ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

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Editorial: Climatic and associated cryospheric and hydrospheric changes on the third pole (2021)

Wang, L. ; Song, C. ; Conradt, T. ; [et al.]

In: Frontiers in Earth Science

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Publication Date: 2022-03-21

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Quantifying water scarcity in northern China within the context of climatic and societal changes and south‐to‐north water diversion (2020)

Yin, Y. ; Wang, L. ; Wang, Z. ; [et al.]

In: Earth's Future

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Publication Date: 2022-03-21

Description: With the increasing pressure from population growth and economic development, northern China (NC) faces a grand challenge of water scarcity, which can be further exacerbated by climatic and societal changes. The South‐to‐North Water Diversion (SNWD) project is designed to mitigate the water scarcity in NC. However, few studies have quantified the impact of the SNWD on water scarcity within the context of climatic and societal changes and its potential effects on economic and agricultural food in the region. We used water supply stress index (WaSSI) to quantify water scarcity within the context of environmental change in NC, and developed a method to estimate the economic and agricultural impacts of the SNWD. Focuses were put on alleviating the water supply shortage and economic and agricultural benefits for the water‐receiving NC. We find that societal changes, especially economic growth, are the major contributors to water scarcity in NC during 2009–2099. To completely mitigate the water scarcity of NC, at least an additional water supply of 13 billion m3/year (comparable to the annual diversion water by SNWD Central Route) will be necessary. Although SNWD alone cannot provide the full solution to northern China's water shortage in next few decades, it can significantly alleviate the water supply stress in NC (particularly Beijing), considerably increasing the agricultural production (more than 115 Teracalories/year) and bringing economic benefits (more than 51 billion RMB/year) through supplying industrial and domestic water use. Additionally, the transfer project could have impacts on the ecological environment in the exporting regions.

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Modellgestützte Wirkungsanalysen ausgewählter Maßnahmen und Strategien (2021)

Baum, S. ; Conradt, T. ; Dechow, R. ; [et al.]

In: Wechselwirkungen zwischen Landnutzung und Klimawandel

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Publication Date: 2022-03-21

Description: Im Dialog mit Akteuren der Landnutzung wurden die Leitmotive Klimaschutz, Bioenergieerzeugung, Umwelt- und Naturschutz und Klimaanpassung herausgearbeitet und anschließend in Landnutzungsstrategien untersucht sowie die möglichen Beiträge dieser Landnutzungsstrategien zu gesellschaftlichen Zielen geprüft. Die Szenarienstudie CC-LandStraD fokussiert auf Vermeidungsstrategien des Klimawandels. Betrachtete Klimaszenarien illustrieren die Unsicherheit zukünftiger Entwicklungen. Die Wirkungen ausgewählter Maßnahmen und Landnutzungsstrategien wurden mit Hilfe eines interdisziplinären Modellverbundes im Rahmen eines komparativ-statischen Vergleichs untersucht, und zwar für die Landnutzungssektoren Siedlung und Verkehr sowie Land- und Forstwirtschaft. Anschließend wurden Maßnahmen gebündelt und zu Strategien zusammengefasst und die Wirkungen regional differenziert im Hinblick auf Änderungen der Flächennutzung, land- und forstwirtschaftlicher Produktion und Einkommen sowie Simulation von Waldbeständen sowie Stoffflüssen ausgewertet.

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The complex multi-sectoral impacts of drought: Evidence from a mountainous basin in the Central Spanish Pyrenees (2021)

Vicente-Serrano, S. ; Peña-Angulo, D. ; Murphy, C. ; [et al.]

In: Science of the Total Environment

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Publication Date: 2022-03-21

Description: We analyzed the impacts of drought severity on a variety of sectors in a topographically complex basin (the upper Aragón basin 2181 km2) in the Central Spanish Pyrenees. Using diverse data sources including meteorological and hydrological observations, remote sensing and tree rings, we analyze the possible hydrological implications of drought occurrence and severity on water availability in various sectors, including downstream impacts on irrigation water supply for crop production. Results suggest varying responses in forest activity, secondary growth, plant phenology, and crop yield to drought impacts. Specifically, meteorological droughts have distinct impacts downstream, mainly due to water partitioning between streamflow and irrigation channels that transport water to crop producing areas. This implies that drought severity can extend beyond the physical boundaries of the basin, with impacts on crop productivity. This complex response to drought impacts makes it difficult to develop objective basin-scale operational definitions for monitoring drought severity. Moreover, given the high spatial variability in responses to drought across sectors, it is difficult to establish reliable drought thresholds from indices that are relevant across all socio-economic sectors. The anthropogenic impacts (e.g. water regulation projects, ecosystem services, land cover and land use changes) pose further challenges to assessing the response of different systems to drought severity. This study stresses the need to consider the seasonality of drought impacts and appropriate drought time scales to adequately assess and understand their complexity.

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Increased Vegetation in Mountainous Headwaters Amplifies Water Stress During Dry Periods (2021)

Vicente‐Serrano, S. ; Domínguez‐Castro, F. ; Murphy, C. ; [et al.]

In: Geophysical Research Letters

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Publication Date: 2022-07-13

Description: The dynamics of blue and green water partitioning under vegetation and climate change, as well as their different interactions during wet and dry periods, are poorly understood in the literature. We analyzed the impact of vegetation changes on blue water generation in a central Spanish Pyrenees basin undergoing intense afforestation. We found that vegetation change is a key driver of large decreases in blue water availability. The effect of vegetation increase is amplified during dry years, and mainly during the dry season, with streamflow reductions of more than 50%. This pattern can be attributed primarily to increased plant water consumption. Our findings highlight the importance of vegetation changes in reinforcing the decrease in water resource availability. With aridity expected to rise in southern Europe over the next few decades, interactions between climate and land management practices appear to be amplifying future hydrological drought risk in the region.

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The Crop Generator: Implementing crop rotations to effectively advance eco-hydrological modelling (2021)

Sietz, D. ; Conradt, T. ; Krysanova, V. ; [et al.]

In: Agricultural Systems

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Publication Date: 2022-09-01

Description: CONTEXT: Crop rotations considerably affect the hydrological regime of river basins used for agricultural production and are key for sustainable land and water management. However, eco-hydrological modelling usually neglects crop rotations.OBJECTIVE: In this paper, we present a Crop Generator to reproduce the stochastic characteristics of crop rotations at regional scale. METHODS: The Crop Generator emulates farmers’ decision making on crop rotation planning. We combined the Crop Generator with the eco-hydrological Soil and Water Integrated Model to show the hydrological relevance of considering crop rotations in a study region in central Europe including the Elbe River basin. RESULTS AND CONCLUSIONS: A spatial validation showed that the Crop Generator reproduced the given cropping patterns well. Higher daily discharge, runoff and groundwater seepage and lower evapotranspiration were simulated based on crop rotations compared with a simplified representation of cropping patterns. The Crop Generator is a solution to simulate more realistic cropping patterns in large-scale eco-hydrological modelling. It closes the gap between aggregated agricultural statistics and the requirement of representing crop rotations in a realistic way in eco-hydrological modelling.SIGNIFICANCE: The Crop Generator enables smart projections of future adjustments in crop rotations in view of climate and socio-economic changes as a basis for improving eco-hydrological projections and designing more sustainable agricultural systems.

Language: English

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