Effect of Phosphorus Fertilizer on Morpho-physiological, and Biochemical Traits of Bambara Groundnut (Vigna subterranea (L.) Verdc.) Plants Under Water Deficit

Asian Journal of Research in Crop Science Pub Date : 2024-06-12 DOI:10.9734/ajrcs/2024/v9i2275

N. C. Temegne, W. Gouertoumbo, Annie Stéphanie Nana, V. Taffouo, E. Youmbi

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Abstract

Aims: To evaluate the effect of water deficit (WD) and P-fertilizer on the growth and biochemical composition of Bambara groundnut. Study Design: The experimental design was a randomized complete block with three factors: landraces (L1, L2, and L3), single superphosphate doses (0, 20, 40, 60, 100 mg P2O5.kg-1), and watering regime (90% (control), 60%, and 30% of field capacity (FC)). Place and Duration of Study: Department of Plant Biology, Faculty of Science, University of Yaounde I for three months. Methodology: The seedlings (radicle at 2 mm) were sown in the polyethylene pots filled with substrate with the appropriate P-doses. The plants were grown for up to four weeks under normal watering level (90%_FC). Four weeks after sowing (WAS), the WD was applied by stopping irrigation and maintaining the desired FC. At harvest (8WAS), growth, physiological and biochemical parameters were evaluated. Results: P-fertilizer significantly improved growth and biochemical composition under WD or none. The plant height increased from 20.3% from 0 to 100 mg P2O5 at 30%_FC to L2 at the 8th week. At 90%_FC, the doses 20, 40, 60, 100 mg increased sugars content by 52.6, 59.4, 64.6, and 90.4%, respectively, compared to 0 mg at L3. Proline content at 30%_FC was twice (2.5) that of 90%_FC at L2. Increased accumulation of sugars, proline, and amino acids in leaves was recorded at the severe level of WD. Conclusion: P-fertilizer mitigated the adverse effect of WD on the growth and biochemical composition of Bambara groundnut. A sufficient P-supply (60 mg P2O5.kg-1) was recommended to help Bambara groundnut plants tolerate WD. L1 and L3 appear to be more tolerant than L2 and can be recommended to farmers. As the adaptation mechanisms of these landraces to WD are different, it would be advisable to evaluate their performance in the field to better assess their behavior.

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磷肥对班巴拉落花生（Vigna subterranea (L.) Verdc.）形态生理和生化性状的影响缺水条件下的植物

目的：评估缺水（WD）和钾肥对班巴拉花生的生长和生化成分的影响。研究设计：试验设计为随机完全区组，包含三个因素：土地品种（L1、L2 和 L3）、单一过磷酸钙剂量（0、20、40、60、100 毫克 P2O5.kg-1）和浇水制度（田间容量的 90%（对照）、60% 和 30%）。研究地点和时间：雅温得第一大学理学院植物生物学系，为期三个月。研究方法将幼苗（胚根直径为 2 毫米）播种在装有适当 P 剂量基质的聚乙烯盆中。植物在正常浇水水平（90%_FC）下生长四周。播种四周后（WAS），停止灌溉并保持理想的 FC，施用 WD。收获时（8WAS），对生长、生理和生化参数进行评估。结果显示无论是否施用 WD，钾肥都能明显改善生长和生化成分。在 30%_FC 时，植株高度从 0 到 100 毫克 P2O5 增加了 20.3%，到第 8 周时达到 L2。在 90%_FC 时，20、40、60 和 100 毫克剂量的糖含量分别比第 3 周 0 毫克时增加了 52.6、59.4、64.6 和 90.4%。30%_FC 的脯氨酸含量是 90%_FC L2 的两倍（2.5）。在严重的 WD 水平下，叶片中糖、脯氨酸和氨基酸的累积量增加。结论钾肥减轻了 WD 对班巴拉花生的生长和生化成分的不利影响。建议施用充足的钾肥（60 毫克 P2O5.kg-1），以帮助班巴拉花生植株耐受 WD。L1 和 L3 似乎比 L2 更能耐受干旱，可推荐给农民使用。由于这些土地品种对干旱的适应机制不同，最好对它们在田间的表现进行评估，以更好地评价它们的行为。

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Asian Journal of Research in Crop Science

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