Optimizing calcium nutrition for yield and quality improvement in peanut (Arachis hypogea)
Paper Details
Optimizing calcium nutrition for yield and quality improvement in peanut (Arachis hypogea)
Abstract
Peanut (Arachis hypogea L.) is a vital legume crop valued for its nutritional and economic significance, particularly in developing countries. Calcium (Ca) plays a crucial role in peanut pod development, yet comparative research on different calcium sources under uniform agronomic conditions remains limited. This study aimed to evaluate the effects of various calcium fertilizers—gypsum, dolomitic limestone, nano calcium, zeolite, and calcium nitrate—on the growth, yield, calcium content, and oil content of peanut. Conducted under a controlled experimental setup using a Completely Randomized Design (CRD), the study assessed parameters such as pod number, pod weight, seed weight, shelling percentage, calcium and oil content. Results showed that treatments with dolomitic limestone and calcium nitrate significantly enhanced pod and seed weights, reduced the number of pop pods, and resulted in the highest dry yields, with calcium nitrate achieving an 81.63% yield advantage over the control. Gypsum treatment yielded the highest seed calcium content (79 mg), while oil content remained relatively unaffected across all treatments. Although shelling percentage and 100-seed weight did not differ significantly, calcium application, particularly through calcium nitrate and dolomitic limestone, demonstrated strong potential for improving peanut yield and seed quality. The findings support the inclusion of these calcium sources in integrated soil fertility strategies for sustainable peanut production.
Cao Y, Gong Y, Qian L, Zhao Y, Si T, Zou X. 2023. Effects of calcium application on the distribution of photosynthetic products in peanut plant during pod development stages. Journal of Plant Nutrition and Fertilizers 29(10), 1873–1883.
El-Gabry MA, Attia A, Abdel-Rahman AG, El-Sayed H. 2023. Effect of nano and traditional calcium sources on yield and quality of peanut under sandy soil conditions. Plants 12(14).
El-Sayed MH, Ahmed RK, El-Bassiouny AM, Sadak MS. 2023. Enhancing peanut yield and quality through foliar and soil application of calcium and boron. Agronomy 13(10), 2656.
Kadirimangalam SR, Sawargaonkar G, Choudhari P. 2022. Morphological and molecular insights of calcium in peanut pod development. Journal of Agricultural and Food Information 9, 100320.
Mohamed H, El-Sayed RK, Ahmed AM, El-Bassiouny MS. 2023. Enhancing peanut yield and quality through foliar and soil application of calcium and boron. Agronomy 13(10), 2656.
Njoroge SMC, Matumba L, Kaneng K, Siambi M, Waliyar F, Maruwo J, Machinjiri N, Monyo ES. 2017. Aflatoxin B1 levels in groundnut products from local markets in Zambia. Mycotoxin Research 33, 113–119.
Wang J, Geng Y, Zhang J, Li L, Guo F, Yang S, Zou J, Wan S. 2023. Increasing calcium and decreasing nitrogen fertilizers improves peanut growth and productivity by enhancing photosynthetic efficiency and nutrient accumulation in acidic red soil. Agronomy 13(7), 1924.
May L. Leaňo, 2025. Optimizing calcium nutrition for yield and quality improvement in peanut (Arachis hypogea). Int. J. Biosci., 26(5), 229-238.
Copyright © 2025 by the Authors. This article is an open access article and distributed under the terms and conditions of the Creative Commons Attribution 4.0 (CC BY 4.0) license.