색단 용존 유기물(CDOM)을 사용하여 형태 변화에 미치는 영향을 조사했습니다. 헤비 메탈. ^[6] 본 논문에서는 SAR(Synthetic Aperture Radar)로 포양호의 동적인 변화를 관찰하였다. ^[7] 세 대도시 지역은 도시 건설 지역에서 가장 높은 증가를 경험했습니다. 그들은 또한 Yangtze River, Poyang Lake, Dongting Lake 및 기타 중요한 환경 민감 지역과의 근접성을 고려할 때 치명적인 결과를 초래할 수 있는 생태학적 토지의 손실이 가장 컸다. ^[8] 삼협댐의 영향으로 포양호의 수위가 낮아졌다. ^[9] 상류 저수지의 건설 및 운영, 기후 조건의 변화에 ​​따라 포양호(PYL)와 연결된 하천과 호수의 관계가 크게 변화했습니다. ^[10] 이 연구는 3D 범람원 유체역학 모델링을 사용하여 제안된 포양호(PLHP) 수리 프로젝트가 대형 범람원 시스템으로 예시되는 유체역학에 미치는 가능한 영향을 탐색합니다. ^[11] 포양호가 이번 연구 대상으로 선정되었으며, 물 수송을 통한 유입 및 배출 능력은 중국 최대이다. ^[12] 결과는 양쯔강에 자유롭게 연결된(FC) 호수(Dongting Lake 및 Poyang Lake)가 연결되지 않은 호수(NC; Chaohu Lake 및 Taihu Lake)보다 FAI는 낮았지만 RUE는 더 높았음을 나타냅니다. ^[13] 본 연구에서는 2016년 10월 중국 장시성 포양호 습지의 30개 샘플링 지점에서 CDOM 흡수 스펙트럼 곡선과 수질 매개변수를 수집했습니다. ^[14] 여기서는 포양호 삼협댐(TGD) 전후의 중금속 입자 발자국 연구를 위해 2차원(2차원) 수직 평균 유체역학 모델을 적용하였다. ^[15] 최근 포양호에서 관찰되는 은잉어가 적은 것은 호수 유출구와 장강이 합류하는 유체역학적 변화와 관련이 있는 것으로 보인다. ^[16] 중국의 대규모 범람원-호수계에 속하는 포양호의 깊이별 침전물 C 농도 변화를 바탕으로 호수 물 C 농도 변화에 대한 침전물 C 단기 반응 특성과 이에 따른 영향 요인을 규명하였다. ^[17] ∑PFAS는 홍호와 포양호에서 동팅호와 장강 중류보다 높게 나타났다(p < 0. ^[18] 결과는 Namtso, Selinco, Zhari Namco, Qinghai Lake, Xingkai Lake 및 Taihu Lake가 성장형 호수에 속하는 것으로 나타났습니다. Hongze Lake, Poyang Lake 및 Dongting Lake는 명확하지 않은 변화형 호수에 속합니다. 보스텐호와 후룬호는 환원형 호수에 속한다. ^[19] 2019년부터 2020년 홍수철까지 중요한 국제습지이자 중국 최대의 담수호인 포양호의 수역과 체적을 ZY3, GF-1, GF-3, GF-6 및 BJ-2 데이터. ^[20] 포양호는 멸종 위기에 처한 양쯔강 지느러미돌고래(Neophocaena asiaeorientalis asiaeorientalis, YFP)의 필수 서식지로 자연 개체군의 거의 절반을 지원합니다. ^[21] 2017년부터 2020년까지 동팅호와 포양호를 대상으로 하는 Sentinel-1 데이터를 추출 및 동적 모니터링 분석을 위해 선택하고, 검증을 위해 유사한 시간대의 Sentinel-2 이미지를 선택합니다. ^[22] 포양호에서 월동하는 초식성 Anseriformes에 대한 우수한 보전 전략을 설계하려면 서식지 적합성에 대한 지식이 필수적입니다. ^[23] 포양호(PYL)는 장마철 홍수파의 영향으로 심각한 수문교란을 겪는다. ^[24] 2020년 중국 포양호의 큰 흰머리기러기(Anser albifrons)의 분변에서 두 개의 막대 모양 및 그람 염색 양성 박테리아(균주 C64T 및 C62)가 분리되었습니다. ^[25] HASM의 변형된 버전인 HASM_MOD는 중국 포양호의 사례 연구를 통해 HASM, SVM(Support Vector Machine) 및 코크리깅의 결과를 비교하여 설명합니다. ^[26] 포양호의 분광반사율과 CSPM을 결정하기 위해 4번의 크루즈 동안 수집된 총 71개의 샘플을 분석했습니다. ^[27] 양쯔강 지느러미돌고래는 인구의 거의 절반이 살고 있는 포양호의 현재 생태 보전 효과를 나타내는 중요한 지표가 되었습니다. ^[28]

