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Catchment functioning under prolonged drought stress : Tracer‐aided ecohydrological modeling in an intensively managed agricultural catchment (2021)

Yang, Xiaoqiang ; Tetzlaff, Doerthe ; Soulsby, Christopher ; [et al.]

Wiley,

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UID:

kobvindex_IGB000024845

ISSN: 1944-7973

In: Water Resources Research. - 57(2021)3, e2020WR029094

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IGB Berlin

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Hai shang si chou zhi lu yu zhong guo — dong meng guan xi : = Maritime Silk Road and China-ASEAN Relations (2016)

Yang, Xiaoqiang ; Xu, Liping

Bei jing

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UID:

gbv_1676866000

Format: 1 Online-Ressource

Original writing title: 海上丝绸之路与中国—东盟关系

Original writing person/organisation: 杨晓强

Original writing publisher: 北京 : 社会科学文献出版社

ISBN: 9787509776797

Content: 海上丝绸之路自秦汉时期开通以来，一直是沟通东西方经济文化交流的重要桥梁，而东南亚地区自古就是海上丝绸之路的重要枢纽和组成部分。基于历史，中国政府提出了建设21世纪海上丝绸之路的战略构想。本书是“21世纪海上丝绸之路与中国—东盟命运共同体”学术研讨会的论文集，围绕海上丝绸之路及中国—东盟关系的历史、现状展开，并据此分析了建设21世纪海上丝绸之路及发展中国—东盟命运共同体的机遇、挑战和深远历史意义。

Note: 电子文献 , Pinyin-Umschrift und Langzeichen wurden automatisiert erstellt

Language: Chinese

URL: Volltext

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Stabi Berlin

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Dong meng fa zhan bao gao （ 2 0 1 5 ） : = Annual Report of ASEAN's Development (2015) (2016)

Yang, Xiaoqiang ; Zhuang, Guotu

Bei jing

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UID:

gbv_1676869115

Format: 1 Online-Ressource

Original writing title: 东盟发展报告（2015）

Original writing person/organisation: 杨晓强

Original writing publisher: 北京 : 社会科学文献出版社

ISBN: 9787509787564

Series Statement: Dong meng huang pi shu

Content: 本书分三部分，第一部分对2014～2015年东盟各国及中国与东盟关系的整体性宏观分析，回顾了2014年东南亚国家内政外交的悲喜震荡，2015年东盟各国对经济共同体翘首以盼的积极准备，以及中国与东盟正在倾力打造双边自由贸易区升级版的具体举措；第二部分分析了东盟十国各国社会、经济、政治发展的整体状况和热点问题，并就其时政重点进行了详细分析；第三部分对中国与东盟各国关系的发展进行了深入分析。

Note: 电子文献 , Pinyin-Umschrift und Langzeichen wurden automatisiert erstellt

Language: Chinese

URL: Volltext

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Stabi Berlin

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Dong meng fa zhan bao gao （ 2 0 1 4 ） : = Annual Report of Asean's Development(2014) (2014)

Yang, Xiaoqiang ; Zhuang, Guotu

Bei jing

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UID:

gbv_1676845240

Format: 1 Online-Ressource

Original writing title: 东盟发展报告（2014）

Original writing person/organisation: 杨晓强

Original writing publisher: 北京 : 社会科学文献出版社

ISBN: 9787509769010

Series Statement: Dong meng huang pi shu

Content: 本书是全面了解当前东盟国家发展形势和中国-东盟关系的重要参考书。书中首先对2013-2014年东盟和中国-东盟关系进行了宏观分析，认为2013年东盟经济发展较快，政治民主化进程步总体向前推进，中国-东盟关系也稳步发展，然后分析了各国的经济社会发展状况和热点问题，着重突出其中的亮点，最后对中国与东盟各国关系的发展进行了深入分析。

Note: 电子文献 , Pinyin-Umschrift und Langzeichen wurden automatisiert erstellt

Language: Chinese

URL: Volltext

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Disentangling the influence of landscape characteristics, hydroclimatic variability and land management on surface water NO3-N dynamics : spatially distributed modeling over 30 yr in a lowland mixed land use catchment (2022)

Wu, Songjun ; Tetzlaff, Doerthe ; Yang, Xiaoqiang ; [et al.]

Wiley,

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UID:

kobvindex_IGB000025312

ISSN: 1944-7973

In: Water Resources Research. - 58(2022)2, Art. e2021WR030566

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IGB Berlin

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Functional multi-scale integration of agricultural nitrogen-budgets into catchment water quality modeling / (2022)

Yang, Xiaoqiang ; Rode, Michael ; Jomaa, Seifeddine ; [et al.]

