Thematische Bibliographien / North China Plain / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „North China Plain“

Autor: Grafiati
Veröffentlicht am 29. Juni 2021
Zuletzt aktualisiert am 3. Februar 2022

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1

CHRISTOPOULOS, CONSTANTIN P. „Great Plain-Building in North China*“. Bulletin of the Geological Society of China 27, Nr. 1 (29.05.2009): 299–320. http://dx.doi.org/10.1111/j.1755-6724.1947.mp27001021.x.

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2

Willis, Robert, Brad A. Finney und Daoshuai Zhang. „Water Resources Management in North China Plain“. Journal of Water Resources Planning and Management 115, Nr. 5 (September 1989): 598–615. http://dx.doi.org/10.1061/(asce)0733-9496(1989)115:5(598).

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3

Jin, Fei. „Groundwater resources in the North China Plain“. Environmental Geology and Water Sciences 12, Nr. 1 (August 1988): 63–67. http://dx.doi.org/10.1007/bf02574828.

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4

Wang, Shiqin, Xianfang Song, Qinxue Wang, Guoqiang Xiao, Changming Liu und Jianrong Liu. „Shallow groundwater dynamics in North China Plain“. Journal of Geographical Sciences 19, Nr. 2 (April 2009): 175–88. http://dx.doi.org/10.1007/s11442-009-0175-0.

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5

Qinghai, Xu, Yang Xiaolan, Wu Chen, Meng Lingyao und Wang Zihui. „Alluvial Pollen on the North China Plain“. Quaternary Research 46, Nr. 3 (November 1996): 270–80. http://dx.doi.org/10.1006/qres.1996.0066.

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Mordern alluvial pollen varies with geomorphic setting and depositional facies in sediments of the Yellow, Hutuo, and Luan rivers and in Baiyangdian and Hengshuihu lakes. Most of the arboreal pollen is derived from the mountains, whereas most of the nonarboreal pollen is derived from the plain itself. Alluvium dominated by Pinus pollen and Selaginella spores was deposited during a flood. Hydrodynamic sorting of alluvial pollen exists in the sediments of floodplain, central bar, natural levees, and point bar. In reconstructing the ancient vegetation and past climate based on pollen in alluvium, it is important to consider sedimentary facies and geomorphologic setting.
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Cui, Yanqiang, Bo Zhang, Hao Huang, Jianjun Zeng, Xiaodan Wang und Wenhui Jiao. „Spatiotemporal Characteristics of Drought in the North China Plain over the Past 58 Years“. Atmosphere 12, Nr. 7 (29.06.2021): 844. http://dx.doi.org/10.3390/atmos12070844.

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Understanding the spatiotemporal characteristics of regional drought is of great significance in decision-making processes such as water resources and agricultural systems management. The North China Plain is an important grain production base in China and the most drought-prone region in the country. In this study, the monthly standardized precipitation evapotranspiration index (SPEI) was used to monitor the spatiotemporal variation of agricultural drought in the North China Plain from 1960 to 2017. Seven spatial patterns of drought variability were identified in the North China Plain, such as Huang-Huai Plain, Lower Yangtze River Plain, Haihe Plain, Shandong Hills, Qinling Mountains Margin area, Huangshan Mountain surroundings, and Yanshan Mountain margin area. The spatial models showed different trends in different time stages, indicating that the drought conditions in the North China Plain were complex and changeable in the past 58 years. As an important agricultural area, the North China Plain needs more attention since this region shows a remarkable trend of drought and, as such, will definitely increase the water demand for agricultural irrigation. The strong correlation between these spatial distribution patterns indicates that the climate and weather conditions leading to drought are consistent and that drought conditions are independent for regions that are not correlated. If this trend continues, the characteristics of drought variability in the North China Plain will become more complex, and a more detailed water management strategy will be needed to address the effects of drought on agro-ecosystems. Recognizing the drought variability in the North China Plain can provide a basis for agricultural disaster reduction planning and water resources allocation.
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Chen, Wu, Xu Qinghai, Ma Yonghong und Zhang Xiuqing. „Palaeochannels on the North China Plain: palaeoriver geomorphology“. Geomorphology 18, Nr. 1 (Dezember 1996): 37–45. http://dx.doi.org/10.1016/0169-555x(95)00150-4.

