Exploring phosphorus fertilizers and fertilization strategies for
1、Exploring phosphorus fertilizers and fertilization strategies for
We advocate for the understanding of plant physiological processes, such as physiological P requirement, storage of excess P as phytate, and plant uptake mechanisms, to identify novel ways of designing and delivering P fertilizers to plants for improved uptake.
2、Phosphorus fertilizer: from commodity to speciality — from fertilizing
Addressing P bioavailability and fertilization concerns, this review highlights innovative speciality P-fertilizers and their integration into modern agriculture to optimize plant-level fertilization, thereby reducing environmental P losses and improving P use efficiency (PUE).
3、Exploring phosphorus fertilizers and
Mineral phosphorus (P) fertilizers support high crop yields and contribute to feeding the teeming global population. However, complex edaphic processes cause P to be immobilized in soil, hampering its timely and sufficient availability for uptake by plants.
4、Exploring phosphorus fertilizers and fertilization strategies for
We advocate for the understanding of plant physiological processes, such as physiological P requirement, storage of excess P as phytate, and plant uptake mechanisms, to identify novel ways of...
5、Exploring phosphorus fertilizers and fertilization strategies for
We argue that the improvement of the nutritional value of crops, especially cereals, through reduced phytic acid and increased zinc and iron contents should be among the most important drivers toward the development of innovative fertilizer products and fertilization technologies.
探索改善人类和环境健康的磷肥和施肥策略,Biology and
我们认为,通过减少植酸和增加锌和铁含量来提高作物,尤其是谷物的营养价值,应该是开发创新肥料产品和施肥技术的最重要驱动因素之一。 在本文中,我们提出了支持这一论点的各种途径。 重新调整磷肥产品和施用策略将有助于对抗人类的饥饿和微量营养素缺乏症。 而且, 矿物磷 (P) 肥料支持高作物产量,并有助于养活人口众多的全球人口。 然而,复杂的土壤过程导致 P 固定在土壤中,阻碍其及时和充分地被植物吸收。 当前水溶性磷肥的低使用效率造成了严重的环境和人类健康问题。 目前提高磷利用效率的做法不足以减少这些问题。 我们提倡了解植物生理过程,如生理磷需求、过量磷作为植酸盐的储存和植物吸收机制,以确定设计和向植物输送磷肥以提高吸收的新 …
Exploring phosphorus fertilizers and fertilization strategies
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Exploring phosphorus fertilizers and fertilization strategies for
We advocate for the understanding of plant physiological processes, such as physiological P requirement, storage of excess P as phytate, and plant uptake mechanisms, to identify novel ways of designing and delivering P fertilizers to plants for improved uptake.
Exploring phosphorus fertilizers and fertilization strategies for
In this paper, we review potential pathways to arrive at innovative P fertilizer products and fertilization strategies to increase crop P use efficiency, thereby enhancing productivity and crop nutritional value.
Phenotypic variability and genome
Background Potatoes require phosphorus (P) for growth, tuber production and starch quality, but their small and shallow root system limits the nutrient acquisition. This results in excessive use of mineral P fertilisers, leading to environmental and economic concerns due to resource depletion. Identifying potato genotypes with high P efficiency and understanding the underlying genes ...