Can optimization of phosphorus input lead to high productivity and high phosphorus use efficiency of cotton through maximization of root/mycorrhizal efficiency in phosphorus acquisition?

Wenxuan Mai; Xiangrong Xue; Gu Feng; Rong Yang; Changyan Tian

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Can optimization of phosphorus input lead to high productivity and high phosphorus use efficiency of cotton through maximization of root/mycorrhizal efficiency in phosphorus acquisition?

机译：通过最大化的根/糜腐败效率，磷的磷滥用的最大化可以优化磷输入的优化率高，棉花的高生产率和高磷利用效率？

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来源
《Field Crops Research》 |2018年第2018期|共9页
作者
Wenxuan Mai; Xiangrong Xue; Gu Feng; Rong Yang; Changyan Tian;
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作者单位

Xinjiang Institute of Ecology and Geography Chinese Academy of Sciences;

Xinjiang Institute of Ecology and Geography Chinese Academy of Sciences;

College of Resources and Environment China Agricultural University;

Xinjiang Institute of Ecology and Geography Chinese Academy of Sciences;

Xinjiang Institute of Ecology and Geography Chinese Academy of Sciences;

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原文格式 PDF
正文语种 other
中图分类农业科学;
关键词
Cotton; Root; Phosphorus; Hyphal density; Nutrient uptake;

机译：棉;根;磷;悬垂密度;营养吸收;
入库时间 2022-08-20 03:22:13

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专利

1. Can optimization of phosphorus input lead to high productivity and high phosphorus use efficiency of cotton through maximization of root/mycorrhizal efficiency in phosphorus acquisition? [J] . Wenxuan Mai, Xiangrong Xue, Gu Feng, Field Crops Research . 2018,第期

机译：通过最大化的根/糜腐败效率，磷的磷滥用的最大化可以优化磷输入的优化率高，棉花的高生产率和高磷利用效率？
2. Genotypic differences in phosphorus acquisition efficiency and root performance of cotton (Gossypium hirsutum) under low-phosphorus stress [J] . Chen Bolang, Wang Qinghui, Buecking Heike, Crop & Pasture Science . 2019,第4期

机译：低磷胁迫下棉花（Gossymium hirsutum）磷采集效率和根本性能的基因型差异
3. Soil plant-available phosphorus levels and maize genotypes determine the phosphorus acquisition efficiency and contribution of mycorrhizal pathway [J] . Plant and Soil . 2020,第1a2期

机译：土壤植物磷水平和玉米基因型决定了菌根途径的磷习得和贡献
4. Analysis of bacterial and mycorrhizal diversity in the rhizosphere of maize lines contrasting in phosphorus efficiency, using denaturing gradient gel electrophoresis [C] . Christiane A. de Oliveira, Robert E. Schaffert, Nadja M. H. de Sa, International Plant Nutrition Colloquium; 2005; Beijing . 2005

机译：用变性梯度凝胶电泳分析磷效率不同的玉米品系根际细菌和菌根多样性
5. Genetic, physiological, and agronomic evaluation of adventitious rooting as a trait for phosphorus acquisition efficiency in common bean (Phaseolus vulgaris L.). [D] . Ochoa, Ivan Erick. 2006

机译：不定根的遗传，生理和农艺学评价，作为普通豆（Phaseolus vulgaris L.）中磷吸收效率的一个特征。
6. Simultaneously maximizing root/mycorrhizal growth and phosphorus uptake by cotton plants by optimizing water and phosphorus management [O] . Wenxuan Mai, Xiangrong Xue, Gu Feng, 2018

机译：通过优化水和磷的管理同时最大化棉株的根/菌根生长和磷吸收
7. Novel Genes and Genetic Loci Associated With Root Morphological Traits, Phosphorus-Acquisition Efficiency and Phosphorus-Use Efficiency in Chickpea [O] . Mahendar Thudi, Yinglong Chen, Jiayin Pang, 2021

机译：与根形态特征，磷酸磷采集效率和磷使用效率相关的新型基因和遗传基因座
8. Utilizing Wetlands for Phosphorus Reduction in Great Lakes Watersheds: A Review of Available Literature Examining Soil Properties and Phosphorus Removal Efficiency. [R] . Currie, S. J., VanZomeren, C. M., Berkowitz, J. F. 2017

机译：利用湿地进行大湖流域磷减量研究 - 综述土壤性质和除磷效率的可用文献。

Can optimization of phosphorus input lead to high productivity and high phosphorus use efficiency of cotton through maximization of root/mycorrhizal efficiency in phosphorus acquisition?

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