Titlebook: Legume Nitrogen Fixation in Soils with Low Phosphorus Availability; Adaptation and Regul Saad Sulieman,Lam-Son Phan Tran Book 2017 Springer

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The Influence of Phosphate Deficiency on Legume Symbiotic N2 Fixation,hate (Pi) deficiency is a major nutritional factor limiting legume production, particularly in acidic and calcareous soils. Pi deficiency limits N. fixation, since it has been described to have a strong impact on the growth and survival of both rhizobia and host plant. Legumes have evolved complex m

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Metabolism and Transport of Carbon in Legume Nodules Under Phosphorus Deficiency,ore, P deficiency is a wide-spread agricultural dilemma. However, in addition to P, nitrogen (N) and carbon (C) metabolisms are intricately linked to plant physiological events and are major determinants in the plant and nodule responses to P deficiency. These responses can be measured in terms of g

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Examples of Belowground Mechanisms Enabling Legumes to Mitigate Phosphorus Deficiency,vide an ecologically acceptable complement or substitute for mineral nitrogen fertilizers. However, low soil nutrient availability, notably phosphorus (P), is among the most nutrient limitations for legumes whose sensitivity to P deficiency has been attributed to low soil P availability and higher P

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Role of Plant Hormones and Small Signalling Molecules in Nodulation Under P Stress,sociated with regulating general growth and development, such as cytokinin, auxin, gibberellins and strigolactones and plant hormones associated with response to stress, including ethylene. Mobile peptides and microRNAs have also shown to have significant roles in regulating nodule initiation, organ

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Adaptation to Phosphate Stress by N,-Fixing Legumes: Lessons to Learn from the Model ,,tion in soil solution is often low because it readily forms insoluble complexes with calcium in alkaline soils or with iron and aluminum oxides in acidic soils. Consequently, low Pi availability is frequently the most limiting nutrient for plant growth and development over the majority of the earth’

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Physiological Mechanisms and Adaptation Strategies in Common Bean (, L.) Under P Deficiency,ospheric dinitrogen (N.) into the food chain. Unfortunately, these properties are seriously affected when common bean plants grow on soils with low phosphate levels. Hence, in order to design strategies to develop elite cultivars able to produce high quality seeds and efficiently fix N. under phosph