%0 Journal Article
%9 ACL : Articles dans des revues avec comité de lecture répertoriées par l'AERES
%A Dondjou, D. T.
%A Diedhiou, A. G.
%A Mbodj, D.
%A Mofini, M. T.
%A Pignoly, S.
%A Ndiaye, C.
%A Diedhiou, I.
%A Assigbetsé, Komi
%A Manneh, B.
%A Laplaze, Laurent
%A Kane, A.
%T Rice developmental stages modulate rhizosphere bacteria and archaea co-occurrence and sensitivity to long-term inorganic fertilization in a West African Sahelian agro-ecosystem
%D 2023
%L fdi:010087786
%G ENG
%J Environmental Microbiome
%K Metabarcoding ; 16S rRNA gene ; Fertilization ; Inter-kingdom network
%K SENEGAL ; ZONE SAHELIENNE
%M ISI:000989171700001
%N 1
%P 42 [17 ]
%R 10.1186/s40793-023-00500-1
%U https://www.documentation.ird.fr/hor/fdi:010087786
%> https://horizon.documentation.ird.fr/exl-doc/pleins_textes/2023-07/010087786.pdf
%V 18
%W Horizon (IRD)
%X Background Rhizosphere microbial communities are important components of the soil-plant continuum in paddy field ecosystems. These rhizosphere communities contribute to nutrient cycling and rice productivity. The use of fertilizers is a common agricultural practice in rice paddy fields. However, the long-term impact of the fertilizers usage on the rhizosphere microbial communities at different rice developmental stages remains poorly investigated. Here, we examined the effects of long-term (27 years) N and NPK-fertilization on bacterial and archaeal community inhabiting the rice rhizosphere at three developmental stages (tillering, panicle initiation and booting) in the Senegal River Delta.ResultsWe found that the effect of long-term inorganic fertilization on rhizosphere microbial communities varied with the rice developmental stage, and between microbial communities in their response to N and NPK-fertilization. The microbial communities inhabiting the rice rhizosphere at panicle initiation appear to be more sensitive to long-term inorganic fertilization than those at tillering and booting stages. However, the effect of developmental stage on microbial sensitivity to long-term inorganic fertilization was more pronounced for bacterial than archaeal community. Furthermore, our data reveal dynamics of bacteria and archaea co-occurrence patterns in the rice rhizosphere, with differentiated bacterial and archaeal pivotal roles in the microbial inter-kingdom networks across developmental stages.ConclusionsOur study brings new insights on rhizosphere bacteria and archaea co-occurrence and the long-term inorganic fertilization impact on these communities across developmental stages in field-grown rice. It would help in developing strategies for the successful manipulation of microbial communities to improve rice yields.
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