Bioengineering and management for efficient phosphorus utilization in crops and pastures. (Special Issue: Phosphorus biotechnology - Pharmaceutical biotechnology.)

Tian Jiang; Wang XiuRong; Tong YiPing; Chen XinPing; Liao Hong

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Bioengineering and management for efficient phosphorus utilization in crops and pastures. (Special Issue: Phosphorus biotechnology - Pharmaceutical biotechnology.)

机译：生物工程和管理，以有效利用农作物和牧场中的磷。（特刊：磷生物技术-制药生物技术。）

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Phosphorus (P) is one of the three macronutrients for plants. Because of its low mobility and high fixation in soils, low P availability is a worldwide constraint for crop productivity. Molecular biology provides great opportunities to improve P efficiency in plants. However, transgenic plants cannot be commercialized before integrating all the knowledge on bottlenecks for improving P efficiency of crops/pastures. This review intends to summarize the main strategies of bioengineering to improve P efficiency of crops/pastures, including conventional and molecular assisted breeding, identification and application of key genes for biotech plants. It highlights recent advances in the understanding of improving P efficiency through the integration of bioengineering with P fertilization and cultivation management.

机译：磷（P）是植物的三种主要营养素之一。由于磷的低迁移率和在土壤中的高固着性，磷的低利用率在全球范围内限制了作物的生产力。分子生物学为提高植物的磷效率提供了巨大的机会。但是，在整合有关瓶颈的所有知识以提高农作物/牧草磷素利用率之前，无法将转基因植物商业化。这篇综述旨在总结生物工程提高农作物/牧草磷效率的主要策略，包括常规和分子辅助育种，生物技术植物关键基因的鉴定和应用。它着重介绍了通过将生物工程与磷肥和栽培管理相结合来提高磷肥效率的最新进展。

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《Current opinion in biotechnology》 |2012年第6期|共6页
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Tian Jiang; Wang XiuRong; Tong YiPing; Chen XinPing; Liao Hong;
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中图分类生物学实验与生物学技术;
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1. Bioengineering and management for efficient phosphorus utilization in crops and pastures. (Special Issue: Phosphorus biotechnology - Pharmaceutical biotechnology.) [J] . Tian Jiang, Wang XiuRong, Tong YiPing, Current opinion in biotechnology . 2012,第6期

机译：生物工程和管理，以有效利用农作物和牧场中的磷。（特刊：磷生物技术-制药生物技术。）
2. The phosphorus mass balance: identifying 'hotspots' in the food system as a roadmap to phosphorus security. (Special Issue: Phosphorus biotechnology - Pharmaceutical biotechnology.) [J] . Cordell D., Neset T. S. S., Prior T. Current opinion in biotechnology . 2012,第6期

机译：磷的质量平衡：将粮食系统中的“热点”确定为磷安全的路线图。（特刊：磷生物技术-制药生物技术。）
3. Biologically and chemically mediated adsorption and precipitation of phosphorus from wastewater. (Special Issue: Phosphorus biotechnology - Pharmaceutical biotechnology.) [J] . Pratt C., Parsons S. A., Soares A., Current opinion in biotechnology . 2012,第6期

机译：生物和化学介导的废水中磷的吸附和沉淀。（特刊：磷生物技术-制药生物技术。）
4. PHOSPHORUS FERTILISER REQUIREMENTS FOR PLANT AND RATOON CROPS ON SOILS WITH VERY HIGH PHOSPHORUS SORPTION CHARACTERISTICS [C] . DM Skocaj, AP HURNEY, BL SCHROEDER Annual Conference of the Australian^Society^of^Sugar^Cane^Technologists. . 2014

机译：具有非常高的磷吸附特性土壤植物和液压作物的磷肥要求
5. Linkages between Cover Crops, Phosphorus Fertilizer Management, Soil Health, and Phosphorus Bioavailability in Replicated Research Watersheds [D] . Starr, Laura Marie. 2021

机译：封面作物，磷肥管理，土壤健康和复制研究中的磷生物利用性之间的联系
6. Focus Issue on Phosphorus Plant Physiology: Phosphorus Nutrition of Proteaceae in Severely Phosphorus-Impoverished Soils: Are There Lessons To Be Learned for Future Crops? [O] . Hans Lambers, Patrick M. Finnegan, Etienne Laliberté, 2011

机译：磷植物生理学的重点问题：严重缺磷的土壤中Proteaceae的磷营养：将来的农作物是否有经验教训？
7. Evaluation of phosphorus starvation inducible genes relating to efficient phosphorus utilization in rice [O] . Shinano Takuro, Nanamori M., Dohi M., 2005

机译：水稻有效磷利用相关磷饥饿诱导基因的评估

Bioengineering and management for efficient phosphorus utilization in crops and pastures. (Special Issue: Phosphorus biotechnology - Pharmaceutical biotechnology.)

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