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8

Yueping, Liang, Gao Yang, Wang Guangshuai, Si Zhuanyun, Shen Xiaojun und Duan Aiwang. „Luxury transpiration of winter wheat and its responses to deficit irrigation in North China Plain“. Plant, Soil and Environment 64, No. 8 (01.08.2018): 361–66. http://dx.doi.org/10.17221/331/2018-pse.

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Reducing crop luxury transpiration is an important step in improving water productivity; water shortage regions are potential hotspots for studying physiological water conservation. This study investigated the amount of luxury transpiration in winter wheat and its responses to different irrigation treatments in North China Plain. The results showed that luxury transpiration existed and increased with growth of winter wheat and after rainfall. In each sampling day, the amount of luxury transpiration under full irrigation was significantly higher than that under deficit irrigation. The average amount of luxury transpiration was 258.87 g/m<sup>2</sup> under full irrigation, and 125.18 g/m<sup>2</sup> under deficit irrigation during the experimental period. Although the amount of luxury transpiration was 2.09-fold higher under full irrigation than that in deficit irrigation, the water loss ratio due to luxury transpiration in deficit irrigation (8.13%) was significantly higher than that in full irrigation (6.75%). Furthermore, the ratio between luxury transpiration amount and crop daily transpiration was revealed in all sampling dates. Therefore, deficit irrigation should be generalized in the water shortage area, because it can save irrigation water and reduce the amount of luxury transpiration. Full irrigation should be carried out in the water abundant region mainly for higher production.
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Yuan, Ruiqiang, Xianfang Song, Dongmei Han, Liang Zhang und Shiqin Wang. „Upward recharge through groundwater depression cone in piedmont plain of North China Plain“. Journal of Hydrology 500 (September 2013): 1–11. http://dx.doi.org/10.1016/j.jhydrol.2013.06.056.

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10

Tan, Xiu-Cui, Jing-Wei Wu, Shu-Ying Cai und Jin-Zhong Yang. „Characteristics of Groundwater Recharge on the North China Plain“. Groundwater 52, Nr. 5 (05.09.2013): 798–807. http://dx.doi.org/10.1111/gwat.12114.

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Wang, Haichao, Xiaorui Chen, Keding Lu, Zhaofeng Tan, Xuefei Ma, Zhijun Wu, Xin Li et al. „Wintertime N2O5 uptake coefficients over the North China Plain“. Science Bulletin 65, Nr. 9 (Mai 2020): 765–74. http://dx.doi.org/10.1016/j.scib.2020.02.006.

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12

Zhang, Xiying, Dong Pei und Chunsheng Hu. „Conserving groundwater for irrigation in the North China Plain“. Irrigation Science 21, Nr. 4 (Januar 2003): 159–66. http://dx.doi.org/10.1007/s00271-002-0059-x.

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13

Guo, Haipeng, Zuochen Zhang, Guoming Cheng, Wenpeng Li, Tiefeng Li und Jiu Jimmy Jiao. „Groundwater-derived land subsidence in the North China Plain“. Environmental Earth Sciences 74, Nr. 2 (08.02.2015): 1415–27. http://dx.doi.org/10.1007/s12665-015-4131-2.

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14

Zhang, Zonghu, Dehong Shi, Fuhong Ren, Zhengzhou Yin, Jichao Sun und Cuiyun Zhang. „Evolution of Quaternary groundwater system in North China Plain“. Science in China Series D: Earth Sciences 40, Nr. 3 (Juni 1997): 276–83. http://dx.doi.org/10.1007/bf02877536.

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15

Chen, Wu, Xu Qinghai, Zhang Xiuqing und Ma Yonghong. „Palaeochannels on the North China Plain: types and distributions“. Geomorphology 18, Nr. 1 (Dezember 1996): 5–14. http://dx.doi.org/10.1016/0169-555x(95)00147-w.