Wiley,

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UID:

kobvindex_IGB000025332

ISSN: 1944-8007

In: Geophysical Research Letters. - 49(2022)4, Art. e2021GL096833

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IGB Berlin

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Integrating Tracers and Soft Data Into Multi‐Criteria Calibration: Implications From Distributed Modeling in a Riparian Wetland (2023)

Wu, Songjun ; Tetzlaff, Doerthe ; Yang, Xiaoqiang ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_29229

Format: 1 Online-Ressource (21 Seiten)

ISSN: 0043-1397 , 1944-7973 , 0043-1397 , 1944-7973

Content: Calibrating distributed hydrological models often leads to equifinality due to complex model structures, which can be further exacerbated in wetlands due to spatio‐temporal heterogeneity in ecohydrological processes. Here, step‐wise calibrations of the physically‐based distributed model EcH2O‐iso was conducted in a data‐rich wetland by minimizing a weighted average of the errors on discharge, stream isotopes, groundwater (GW) isotopes, and soil moisture. Results showed multi‐criteria calibration outperformed single‐criterion calibration as it strongly increased the overall performance, yet only marginally degraded performance of each calibration target. Isotopes were highlighted as appropriate auxiliary data as they effectively constrained the model with relatively small weights (0.1). However, those parameter sets that minimize the errors could still lead to physically implausible simulations of uncalibrated internal states or fluxes. This was further demonstrated by an approach developed to check internal fluxes based on soft data (transpiration and lateral flow), suggesting 54% of optimized models gave “right answers for the wrong reasons.” By excluding those models against soft data, such an approach further constrained equifinality, and unraveled potential inconsistencies between observations and calibration. Modeling represented the wetland as a slow‐draining system mainly fed by GW, but also influenced by near‐surface flow during winter or summer convectional events. Further, heterogeneity in hydrological functioning was partly attributed to distinct evapotranspiration patterns between contrasting vegetation communities. Therefore, this study not only provided insights into wetland functioning, but also revealed potential equifinality even with abundant data for calibration, and potential solutions based on the integration of isotopes and soft data.

Content: Peer Reviewed

In: [New York] : Wiley, 59,11, 0043-1397

In: 1944-7973

Language: English

DOI: 10.18452/28610

DOI: 10.1029/2023WR035509

URN: urn:nbn:de:kobv:11-110-18452/29229-2

URL: Volltext (kostenfrei)

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HU Berlin

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Spatial and temporal analyses of catchment and in-stream nitrate dynamics : insights derived from fully distributed, process-based modeling and high-frequency monitoring (2019)

Yang, Xiaoqiang [VerfasserIn] ; Futter, Martyn N. [AkademischeR BetreuerIn] ; Rode, Michael [AkademischeR BetreuerIn] 1962- ; [et al.]

Potsdam

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UID:

gbv_1740239601

Format: 1 Online-Ressource (VIII, 146 Seiten, 10140 KB) , Illustrationen, Diagramme, Karten

Content: Water quality in river systems is of growing concern due to rising anthropogenic pressures and climate change. Mitigation efforts have been placed under the guidelines of different governance conventions during last decades (e.g., the Water Framework Directive in Europe). Despite significant improvement through relatively straightforward measures, the environmental status has likely reached a plateau. A higher spatiotemporal accuracy of catchment nitrate modeling is, therefore, needed to identify critical source areas of diffuse nutrient pollution (especially for nitrate) and to further guide implementation of spatially differentiated, cost-effective mitigation measures. On the other hand, the emerging high-frequency sensor monitoring upgrades the monitoring resolution to the time scales of biogeochemical processes and enables more flexible monitoring deployments under varying conditions. The newly available information offers new prospects in understanding nitrate spatiotemporal dynamics. Formulating such advanced process ...

