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Long‑term maize‑Desmodium intercropping shifts structure and composition of soil microbiome with stronger impact on fungal communities

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dc.contributor.author Aneth, David Mwakilili
dc.contributor.author Kilaza, Samson Mwaikono
dc.contributor.author Sebastian, Larsson Herrera
dc.contributor.author Charles, A. O. Midega
dc.contributor.author Francis, Magingo
dc.contributor.author Beatrix, Alsanius
dc.contributor.author Teun, Dekker
dc.contributor.author Sylvester, Leonard Lyantagaye
dc.date.accessioned 2022-05-11T15:16:26Z
dc.date.available 2022-05-11T15:16:26Z
dc.date.issued 2021
dc.identifier.uri http://hdl.handle.net/20.500.12562/1636
dc.description.abstract Abstract Purpose Push–pull is an intercropping technology that is rapidly spreading among smallholder farmers in Sub-Saharan Africa. The technology intercrops cereals with Desmodium to fight off stem borers, eliminate parasitic weeds, and improve soil fertility and yields of cereals. The above-ground components of push–pull cropping have been well investigated. However, the impact of the technol-ogy on the soil microbiome and the subsequent role of the microbiome on diverse ecosystem benefits are unknown. Here we describe the soil microbiome associated with maize—Desmodium intercropping in push–pull farming in comparison to long-term maize monoculture.Methods Soil samples were collected from longterm maize—Desmodium intercropping and maize monoculture plots at the international centre for insect physiology and ecology (ICIPE), Mbita, Kenya.Total DNA was extracted before16S rDNA and ITS sequencing and subsequent analysis on QIIME2 and R.Results Maize—Desmodium intercropping caused a strong divergence in the fungal microbiome, which was more diverse and species rich than monoculture plots. Fungal groups enriched in intercropping plots are linked to important ecosystem services, belonging to functional groups such as mycorrhiza, endophytes,saprophytes, decomposers and bioprotective fungi.Fewer fungal genera were enriched in monoculture plots, some of which were associated with plant pathogenesis and opportunistic infection in humans.In contrast, the impact of intercropping on soil bacterial communities was weak with few differences between intercropping and monoculture.Conclusion Maize—Desmodium intercropping diversifies fungal microbiomes and favors taxa associated with important ecosystem services including plant health, productivity and food safety en_US
dc.description.sponsorship Research Capacity Building Program from Swedish International Development Cooperation Agency (SIDA) University of Dar es Salaam (UDSM)—(ADM, TD, SLL) Swedish Research Council (621-2014-4816, TD). en_US
dc.publisher plant soil en_US
dc.rights Attribution-NonCommercial-ShareAlike 3.0 United States *
dc.rights.uri http://creativecommons.org/licenses/by-nc-sa/3.0/us/ *
dc.subject Soil microbiome en_US
dc.subject Push–pull farming en_US
dc.subject Intercropping microbiome en_US
dc.subject 16S · ITS · Desmodium spp en_US
dc.title Long‑term maize‑Desmodium intercropping shifts structure and composition of soil microbiome with stronger impact on fungal communities en_US
dc.type Article en_US


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