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16

Lin, W., X. Xu, X. Zhang und J. Tang. „Contributions of pollutants from North China Plain to surface ozone at the Shangdianzi GAW Station“. Atmospheric Chemistry and Physics 8, Nr. 19 (14.10.2008): 5889–98. http://dx.doi.org/10.5194/acp-8-5889-2008.

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Abstract. Regional ozone pollution has become one of the top environmental concerns in China, especially in those economically vibrant and densely populated regions, such as North China region including Beijing. To address this issue, surface ozone and ancillary data over the period 2004–2006 from the Shangdianzi Regional Background Station in north China were analyzed. Due to the suitable location and valley topography of the site, transport of pollutants from the North China Plain was easily observed and quantified according to surface wind directions. Regional (polluted) and background (clean) ozone concentrations were obtained by detailed statistic analysis. Contribution of pollutants from North China Plain to surface ozone at SDZ was estimated by comparing ozone concentrations observed under SW wind conditions and that under NE wind conditions. The average daily accumulated ozone contribution was estimated to be 240 ppb·hr. The average regional contributions to surface ozone at SDZ from the North China Plain were 21.8 ppb for the whole year, and 19.2, 28.9, 25.0, and 10.0 ppb for spring, summer, autumn, and winter, respectively. The strong ozone contribution in summer led to disappearance of the spring ozone maximum phenomenon at SDZ under winds other than from the NNW to E sectors. The emissions of nitrogen oxide in the North China plain cause a decrease in ozone concentrations in winter.
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17

Lin, W., X. Xu, X. Zhang und J. Tang. „Contributions of pollutants from North China Plain to surface ozone at the Shangdianzi GAW station“. Atmospheric Chemistry and Physics Discussions 8, Nr. 3 (21.05.2008): 9139–65. http://dx.doi.org/10.5194/acpd-8-9139-2008.

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Abstract. Regional ozone pollution has become one of the top environmental concerns in China, especially in those economically vibrant and densely populated regions, such as North China region including Beijing. To address this issue, surface ozone and ancillary data over the period 2004–2006 from the Shangdianzi Regional Background Station in north China were analyzed. Due to the suitable location and valley topography of the site, transport of pollutants from the North China Plain was easily observed and quantified according to surface wind directions. Regional (polluted) and natural (clean) background ozone concentrations were obtained by detailed statistic analysis. Contribution of pollutants from North China Plain to surface ozone at SDZ was estimated by comparing ozone concentrations observed under SW wind conditions and that under NE wind conditions. The average daily accumulated ozone contribution was estimated to be 240 ppb·hr. The average regional contributions to surface ozone at SDZ from the North China Plain were 21.8 ppb for the whole year, and 19.2, 28.9, 25.0, and 10.0 ppb for spring, summer, autumn, and winter, respectively. The strong ozone contribution in summer led to disappearance of the spring ozone maximum phenomenon at SDZ under winds other than from the WNN to E sectors. High winter NOx concentrations in the North China Plain caused negative ozone contribution in winter.
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Li, Xiao Yu, Sheng Xia Fu und Tai Zhong Gao. „Research on Sensitivity of Soil Acidification in Hebei Plain, North China“. Advanced Materials Research 1092-1093 (März 2015): 625–29. http://dx.doi.org/10.4028/www.scientific.net/amr.1092-1093.625.

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Through soil samples collecting and analysis in Hebei plain, we studied acidity characteristics and acidification sensitivity in Hebei plain. Results showed that the main reasons for decline in soil pH value is the atmospheric acid deposition, the excessive application of nitrogen and phosphorus fertilizer, crop base ion absorption. The dissolve of calcium carbonate is the main process plain cushion soil acidification in Hebei plain, its content is the decisive factor of soil acidification sensitivity.
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Ma, Yuzhao, Naikun Kuang, Shengzhe Hong, Fengli Jiao, Changyuan Liu und Quanqi Li. „Water productivity of two wheat genotypes in response to no-tillage in the North China Plain“. Plant, Soil and Environment 67, No. 4 (30.03.2021): 236–44. http://dx.doi.org/10.17221/27/2021-pse.

