Mutyambai, Daniel MunyaoMutua, Johnstone MutisoJalloh, Abdul A.Niassy, SaliouDubois, ThomasKhan, ZeyaurSubramanian, Sevgan2025-08-202024-09Mutyambai, D.M., Mutua, J.M., Jalloh, A.A., Niassy, S., Dubois, T., Khan, Z. & Subramanian, S. Push-pull cropping system positively impacts diversity and abundance of springtails (Hexapoda: Collembola) as bioindicators of soil health', European Journal of Soil Biology, vol. 122, art. 103657, pp. 1-11, doi : 10.1016/j.ejsobi.2024.103657.1164-5563 (print)1778-3615 (online)10.1016/j.ejsobi.2024.103657http://hdl.handle.net/2263/103933SUPPLEMENTARY MATERIAL: FIGURE S1 : Morphological traits of Collembola used for identification. TABLE S1 : Population density of collembolan genus in push-pull (PP) and maize monoculture (MM) cropping systems (n=5). FIGURE S2 : Ranking by non-metric multidimensional scaling (NMDS) of Collembola orders (A) orders, and families (B) from push-pull technology (PP) and maize monoculture (Mono) cropping system fields. DATA AVAILABILITY : Data will be made available up on request. The number of individuals per genera, for each sample, in both PPT and monoculture systems are provided as Table S1.Crop cultivation positively or negatively impacts soil biodiversity and associated ecological services. The push-pull technology (PPT), a climate-smart cereal-Desmodium spp.-Brachiaria spp. Companion cropping system, is known for providing nature-based solutions for pest and soil fertility challenges and has been practiced in sub-Saharan smallholder farmer fields for more than two decades. However, the extent to which this cropping system affects soil arthropod biodiversity in general and Collembola in particular is not well known. This study assessed the long-term effects of PPT on soil physicochemical properties, abundance, and diversity of Collembola communities, and soil biological quality (QBS) as indicators of soil health. Soil was collected from five maize monoculture and five push-pull smallholder farmer fields in western Kenya. Soil physicochemical properties were analysed using Walkley-Black and Bouyoucos hygrometer method. Collembola abundance and diversity were assessed following the Berlese funnel extraction method and morphological identification. Soil health was evaluated using a Collembola-based soil biological quality (QBS-c) index. Soil physicochemical properties significantly differed between push-pull and maize monoculture fields, with push-pull soils being less acidic, and having higher quantities of nitrogen and carbon. Compared to monoculture, push-pull soils had significantly higher number and diversity of Collembola, and QBS-c index values. Significant positive correlations were observed between Collembola abundance and soil pH, nitrogen, carbon, phosphorous, and electrical conductivity. This study provides experimental evidence that crop diversification through a push-pull cropping system soil legacies positively impacts Collembola abundance and diversity, serving as bioindicator of healthy soils.en© 2024 Elsevier Masson SAS. All rights are reserved, including those for text and data mining, AI training, and similar technologies. Notice : this is the author’s version of a work that was accepted for publication in European Journal of Soil Biology. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. A definitive version was subsequently published in European Journal of Soil Biology, vol. x, no. y, pp.z-zz, 2025. doi : [12 months embargo]Crop cultivationPush-pull technology (PPT)AgroecosystemCollembolaMesofaunaSoil healthPostprint Article