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@article{Okon_Uwaidem_Antia_Archibong_Okon_2025, title={Biochar soil application induces stress tolerance in Arachis hypogaea L. Varieties inoculated with stem rot fungus (Athelia rolfsii (Sacc.) C.C. Tu & Kim.)}, volume={11}, url={https://www.updatepublishing.com/journal/index.php/jpsp/article/view/9136}, DOI={10.25081/jpsp.2025.v11.9136}, abstractNote={<p>This study aims to investigate the extent to which soil amendment with biochar can promote growth and induce biotic stress tolerance in <em>Arachis hypogaea </em>accessions (TAH-183, TAH-142, TAH-164, TAH-124 and TAH-134) inoculated with stem rot fungus (<em>Athelia rolfsii</em>). The experiment was set up in a complete block design. 5 seeds of <em>A. hypogaea </em>accessions were planted in 10 kg of sterilized soil in triplicates (control(C), <em>A. rolfsii </em>alone (T) and <em>A. rolfsii</em>+Biochar (A+T). Characterized pathogen <em>A. rolfsii </em>causing vine rot and wilt disease was obtained from Botany pathology laboratory and spawned with 300 g of millet seeds. 5 g of <em>A. rolfsii </em>colonized seeds were used to infect <em>A. hypogaea </em>accessions seedlings. Growth parameters and disease severity index (DSI) were taken using standard methods, while the total photosynthetic pigments (TPP) were determined using the atLeaf chlorophyll meter. All <em>A. hypogaea </em>accessions showed 100% germination across all treatments after 11 days except TAH-183 (80%) and TAH-134 (60%). TAH-142 and TAH-183 accessions inoculated with <em>A. rolfsii </em>were the most susceptible with disease severity index of 50% and 33.30% respectively. However, biochar application treatments recorded 0% DSI for all accessions. At 6 weeks after planting (WAP), it was observed that inoculation of <em>A. hypogaea </em>accessions with <em>A. rolfsii </em>significantly (<em>p</em>&lt;0.001) reduced the growth parameters such as shoot length for TAH-142 and TAH-124 which recorded the lowest values; T=3.40±181 cm, C=15.50±1.45 cm, A+T=20.00±1.70 cm; and T=8.33±2.33 cm, C=15.20±1.20 cm, A+B=21.12±1.90 cm while TAH-183 and TAH-164 had the highest shoot growth (T=19.33±1.36 cm, C=20.00±1.54 cm, A+T=24.77±1.67 cm; T=16.83±1.76 cm, 17.00±1.13 cm, A+T=28.30±2.00 cm) when compared to their controls and biochar treatments. TAH-142 (T=30.00 mg/kg, C=37.90 mg/kg, A+B=40.00 mg/kg) recorded the least TPP contents, while TGM-183 (T=36.00 mg/kg, C=40.10 mg/kg, A+T=44.50 mg/kg) recorded the highest TPP. For postharvest parameters; TAH-142 (5.77±0.09 g) had the lowest fresh biomass yield while TAH-164 (58.70±1.56 g) had a better tolerance to <em>A. rolfsii </em>infection. However, TAH-183 showed greater fresh biomass yield when biochar was applied (89.67±4.53 g) while TAH-142 recorded the lowest (78.90±2.21 g). Amelioration of soil with biochar significantly (p=0.001) stimulated growth above the treatment and control. Similar trend was observed for leaf area, petiole length, leaf number, stem girth and internode length. This study has shown that <em>A. rolfsii </em>infection had a negative effect on the growth and biomass yield of <em>A. hypogaea </em>and soil amended with biochar conferred disease tolerance in all <em>A. hypogaea </em>accessions thus eliminating the need for the use of fungicides and additional fertilizer application.</p>}, journal={Journal of Plant Stress Physiology}, author={Okon, O. G. and Uwaidem, Y. I. and Antia, U. E. and Archibong, B. F. and Okon, J. E.}, year={2025}, month={Apr.}, pages={5–11} }