Spider Mite Response, Agronomic Performance, and Stability of a Urochloa spp. Diversity Panel Under Field Conditions

Publication Type

Journal Article

Journal Name

Plants

Name of Author

• Adrian Mating’i Kimani, International Centre of Insect Physiology and Ecology Nairobi
• David Kariuki Muruu, International Center for Tropical Agriculture (CIAT)
• Paula Espitia-Buitrago, Centro Internacional de Agricultura Tropical
• Sylvia Henga, Kenyatta University
• Catherine Muui, Kenyatta University
• Frank Chidawanyika, International Centre of Insect Physiology and Ecology Nairobi
• Rosa Noemi Jauregui, Centro Internacional de Agricultura Tropical

Publication Date

4-1-2026

Abstract

Spider mites (Oligonychus trichardti) are emerging as a major constraint to Urochloa forage productivity in East Africa; however, knowledge of genotypic variation and tolerance remains limited. Herein, 55 Urochloa genotypes were evaluated under field-infested and non-infested conditions across two seasons using an alpha-lattice design. Agronomic and physiological traits, including plant height (PH), tiller number (TN), the Normalized Difference Vegetation Index (NDVI), total dry weight (TDW), and mite damage indices (visual severity index (VSI) and stress tolerance index (STI)) were assessed. Infestation reduced biomass by 22.4% on average, with reductions of up to 45% in susceptible genotypes. Significant genotypic variation was detected for PH, TN, TDW, and VSI. Heritability estimates under mite infestation were moderate to high for all traits except TDW, suggesting that direct selection of these traits could be effective in breeding programs aimed at improving mite resistance. VSI showed a strong negative correlation with NDVI (r = −0.63), supporting its value as a phenotyping indicator of spider mite response. Additive main effects and multiplicative interaction (AMMI) analysis revealed significant genotype × environment interactions for TDW. The AMMI biplot identified Xaraes, ILRI_13369, and ILRI_14787 as high-yielding and stable genotypes, while the AMMI Stability Value (ASV) and the Weighted Average of Absolute Scores from the Best Linear Unbiased Prediction (WAASB) identified CIAT_16122, CIAT_664, ILRI_14801, ILRI_14787, and ILRI_13266 as the most stable and broadly adapted across environments. STI further highlighted ILRI_13751 (2.71) and ILRI_13531 (2.58) as highly tolerant under stress. Overall, the study reveals substantial exploitable genetic diversity and identifies stable, high-yielding, and mite-tolerant genotypes suitable for breeding to improve Urochloa productivity in East Africa.

Keywords

AMMI, biotic stress, Brachiaria, East Africa, forage breeding, host-plant resistance

Recommended Citation

Kimani, A., Muruu, D., Espitia-Buitrago, P., Henga, S., Muui, C., Chidawanyika, F., & Jauregui, R. (2026). Spider Mite Response, Agronomic Performance, and Stability of a Urochloa spp. Diversity Panel Under Field Conditions. Plants, 15 https://doi.org/10.3390/plants15071117

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.