# New azoxystrobin clay carrier to control corn late wilt disease

**Authors:** Ariel Hadad, Elhanan Dimant, Peleg Hadari, Eden Etedgi, Giora Rytwo, Ofir Degani

PMC · DOI: 10.1007/s11274-026-04876-3 · World Journal of Microbiology & Biotechnology · 2026-03-14

## TL;DR

A new clay-based fungicide delivery system effectively controls corn late wilt disease, boosting plant survival and yield while reducing pathogen levels.

## Contribution

A novel clay-azoxystrobin formulation is introduced for slow-release fungicide application, offering improved disease control and plant growth.

## Key findings

- Sepiolite-azoxystrobin increased plant shoot weight by 61% at 40 days.
- Bentonite-azoxystrobin boosted plant survival by 64% and reduced root infection by 95%.
- Bentonite-azoxystrobin increased ear yield by 135% and nearly eradicated pathogen levels.

## Abstract

Corn late wilt disease (LWD), caused by the fungus Magnaporthiopsis maydis, poses a significant threat to corn production in highly impacted regions. Its increasing global relevance is exacerbated by climate change, which facilitates the pathogen’s spread and prevalence. This research supports efforts to broaden LWD management beyond resistant varieties, whose effectiveness can fail within years under high disease pressure. In this study, a novel approach involving the slow release of azoxystrobin from clay carriers was assessed. Two growth-room experiments demonstrated that at the disease’s latent stage (up to 20 days), seed treatment with a clay-azoxystrobin (clay-AS) formulation had minimal impact on early growth indices. However, by day 40, the sepiolite-based treatment increased plant shoot weight by 61%, although pathogen infection levels, monitored via qPCR, remained elevated. A subsequent full-season potted trial revealed significant benefits from applying sepiolite-AS and bentonite-AS formulations directly to the seedbed. At 42 days post-planting, these treatments markedly enhanced plant survival (191% for sepiolite-AS and 64% for bentonite-AS) and improved phenological development (175% and 67%, respectively) compared to unprotected controls, alongside a notable 95% reduction in root infection. By harvest (78 days), bentonite-AS emerged as particularly effective, increasing shoot biomass by 128% and ear yield by 135%. Bentonite-AS treatment reduced cob and shoot symptoms by 23% and 42%, respectively, and nearly eradicated pathogen levels. This research demonstrates that clay-based fungicide formulations effectively mitigate LWD impacts. The method reduces fungicide use and offers a potentially scalable alternative, is adaptable across diverse agricultural systems, and shows potential applicability in managing other soil-borne diseases.

The online version contains supplementary material available at 10.1007/s11274-026-04876-3.

## Linked entities

- **Chemicals:** azoxystrobin (PubChem CID 3034285)
- **Species:** Magnaporthiopsis maydis (taxon 80373)

## Full-text entities

- **Diseases:** dehydration (MESH:D003681), Corn late wilt disease (MESH:D002145), charcoal rot (MESH:D005535), phytotoxic effects (MESH:D065606), infected (MESH:D007239), wilt disease (MESH:D004194), soil-borne diseases (MESH:D005242), fungal (MESH:D009181), toxicity (MESH:D064420), LWD (MESH:D000067562), M. maydis infection (MESH:C566367), root (MESH:D011843)
- **Chemicals:** Bent - bentonite (-), perlite (MESH:C003076), Thiram (MESH:D013893), isoamyl alcohol (MESH:C029683), Carboxin (MESH:D002261), purine (MESH:C030985), chloroform (MESH:D002725), oils (MESH:D009821), quinol (MESH:D006873), strobilurin (MESH:D000073739), CTAB (MESH:D000077286), Amistar (MESH:C087670), ATP (MESH:D000255), CaSO4 (MESH:D002133), AS (MESH:D001151), Adenine (MESH:D000225), Captan (MESH:D002215), alginate (MESH:D000464), zinc oxide (MESH:D015034), nitrogen (MESH:D009584), Guanine (MESH:D006147), agar (MESH:D000362), sepiolite (MESH:C001671), copper (MESH:D003300), Bentonite (MESH:D001546), NaOCl (MESH:D012973), starch (MESH:D013213), aluminum (MESH:D000535), H2O (MESH:D014867), phosphorus (MESH:D010758), kaolin (MESH:D007616), Metalaxyl-M. (MESH:C473256), aflatoxins (MESH:D000348), isopropanol (MESH:D019840), essential oils (MESH:D009822)
- **Species:** Macrophomina phaseolina (charcoal rot, species) [taxon 35725], Zymoseptoria tritici (species) [taxon 1047171], Zea mays (maize, species) [taxon 4577], Magnaporthiopsis maydis (species) [taxon 80373], Aspergillus niger (species) [taxon 5061], Trichoderma (genus) [taxon 5543], Oryza sativa (Asian cultivated rice, species) [taxon 4530], Allium schoenoprasum (chive, species) [taxon 74900], Leptosphaeria (genus) [taxon 5021], Bipolaris (genus) [taxon 33194], Venturia inaequalis (species) [taxon 5025], Setaria viridis (species) [taxon 4556], Rhizoctonia solani (species) [taxon 456999], Panicum miliaceum (broomcorn millet, species) [taxon 4540], Microdochium (genus) [taxon 67608], Homo sapiens (human, species) [taxon 9606], Alternaria alternata (species) [taxon 5599], watermelon [taxon 260674], Fusarium verticillioides (species) [taxon 117187], Botrytis cinerea (gray fruit mold, species) [taxon 40559], Fungi (kingdom) [taxon 4751]

## Full text

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## Figures

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## References

1 references — full list in the complete paper: https://tomesphere.com/paper/PMC12988907/full.md

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Source: https://tomesphere.com/paper/PMC12988907