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Uneven distribution of precipitation and overexploitation of groundwater resources threatens the sustainability of agriculture in the North China Plain. Adoption of water deficit-tolerant winter wheat genotypes coupled with timely, adequate farming practice is crucial to enhance sustainable crop production and water productivity in the region. The present study aimed to evaluate water consumption patterns and water productivity of two winter wheat genotypes (Tainong-18 and Jimai-22), under no-tillage or conventional tillage, over a period of four consecutive cropping seasons. Under no-tillage, Tainong-18 showed the lowest soil moisture consumption before sowing in the 30–110 cm soil profile. Jimai-22 under conventional tillage and Tainong-18 under no-tillage showed the highest and lowest evapotranspiration across cropping seasons, respectively. Compared with conventional tillage, no-tillage reduced grain yield and water productivity of winter wheat, and the difference between them increased for grain yield (6.79, 11.99, 14.78, and 15.73%) and water productivity (0.99, 8.14, 12.18, and 13.30%) over the 2015–2016, 2016–2017, 2017–2018, and 2018–2019 cropping seasons, respectively. In contrast, Tainong-18 showed lower evapotranspiration and increased grain yield and water productivity compared with Jimai-22. Further, Tainong-18 showed a compensatory effect on the reduction of water productivity under no-tillage, compared with Jimai-22. Our conclusions indicate that the combination of no-tillage and water-efficient winter wheat genotypes is an effective strategy to offset the reduction in water productivity caused by no-tillage and thus maximise water productivity in the North China Plain.
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Yin, Zhicong, und Huijun Wang. „Seasonal prediction of winter haze days in the north central North China Plain“. Atmospheric Chemistry and Physics 16, Nr. 23 (30.11.2016): 14843–52. http://dx.doi.org/10.5194/acp-16-14843-2016.

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Abstract. Recently, the winter (December–February) haze pollution over the north central North China Plain (NCP) has become severe. By treating the year-to-year increment as the predictand, two new statistical schemes were established using the multiple linear regression (MLR) and the generalized additive model (GAM). By analyzing the associated increment of atmospheric circulation, seven leading predictors were selected to predict the upcoming winter haze days over the NCP (WHDNCP). After cross validation, the root mean square error and explained variance of the MLR (GAM) prediction model was 3.39 (3.38) and 53 % (54 %), respectively. For the final predicted WHDNCP, both of these models could capture the interannual and interdecadal trends and the extremums successfully. Independent prediction tests for 2014 and 2015 also confirmed the good predictive skill of the new schemes. The predicted bias of the MLR (GAM) prediction model in 2014 and 2015 was 0.09 (−0.07) and −3.33 (−1.01), respectively. Compared to the MLR model, the GAM model had a higher predictive skill in reproducing the rapid and continuous increase of WHDNCP after 2010.
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21

Zheng, Chunmiao, Jie Liu, Guoliang Cao, Eloise Kendy, Hao Wang und Yangwen Jia. „Can China Cope with Its Water Crisis?-Perspectives from the North China Plain“. Ground Water 48, Nr. 3 (10.03.2010): 350–54. http://dx.doi.org/10.1111/j.1745-6584.2010.00695_3.x.

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22

Peng, Jianbing, Jishan Xu, Runyong Ma und Feiyong Wang. „Characteristics and mechanism of the Longyao ground fissure on North China Plain, China“. Engineering Geology 214 (November 2016): 136–46. http://dx.doi.org/10.1016/j.enggeo.2016.10.008.

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23

Ding-Rong, WU, OUYANG Zhu, ZHAO Xiao-Min, YU Qiang und LUO Yi. „The Applicability Research of WOFOST Model in North China Plain“. Chinese Journal of Plant Ecology 27, Nr. 5 (2003): 594–602. http://dx.doi.org/10.17521/cjpe.2003.0086.

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24

Yuan Zhang, Guomin Li und Yanhui Dong. „Numerical Simulation of Groundwater System in the North China Plain“. INTERNATIONAL JOURNAL ON Advances in Information Sciences and Service Sciences 5, Nr. 4 (28.02.2013): 965–73. http://dx.doi.org/10.4156/aiss.vol5.issue4.116.

