Optimizing root system architecture in biofuel crops for sustainable energy production and soil carbon sequestration

Jennifer PC To; Jinming Zhu; Philip N Benfey; Tedd Elich

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Optimizing root system architecture in biofuel crops for sustainable energy production and soil carbon sequestration

机译：优化生物燃料作物的根系体系结构，以实现可持续能源生产和土壤碳固存

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Root system architecture (RSA) describes the dynamic spatial configuration of different types and ages of roots in a plant, which allows adaptation to different environments. Modifications in RSA enhance agronomic traits in crops and have been implicated in soil organic carbon content. Together, these fundamental properties of RSA contribute to the net carbon balance and overall sustainability of biofuels. In this article, we will review recent data supporting carbon sequestration by biofuel crops, highlight current progress in studying RSA, and discuss future opportunities for optimizing RSA for biofuel production and soil carbon sequestration.

机译：根系统架构（RSA）描述了植物中不同类型和年龄的根的动态空间配置，可以适应不同的环境。 RSA的修饰增强了农作物的农艺性状，并与土壤有机碳含量有关。 RSA的这些基本属性共同促进了净碳平衡和生物燃料的总体可持续性。在本文中，我们将回顾支持生物燃料作物进行碳固存的最新数据，重点介绍RSA研究的当前进展，并讨论为生物燃料生产和土壤碳固存优化RSA的未来机会。

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《F1000 Prime Reports》 |2010年第2011期|共页
作者
Jennifer PC To; Jinming Zhu; Philip N Benfey; Tedd Elich;
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Optimizing root system architecture in biofuel crops for sustainable energy production and soil carbon sequestration

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