largest freshwater lake 가장 큰 민물 호수

Dongting Lake (DTL) and Poyang Lake (PYL), the China’s two largest freshwater lakes, are vital migration routes and wintering habitats for the migratory birds of East Asian – Australia. ^[1] However, few studies have clearly explored the mechanism of influence of water regime on the process of accumulation of metals by the dominant vegetation in Poyang Lake wetland, the largest freshwater lake in China. ^[2] Poyang Lake, Dongting Lake, and Taihu Lake are the largest freshwater lakes in the middle and lower reaches of the Yangtze River, China. ^[3] To address this problem, we propose a novel algorithm to monitor BRL using satellite images of Poyang Lake (the largest freshwater lake in China). ^[4] As the largest freshwater lake in China, Poyang Lake is also one of the areas with the most abundant biological resources in wetland ecosystem in China, which has great ecological and economic benefits. ^[5] Poyang Lake, the largest freshwater lake in China, plays a key role in regulating the hydrology, water quality and ecosystem in the middle reaches of the Yangtze River. ^[6] In recent years, the tail zone of the largest tributary of the largest freshwater lake, Poyang Lake in China, has been challenged by serious water scarcity caused by the drop of the water level during dry season. ^[7] Poyang Lake is the largest freshwater lake connecting the Yangtze River in China. ^[8] As the water–land complex ecosystem with the largest freshwater lake, wetland natural reserves and ecological importance in China, Poyang Lake Region (PLR) is selected to quantify and map multiple ecosystem services, investigate the ecological function zoning as part of research on ecological zoning control and major ecological source areas to illustrate and address the implementation of this strategy based on the importance and vulnerability analysis of ecosystem services. ^[9] Poyang Lake, which is a part of China’s largest freshwater lake wetland, is well known for its ecological and economic importance. ^[10] As the largest freshwater Lake in China, Poyang Lake plays an important role in regulating the water level of Yangtze River and maintaining the ecological balance of surrounding areas. ^[11] Study region The wetland ecosystem of Poyang Lake, the largest freshwater lake in China. ^[12] Poyang Lake is the largest freshwater lake in China, an internationally important wetland and the largest migratory bird habitat in Asia. ^[13] In this study, the health status of the aquatic ecosystem in the largest freshwater lake in China (Poyang Lake) was assessed, and its temporal and spatial characteristics were illustrated. ^[14] Poyang Lake, the largest freshwater lake in China, is well-known for its ecological importance as a floodplain wetland. ^[15] The extended WRF model was tested for a land use and land cover change study for the Poyang Lake basin, the largest freshwater lake in China. ^[16] The largest freshwater lake in China, the Poyang Lake, experienced a long history of evolution with combined influences from both climate factors and human activities. ^[17] Poyang Lake is a typical lake in the middle and lower reaches of the Yangtze River and is the largest freshwater lake in China. ^[18] In this study, we analyzed 16 priority polycyclic aromatic hydrocarbons (PAHs) in water, suspended particulate matter (SPM), air, soil and sediment in the Poyang Lake, which is the largest freshwater lake in Southeast China. ^[19] Based on a questionnaire-based survey of 686 hog farms in the Poyang Lake Region—one of the biggest ecological wetlands in Asia and the largest freshwater lakes in China, this paper adopted a multivariate probit model to empirically investigate the impact of farm scale and technology characteristics on SMMTs’ adoption. ^[20] Dongting Lake and Poyang Lake, the China’s two largest freshwater lakes, are the most important wintering area and pathways for migratory birds in East Asia. ^[21] Poyang Lake, the largest freshwater lake in China, has experienced a large decrease in wetland area due to long-term overutilization and especially after the hydrological drought events from 2003. ^[22] Poyang Lake is the largest freshwater lake of China, with its rich water and biological resources for irrigation, water supply, shipping, and regulation of the flow; additionally, this lake can relieve the impact of droughts and floods by storing huge quantities of water and discharging it during shortages. ^[23] An exceptional example of a highly dynamic lake-river-wetland system is Poyang Lake, which is the largest freshwater lake of China. ^[24] Further, the most salient water-related issues arising from China’s largest freshwater lake, Poyang Lake, are analyzed and the history and predicament of its governance are described. ^[25] Then, the RGB was applied to quantitatively calculate the anthropogenic contribution rate in sediments of the Poyang Lake (PYL), which is the largest freshwater lake in China. ^[26] Poyang Lake is China's largest freshwater lake, and it has been an internationally important wintering ground for migratory waterbirds. ^[27] Poyang Lake and Dongting Lake are the largest freshwater lakes in China. ^[28] Poyang Lake is the largest freshwater lake in China, with a wide area and abundant species resources. ^[29]
중국에서 가장 큰 두 개의 담수호인 Dongting Lake(DTL)와 Poyang Lake(PYL)는 동아시아-호주 철새의 중요한 이동 경로이자 월동 서식지입니다. ^[1] 그러나 중국 최대의 담수호인 포양호 습지의 우점 식생에 의한 금속 축적 과정에 대한 수계의 영향 메커니즘을 명확히 규명한 연구는 많지 않다. ^[2] nan ^[3] nan ^[4] nan ^[5] nan ^[6] nan ^[7] nan ^[8] nan ^[9] nan ^[10] 포양호는 중국 최대의 담수호로서 장강의 수위를 조절하고 주변 지역의 생태 균형을 유지하는 데 중요한 역할을 합니다. ^[11] nan ^[12] nan ^[13] nan ^[14] nan ^[15] nan ^[16] nan ^[17] nan ^[18] nan ^[19] nan ^[20] nan ^[21] nan ^[22] nan ^[23] nan ^[24] nan ^[25] nan ^[26] nan ^[27] nan ^[28] nan ^[29]