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25

Zhao, Hua, Zhe Liu, Lei Song, Chengmin Wang und Sheng-Hua Li. „OSL dating of flood sediments in the North China Plain“. Quaternary Geochronology 49 (Februar 2019): 101–7. http://dx.doi.org/10.1016/j.quageo.2018.07.010.

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26

Lin, Zhen, Zhou Hailin und Xie Gaodi. „Environmental Implication of Intensive Farming Practices on North China Plain“. Chinese Journal of Population Resources and Environment 3, Nr. 3 (Januar 2005): 11–20. http://dx.doi.org/10.1080/10042857.2005.10677420.

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27

Kuang, Y., C. S. Zhao, N. Ma, H. J. Liu, Y. X. Bian, J. C. Tao und Min Hu. „Deliquescent phenomena of ambient aerosols on the North China Plain“. Geophysical Research Letters 43, Nr. 16 (24.08.2016): 8744–50. http://dx.doi.org/10.1002/2016gl070273.

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28

Zhao, Yingkui, Chen Wu und XiuQing Zhang. „Palaeochannels and ground-water storage on the North China Plain“. Geological Society, London, Special Publications 163, Nr. 1 (1999): 231–39. http://dx.doi.org/10.1144/gsl.sp.1999.163.01.18.

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29

Zongyu, Chen, Nie Zhenlong, Zhang Zhaoji, Qi Jixiang und Nan Yunju. „Isotopes and Sustainability of Ground Water Resources, North China Plain“. Ground Water 43, Nr. 4 (Juli 2005): 485–93. http://dx.doi.org/10.1111/j.1745-6584.2005.0038.x.

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30

Xin, Yue, und Fulu Tao. „Developing climate-smart agricultural systems in the North China Plain“. Agriculture, Ecosystems & Environment 291 (April 2020): 106791. http://dx.doi.org/10.1016/j.agee.2019.106791.

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31

Zhang, S. L., N. Ma, S. Kecorius, P. C. Wang, M. Hu, Z. B. Wang, J. Größ, Z. J. Wu und A. Wiedensohler. „Mixing state of atmospheric particles over the North China Plain“. Atmospheric Environment 125 (Januar 2016): 152–64. http://dx.doi.org/10.1016/j.atmosenv.2015.10.053.

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32

Cheng, Tangpei, Jingli Shao, Yali Cui, Zeyao Mo, Zhong Han und Ling Li. „Parallel simulation of groundwater flow in the North China Plain“. Journal of Earth Science 25, Nr. 6 (Dezember 2014): 1059–66. http://dx.doi.org/10.1007/s12583-014-0485-8.

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33

Fan, Lan, Changhe Lu, Biao Yang und Zhao Chen. „Long-term trends of precipitation in the North China Plain“. Journal of Geographical Sciences 22, Nr. 6 (17.11.2012): 989–1001. http://dx.doi.org/10.1007/s11442-012-0978-2.

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34

Hu, Bo, und Yuesi Wang. „Variation characteristics of ultraviolet radiation over the north china plain“. Advances in Atmospheric Sciences 31, Nr. 1 (20.12.2013): 110–17. http://dx.doi.org/10.1007/s00376-013-2319-5.

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35

Qinghai, Xu, Wu Chen, Zhu Xuanqing und Yang Xiaolian. „Palaeochannels on the North China Plain: stage division and palaeoenvironments“. Geomorphology 18, Nr. 1 (Dezember 1996): 15–25. http://dx.doi.org/10.1016/0169-555x(95)00148-x.

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36

Dao, Xu, Yu-Chi Lin, Fang Cao, Shi-Ying Di, Yihang Hong, Guanhua Xing, Jianjun Li, Pingqing Fu und Yan-Lin Zhang. „Urban Haze in the North China Plain: Obervations from NACMON“. Bulletin of the American Meteorological Society 101, Nr. 1 (Januar 2020): 53–58. http://dx.doi.org/10.1175/bams-d-18-0325.a.

