Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review
Moving toward more sustainable sources for managing phosphorus (P) nutrition in agroecosystems, organic phosphorus (Po) derived from organic inputs and soil is increasingly considered to complement mineral P fertilizer. However, the dynamics of P added by organic input in soil-plant systems is still...
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oai:doaj.org-article:483c434cb62f4773bef8333faf8a08fa2021-11-25T16:09:35ZUnravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review10.3390/agronomy111122672073-4395https://doaj.org/article/483c434cb62f4773bef8333faf8a08fa2021-11-01T00:00:00Zhttps://www.mdpi.com/2073-4395/11/11/2267https://doaj.org/toc/2073-4395Moving toward more sustainable sources for managing phosphorus (P) nutrition in agroecosystems, organic phosphorus (Po) derived from organic inputs and soil is increasingly considered to complement mineral P fertilizer. However, the dynamics of P added by organic input in soil-plant systems is still poorly understood and there is currently no clear information on how the Po composition of these amendments determines P availability through interactions with the soil microbiome and root traits. Here, we review the main mechanisms of rhizosphere microbiome and root traits governing the dynamics of organic input/soil-derived Po pools in the soil-plant system. We discuss the extent to which the major forms of Po derived from organic input/soil can be used by plants and how this could be improved to provide efficient utilization of organic inputs as potential P sources. We provide new insights into how a better understanding of the interactions between Po forms, root traits, and rhizosphere microbiomes can help better manage P fertilization, and discuss recent advances in the mobilization and recovery of Po from organic inputs. We then develop proposed strategies in agroecology that could be used to improve Po utilization, specifically by better linking plant traits and Po forms, and developing new cropping systems allowing more efficient Po recycling.Issifou AmadouDavid HoubenMichel-Pierre FauconMDPI AGarticleagroecologybiogeochemistrycover cropsorganic inputsorganic phosphorusplant traitsAgricultureSENAgronomy, Vol 11, Iss 2267, p 2267 (2021) |
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agroecology biogeochemistry cover crops organic inputs organic phosphorus plant traits Agriculture S |
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agroecology biogeochemistry cover crops organic inputs organic phosphorus plant traits Agriculture S Issifou Amadou David Houben Michel-Pierre Faucon Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review |
| description |
Moving toward more sustainable sources for managing phosphorus (P) nutrition in agroecosystems, organic phosphorus (Po) derived from organic inputs and soil is increasingly considered to complement mineral P fertilizer. However, the dynamics of P added by organic input in soil-plant systems is still poorly understood and there is currently no clear information on how the Po composition of these amendments determines P availability through interactions with the soil microbiome and root traits. Here, we review the main mechanisms of rhizosphere microbiome and root traits governing the dynamics of organic input/soil-derived Po pools in the soil-plant system. We discuss the extent to which the major forms of Po derived from organic input/soil can be used by plants and how this could be improved to provide efficient utilization of organic inputs as potential P sources. We provide new insights into how a better understanding of the interactions between Po forms, root traits, and rhizosphere microbiomes can help better manage P fertilization, and discuss recent advances in the mobilization and recovery of Po from organic inputs. We then develop proposed strategies in agroecology that could be used to improve Po utilization, specifically by better linking plant traits and Po forms, and developing new cropping systems allowing more efficient Po recycling. |
| format |
article |
| author |
Issifou Amadou David Houben Michel-Pierre Faucon |
| author_facet |
Issifou Amadou David Houben Michel-Pierre Faucon |
| author_sort |
Issifou Amadou |
| title |
Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review |
| title_short |
Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review |
| title_full |
Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review |
| title_fullStr |
Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review |
| title_full_unstemmed |
Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review |
| title_sort |
unravelling the role of rhizosphere microbiome and root traits in organic phosphorus mobilization for sustainable phosphorus fertilization. a review |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/483c434cb62f4773bef8333faf8a08fa |
| work_keys_str_mv |
AT issifouamadou unravellingtheroleofrhizospheremicrobiomeandroottraitsinorganicphosphorusmobilizationforsustainablephosphorusfertilizationareview AT davidhouben unravellingtheroleofrhizospheremicrobiomeandroottraitsinorganicphosphorusmobilizationforsustainablephosphorusfertilizationareview AT michelpierrefaucon unravellingtheroleofrhizospheremicrobiomeandroottraitsinorganicphosphorusmobilizationforsustainablephosphorusfertilizationareview |
| _version_ |
1718413314218786816 |