important wintering ground 중요한 월동지

Poyang Lake, China, is a very important wintering ground for the globally endangered Siberian Crane ( Leucogeranus leucogeranus ), White-naped Crane ( Grus vipio ), and Hooded Crane ( G. ^[1] An extreme flood struck Poyang Lake, China, a globally important wintering ground for waterbirds, in the winter of 2015-2016. ^[2]
중국 포양호는 전 세계적으로 멸종 위기에 처한 시베리아 두루미( Leucogeranus leucogeranus ), 흰목두루미( Grus vipio ), 두루미(G. ^[1] nan ^[2]

urban rural construction

Here, we executed the evaluation of the suitability of urban-rural construction land development, accounted the bearable critical threshold of urban-rural construction land, calculated the bearable abundance of urban-rural construction land, and compared with the current urban-rural construction land, analyzed the matching of the space layout, and then obtained the remaining development intensity of each county (city or district) of the Poyang Lake urban agglomeration. ^[1]

Around Poyang Lake 포양호 주변

Aiming to study the current situation and variation trend of groundwater quality in the area around Poyang Lake, the single factor index method was used to systematically analyze 19 indicators of 242 groundwater samples in the study area. ^[1] The aim of this study was to assess the risk of intestinal schistosomiasis transmission impacted by flooding in the region around Poyang Lake using multi-source remote sensing images. ^[2] (2) The high value areas of the transformation degrees were mainly distributed in the northern hilly region and around Poyang Lake, while most of the low value areas were distributed in the plain areas near the county town. ^[3] A total of 48 fecal samples were collected from two regions (Nanchang City and Jiujiang City) around Poyang Lake in Jiangxi Province of China. ^[4] Taking the urban agglomeration around Poyang Lake in 2015 as a case, the MCR model showed the ecological landscape pattern of discrete connection and large overall ecological resistance. ^[5] By using the methods of literature, Field Investigation and logical analysis, this paper studies the problems in the development of folk sports culture around Poyang Lake from the perspective of ecology. ^[6]
포양호 주변 지역의 지하수 수질 현황 및 변화 추이를 파악하기 위해 연구지역 지하수 시료 242개 중 19개 지표를 단일요인지수법을 이용하여 체계적으로 분석하였다. ^[1] 이 연구의 목적은 다중 소스 원격 감지 이미지를 사용하여 포양 호수 주변 지역의 홍수로 인한 장 주혈흡충증 전파의 위험을 평가하는 것입니다. ^[2] nan ^[3] nan ^[4] nan ^[5] nan ^[6]

poyang lake basin 포양호수유역

Based on daily records from 16 meteorological stations in the Poyang Lake Basin (PLB) from 1959 to 2019, we comprehensively investigated the temporal-spatial and non-stationarity characteristics of extreme precipitation from three dimensions (intensity, frequency and duration) using PreWhite-ning Mann-Kendall (PWMK), extreme-point symmetric mode decomposition me