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37

Shuoyang, LI, YANG Guiyu, DUAN Na und WANG Lin. „Spatial and Temporal Distribution Characteristics of the humid index in North China Plain“. MATEC Web of Conferences 246 (2018): 01078. http://dx.doi.org/10.1051/matecconf/201824601078.

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With the development of economy and society and the increase of population, water shortage and a series of water-related problems became universal problems. The north China plain has become a global focal point due to the poor water resource background and the impact of climate change and high-intensity human activity. Water circulation, as the carrier of water resource evolution, was affected by climate change through evapotranspiration and also reacts on the climate through energy change. The humid index, as an index of regional water and heat budget, can reflect the circulation characteristics of water supply and consumption. And it can also connect the water cycle and energy cycle organically. The comprehensive index which can comprehensively reflect the degree of surface moisture -- the surface humid index was adopted to reveal the relationship between water budget and climate change in north China plain. Based on the daily meteorological data of 82 meteorological stations in north China plain from 1960 to 2017, the evolution of wetting degree in the whole region was analyzed and the main influencing factors of the change were analyzed in combination with the main meteorological elements. The relevant research is of certain reference value for sustainable development of north China plain and coping with future climate change.
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Geng, Shu, Yixing Zhou, Minghua Zhang und K. Shawn Smallwood. „A Sustainable Agro-ecological Solution to Water Shortage in the North China Plain (Huabei Plain)“. Journal of Environmental Planning and Management 44, Nr. 3 (Mai 2001): 345–55. http://dx.doi.org/10.1080/09640560120046106.

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Zhou, Pengchong, Shaobo Wang, Liangliang Guo, Ying Shen, Huifang Han und Tangyuan Ning. „Effects of subsoiling stage on summer maize water use efficiency and yield in North China Plains“. Plant, Soil and Environment 65, No. 11 (02.12.2019): 556–62. http://dx.doi.org/10.17221/353/2019-pse.

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Aiming at the problems of shallow effective soil layering and low utilization rate of precipitation in the North China Plain. The effects of different subsoiling stages on soil physical properties and water use in winter wheat/summer maize fields were studied. Three kinds of tillage treatments were studied: rotary tillage to a depth of 15 cm in October and no-tillage in June (RT), rotary tillage to a depth of 15 cm in October and subsoiling to 35 cm in June (ST-J), subsoiling to a depth of 35 cm in October and no-tillage in June (ST-O). Changes in soil bulk density and soil compaction were consistent over two seasons. Compared to RT, in the 10–50 cm soil layer, ST-J and ST-O decreased the average soil bulk density by 6.18% and 5.66%, respectively, and the soil compaction in the 10–60 cm layer was reduced by 17.89% and 20.50%. ST was improved soil structure and increased the water content of deep soil. The water use efficiency (WUE) of ST-J and ST-O increased by 4.73% and 14.83%, respectively, and the maize yields by 2.90% and 11.35%, respectively. Considering the WUE and maize yields, it was considered that ST-O is more suitable for tillage in the North China Plain.
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Long, Xin, Xuexi Tie, Jiamao Zhou, Wenting Dai, Xueke Li, Tian Feng, Guohui Li, Junji Cao und Zhisheng An. „Impact of the Green Light Program on haze in the North China Plain, China“. Atmospheric Chemistry and Physics 19, Nr. 17 (04.09.2019): 11185–97. http://dx.doi.org/10.5194/acp-19-11185-2019.

