Optimizing the bioenergy water footprint by selecting SRC willow canopy phenotypes: regional scenario simulations

Richard Benjamin; Richter Goetz M.; Cerasuolo Marianna; Shield Ian

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Optimizing the bioenergy water footprint by selecting SRC willow canopy phenotypes: regional scenario simulations

机译：通过选择SRC柳树冠表型来优化生物能量水脚印：区域场景模拟

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Background and Aims Bioenergy is central for the future energy mix to mitigate climate change impacts; however, its intricate link with the water cycle calls for an evaluation of the carbon-water nexus in biomass production. The great challenge is to optimize trade-offs between carbon harvest and water use by choosing cultivars that combine low water use with high productivity.

机译：背景和目标生物能源是未来能源混合的中央，减轻气候变化的影响; 然而，其与水循环的复杂联系要求对生物质生产中的碳水Nexus进行评估。巨大的挑战是通过选择与高生产率的栽培品种来优化碳收获和用水之间的权衡。

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来源
《Annals of Botany》 |2019年第4期|共12页
作者
Richard Benjamin; Richter Goetz M.; Cerasuolo Marianna; Shield Ian;
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作者单位

Rothamsted Res Dept Sustainable Agr Sci Harpenden AL5 2JQ Herts England;

Rothamsted Res Dept Sustainable Agr Sci Harpenden AL5 2JQ Herts England;

Univ Portsmouth Dept Math Lion Gate Bldg Lion Terrace Portsmouth PO1 3HF Hants England;

Rothamsted Res Dept Sustainable Agr Sci Harpenden AL5 2JQ Herts England;

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原文格式 PDF
正文语种 eng
中图分类植物学;
关键词
Bioenergy; canopy type; climate change; evapotranspiration; LUCASS-model; marginal soils; water use efficiency; woody biomass;

机译：生物能量;冠层类型;气候变化;蒸发;Lucass模型;边缘土壤;用水效率;木质生物质;

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专利

1. Optimizing the bioenergy water footprint by selecting SRC willow canopy phenotypes: regional scenario simulations [J] . Richard Benjamin, Richter Goetz M., Cerasuolo Marianna, Annals of Botany . 2019,第4期

机译：通过选择SRC柳树冠表型来优化生物能量水脚印：区域场景模拟
2. An application of the water footprint assessment to optimize production of crops irrigated with saline water: A scenario assessment with HYDRUS [J] . Karandish Fatemeh, Simunek Jiri Agricultural Water Management . 2018,第期

机译：水足迹评估应用优化盐水灌溉作物的生产：熟水的情景评估
3. Using Regional Virtual Water Trade and Water Footprint Accounting for Optimizing Crop Patterns to Mitigate Water Crises in Dry Regions [J] . Mojtabavi Seyed Amin, Shokoohi Alireza, Ramezani Etedali Hadi, Irrigation and Drainage . 2018,第2期

机译：利用区域虚拟水贸易和水足迹占优化作物模式以减轻干燥地区的水危机
4. Short Rotation Coppice (SRC) Willow as an Energy Source and as an Effective Method for the Bioremediation of Wastewater Streams [C] . Alistair R. McCracken, Malcolm Dawson, Linda Walsh Conference C85 of the Solar Energy Society . 2006

机译：短旋转Coppice（SRC）作为能源柳，作为废水流生物修复的有效方法
5. Src family kinase involvement in selected cancer cell phenotypes [D] . Smith-Windsor, Erin Lea 2011

机译：Src家族激酶参与选定的癌细胞表型
6. Optimizing the bioenergy water footprint by selecting SRC willow canopy phenotypes: regional scenario simulations [O] . Benjamin Richard, Goetz M Richter, Marianna Cerasuolo, 2019

机译：通过选择SRC柳冠层表型来优化生物能源水足迹：区域情景模拟
7. Quality assessment of atmospheric surface fields over the Baltic Sea from an ensemble of regional climate model simulations with respect to ocean dynamics**The work presented in this study was jointly funded by the Swedish Environmental Protection Agency (SEPA), the Swedish Research Council for Environment, Agricultural Sciences and Spatial Planning (FORMAS), and the European Commission within the projects ECOSUPPORT (Advanced modelling tool for scenarios of the Baltic Sea ECOsystem to SUPPORT decision making, ref. no. 08/381), AMBER (Assessment and Modelling Baltic Ecosystem Response, ref. no. 08/390) and INFLOW (Holocene saline water inflow changes into the Baltic Sea, ecosystem responses and future scenarios, ref. no. 2008–1885). All three projects are part of the BONUS+program (http://www.bonusportal.org). [O] . Meier H.E. Markus, Höglund Anders, Döscher Ralf, 2011

机译：通过与海洋动力学有关的区域气候模型模拟的集成，对波罗的海的大气表面场进行质量评估**这项研究中的工作由瑞典环境保护局（SEPA），瑞典环境研究委员会共同资助，农业科学与空间规划（FORMAS）和欧盟委员会在ECOSUPPORT（用于波罗的海生态系统情景以支持决策的高级建模工具，参考号08/381），AMBER（评估和建模波罗的海生态系统）中响应，参考号08/390）和INFLOW（向波罗的海的全新盐水盐分流入变化，生态系统响应和未来情景，参考号2008-1885）。这三个项目都是BONUS +计划（http://www.bonusportal.org）的一部分。

Optimizing the bioenergy water footprint by selecting SRC willow canopy phenotypes: regional scenario simulations

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