Note: kumulative Dissertation , Dissertation Universität Potsdam 2020

Additional Edition: Erscheint auch als Druck-Ausgabe Yang, Xiaoqiang Spatial and temporal analyses of catchment and in-stream nitrate dynamics Potsdam, 2019

Language: English

Keywords: Gewässer ; Einzugsgebiet ; Nitratbelastung ; Modellierung ; Hochschulschrift

DOI: 10.25932/publishup-47702

URN: urn:nbn:de:kobv:517-opus4-477029

URL: kostenfrei

URL: https://d-nb.info/1221183540/34

URL: kostenfrei

Author information: Rode, Michael 1962-

Author information: Lischeid, Gunnar 1962-

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UB Potsdam

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Upscaling Tracer‐Aided Ecohydrological Modeling to Larger Catchments: Implications for Process Representation and Heterogeneity in Landscape Organization (2023)

Yang, Xiaoqiang ; Tetzlaff, Doerthe ; Müller, Christin ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_27097

Format: 1 Online-Ressource (22 Seiten)

Content: Stable isotopes of water are ideal tracers to integrate into process‐based models, advancing ecohydrological understanding. Current tracer‐aided ecohydrological modeling is mostly conducted in relatively small‐scale catchments, due to limited tracer data availability and often highly damped stream isotope signals in larger catchments (〉100 km2). Recent model developments have prioritized better spatial representation, offering new potential for advancing upscaling in tracer‐aided modeling. Here, we adapted the fully distributed EcH2O‐iso model to the Selke catchment (456 km2, Germany), incorporating monthly sampled isotopes from seven sites between 2012 and 2017. Parameter sensitivity analysis indicated that the information content of isotope data was generally complementary to discharge and more sensitive to runoff partitioning, soil water and energy dynamics. Multi‐criteria calibrations revealed that inclusion of isotopes could significantly improve discharge performance during validations and isotope simulations, resulting in more reasonable estimates of the seasonality of stream water ages. However, capturing isotopic signals of highly non‐linear near‐surface processes remained challenging for the upscaled model, but still allowed for plausible simulation of water ages reflecting non‐stationarity in transport and mixing. The detailed modeling also helped unravel spatio‐temporally varying patterns of water storage‐flux‐age interactions and their interplay under severe drought conditions. Embracing the upscaling challenges, this study demonstrated that even coarsely sampled isotope data can be of value in aiding ecohydrological modeling and consequent process representation in larger catchments. The derived innovative insights into ecohydrological functioning at scales commensurate with management decision making, are of particular importance for guiding science‐based measures for tackling environmental changes.

Content: Peer Reviewed

In: [New York] : Wiley, 59,3

Language: English

DOI: 10.18452/26416

DOI: 10.1029/2022WR033033

URN: urn:nbn:de:kobv:11-110-18452/27097-5

URL: Volltext (kostenfrei)

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HU Berlin

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Disentangling the Influence of Landscape Characteristics, Hydroclimatic Variability and Land Management on Surface Water NO3-N Dynamics: Spatially Distributed Modeling Over 30 yr in a Lowland Mixed Land Use Catchment (2022)

Wu, Songjun ; Tetzlaff, Doerthe ; Yang, Xiaoqiang ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_29754

Format: 1 Online-Ressource (20 Seiten)

Content: Nitrate (NO3-N) mobilization is generally controlled by available sources, hydrological connectivity, and biogeochemical transformations along the dominant flow paths. However, their spatial heterogeneity and complex interactions often impede integrated understanding of NO3-N dynamics at the catchment scale. To fully integrate spatiotemporal information for NO3-N simulations, a grid-based model, mHM-Nitrate, was applied to a 68 km2 lowland, mixed land use catchment (Demnitzer Millcreek, DMC) near Berlin. The model successfully captured the spatiotemporal distribution of flow and NO3-N between 2001 and 2019, but was less successful in 1992–2000 due to land management changes. Re-optimization of relative parameters was subsequently conducted for this period to understand management effects. The simulated results revealed landscape characteristics and hydroclimatic variability as the main controlling factors on respective spatial and temporal patterns. The combined effects of vegetation cover and fertilizer inputs dictated the spatial distribution of water and NO3-N fluxes, while wetness condition determined the temporal NO3-N dynamics by regulating hydrological connectivity and NO3-N mobilization. Denitrification was also closely coupled with hydroclimatic conditions, which accounted for ∼20% of NO3-N inputs. In contrast, restoration of riparian wetlands had a modest impact on NO3-N export (∼10% reduction during 2001–2019), suggesting further interventions (e.g., reducing fertilizer application or increased wetland areas) are needed. Our modeling application demonstrated that mHM-Nitrate could provide robust spatially distributed simulations of hydrological and NO3-N fluxes over a long-term period and could successfully differentiate the key controlling factors. This underlines the model's value in contributing to an evidence base to guide future management practices under climate change.

Content: Peer Reviewed

In: [New York] : Wiley, 58,2

Language: English

DOI: 10.18452/29128

DOI: 10.1029/2021WR030566

URN: urn:nbn:de:kobv:11-110-18452/29754-7

URL: Volltext (kostenfrei)

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HU Berlin

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