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Abstract. As the world's largest developing country, China has undergone ever-increasing demand for electricity during the past few decades. In 1996, China launched the Green Light Program (GLP), which became a national energy conservation activity for saving lighting electricity as well as an effective reduction of the coal consumption for power generation. Despite the great success of the GLP, its effects on haze have not been investigated and well understood. This study focused on assessing the potential coal saving induced by the improvement of luminous efficacy, the core of the GLP, and on estimating the consequent effects on the haze in the North China Plain (NCP), where a large number of power plants are located and are often engulfed by severe haze. The estimated potential coal saving induced by the GLP can reach a massive value of 120–323 million tons, accounting for 6.7 %–18.0 % of the total coal consumption for thermal power generation in China. There was a massive potential emission reduction of air pollutants from thermal power generation in the NCP, which was estimated to be 20.0–53.8 Gg for NOx and 6.9–18.7 Gg for SO2 in December 2015. The potential emission reduction induced by the GLP plays important roles in the haze formation, because the NOx and SO2 are important precursors for the formation of particles. To assess the impact of the GLP on haze, sensitivity studies were conducted by applying a regional chemical–dynamical model (WRF-CHEM). The model results suggest that in the case of lower-limit emission reduction, the PM2.5 concentration decreased by 2–5 µg m−3 in large areas of the NCP. In the case of upper-limit emission reduction, there was much more remarkable decrease in PM2.5 concentration (4–10 µg m−3). This study is a good example to illustrate that scientific innovation can induce important benefits for environment issues such as haze.
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Shi, Min, Huili Gong, Mingliang Gao, Beibei Chen, Shunkang Zhang und Chaofan Zhou. „Recent Ground Subsidence in the North China Plain, China, Revealed by Sentinel-1A Datasets“. Remote Sensing 12, Nr. 21 (31.10.2020): 3579. http://dx.doi.org/10.3390/rs12213579.

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Groundwater resources have been exploited and utilized on a large scale in the North China Plain (NCP) since the 1970s. As a result of extensive groundwater depletion, the NCP has experienced significant land subsidence, which threatens geological stability and infrastructure health and exacerbates the risks of other geohazards. In this study, we employed multi-track Synthetic Aperture Radar (SAR) datasets acquired by the Sentinel-1A (S1A) satellite to detect spatial and temporal distributions of surface deformation in the NCP from 2016 to 2018 based on multi-temporal interferometric synthetic aperture radar (MT-InSAR). The results show that the overall ground displacement ranged from −165.4 mm/yr (subsidence) to 9.9 mm/yr (uplift) with a standard variance of 28.8 mm/yr. During the InSAR monitoring period, the temporal pattern of land subsidence was dominated by a decreasing tendency and the spatial pattern of land subsidence in the coastal plain exhibited an expansion trend. Validation results show that the S1A datasets agree well with levelling data, indicating the reliability of the InSAR results. With groundwater level data, we found that the distribution of subsidence in the NCP is spatially consistent with that of deep groundwater depression cones. A comparison with land use data shows that the agricultural usage of groundwater is the dominant mechanism responsible for land subsidence in the whole study area. Through an integrated analysis of land subsidence distribution characteristics, geological data, and previous research results, we found that other triggering factors, such as active faults, precipitation recharge, urbanization, and oil/gas extraction, have also impacted land subsidence in the NCP to different degrees.
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42

Tamanyu, Shiro, Hirofumi Muraoka und Takemasa Ishii. „Geological interpretation of groundwater level lowering in the North China Plain“. BULLETIN OF THE GEOLOGICAL SURVEY OF JAPAN 60, Nr. 1-2 (2009): 105–15. http://dx.doi.org/10.9795/bullgsj.60.105.

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43

Dong, Y., D. Scharffe, Y. C. Qi und G. B. Peng. „Nitrous oxide emissions from cultivated soils in the North China Plain“. Tellus B: Chemical and Physical Meteorology 53, Nr. 1 (Januar 2001): 1–9. http://dx.doi.org/10.3402/tellusb.v53i1.16527.

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44

Chen, Hao, Yu Duan und Lijing Zhu. „Effect of Wheel Traffic on Crop Performance in North China Plain“. Advance Journal of Food Science and Technology 8, Nr. 2 (10.05.2015): 113–18. http://dx.doi.org/10.19026/ajfst.8.1476.

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45

Davidsen, Claus, Suxia Liu, Xingguo Mo, Dan Rosbjerg und Peter Bauer-Gottwein. „The cost of ending groundwater overdraft on the North China Plain“. Hydrology and Earth System Sciences 20, Nr. 2 (19.02.2016): 771–85. http://dx.doi.org/10.5194/hess-20-771-2016.

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Abstract. Overexploitation of groundwater reserves is a major environmental problem around the world. In many river basins, groundwater and surface water are used conjunctively and joint optimization strategies are required. A hydroeconomic modeling approach is used to find cost-optimal sustainable surface water and groundwater allocation strategies for a river basin, given an arbitrary initial groundwater level in the aquifer. A simplified management problem with conjunctive use of scarce surface water and groundwater under inflow and recharge uncertainty is presented. Because of head-dependent groundwater pumping costs the optimization problem is nonlinear and non-convex, and a genetic algorithm is used to solve the one-step-ahead subproblems with the objective of minimizing the sum of immediate and expected future costs. A real-world application in the water-scarce Ziya River basin in northern China is used to demonstrate the model capabilities. Persistent overdraft from the groundwater aquifers on the North China Plain has caused declining groundwater levels. The model maps the marginal cost of water in different scenarios, and the minimum cost of ending groundwater overdraft in the basin is estimated to be CNY 5.58 billion yr−1. The study shows that it is cost-effective to slowly recover the groundwater aquifer to a level close to the surface, while gradually lowering the groundwater value to the equilibrium at CNY 2.15 m−3. The model can be used to guide decision-makers to economic efficient long-term sustainable management of groundwater and surface water resources.
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46

Davidsen, C., S. Liu, X. Mo, D. Rosbjerg und P. Bauer-Gottwein. „The cost of ending groundwater overdraft on the North China Plain“. Hydrology and Earth System Sciences Discussions 12, Nr. 6 (22.06.2015): 5931–66. http://dx.doi.org/10.5194/hessd-12-5931-2015.

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Abstract. Over-exploitation of groundwater reserves is a major environmental problem around the world. In many river basins, groundwater and surface water are used conjunctively and joint optimization strategies are required. A hydroeconomic modelling approach is used to find cost-optimal sustainable surface water and groundwater allocation strategies for a river basin, given an arbitrary initial groundwater level in the aquifer. A simplified management problem with conjunctive use of scarce surface water and groundwater under inflow and recharge uncertainty is presented. Because of head-dependent groundwater pumping costs the optimization problem is non-linear and non-convex, and a genetic algorithm is used to solve the 1-step-ahead sub-problems with the objective of minimizing the sum of immediate and expected future costs. A real-world application in the Ziya River Basin in northern China is used to demonstrate the model capabilities. Persistent overdraft from the groundwater aquifers on the North China Plain has caused declining groundwater tables, salinization and infiltration of \\hack{\\break} wastewater. The model maps the opportunity cost of water in different scenarios, and the cost of ending groundwater overdraft in the basin is estimated to be 5.47 billion CNY yr−1. The model can be used to guide decision makers to ensure long-term sustainability of groundwater and surface water resources management in the basin in an economically optimal way.
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47

Song, Z. W., H. L. Zhang, R. L. Snyder, F. E. Anderson und F. Chen. „Distribution and Trends in Reference Evapotranspiration in the North China Plain“. Journal of Irrigation and Drainage Engineering 136, Nr. 4 (April 2010): 240–47. http://dx.doi.org/10.1061/(asce)ir.1943-4774.0000175.

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48

Yang, Zhichen, Liandi Zhou, Yizhong Lv, Hong Li, Danfeng Sun und Miao Yu. „Soil Aggregates Features Under Different Tillage Systems in North China Plain“. Advanced Science Letters 19, Nr. 9 (01.09.2013): 2761–66. http://dx.doi.org/10.1166/asl.2013.4996.

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49

Wang, Jinxia, Jikun Huang und Scott Rozelle. „Evolution of tubewell ownership and production in the North China Plain*“. Australian Journal of Agricultural and Resource Economics 49, Nr. 2 (Juni 2005): 177–95. http://dx.doi.org/10.1111/j.1467-8489.2005.00284.x.

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50

DONG, Y., D. SCHARFFE, Y. C. QI und G. B. PENG. „Nitrous oxide emissions from cultivated soils in the North China Plain“. Tellus B 53, Nr. 1 (Februar 2001): 1–9. http://dx.doi.org/10.1034/j.1600-0889.2001.01120.x.

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