Aier, I. and Nongmaithem. D. (2020). Response of groundnut (Arachis hypogeal L.) to lime and different levels of sulphur. Int. J. Bio-resour. Stress Manag. 11 : 585-89.
Banu, R., Shroff, J. C. and Shah, S. N. (2017). Effect of sources and levels of sulphur and bio-fertilizer on growth, yield and quality of summer groundnut. Int. J. Agric. Sci. 13 : 67-70.
Bhadiyatar, A. A., Patel, J. M., Patel, P. M. and Malav, J. K. (2022). Effect of potassium and sulphur on growth, yield attributes and yield of summer groundnut in loamy sand. Pharm. Innov. J. 11 : 2704-707.
Banu, R., Shroff, J. C. and Shah, S. N. (2017). Effect of sources and levels of sulphur and bio-fertilizer on growth, yield and quality of summer groundnut. Int. J. Agric. Sci. 13 : 67-70.
Bhadiyatar, A. A., Patel, J. M., Patel, P. M. and Malav, J. K. (2022). Effect of potassium and sulphur on growth, yield attributes and yield of summer groundnut in loamy sand. Pharm. Innov. J. 11 : 2704-707.
Chahal, H. S., Singh, A. and Malhi, G. S. (2020). Role of sulphur nutrition in oilseed crop production - A review. J. Oilseed Res. 11 : 95-102.
Dudekula, D., Singh, V., Tiwari, D., George, S. G. and Padachala, S. (2021). Effect of variety and sulphur on growth and yield of groundnut (Arachis hypogaea L.). Biological Forum. 13 : 475-78.
Ghadamkheir, M., Vladimirovich, K. P., Orujov, E., Bayat, M., Madumarov, M. M., Avdotyin, V. and Zargar, M. (2020). Influence of sulfur fertilization on infection of wheat Take-all disease caused by the fungus Gaeumannomyces graminis var. tritici. Research on Crops 21 : 627-33.
Hasanuzzaman, M., Borhannuddin, B. M. H. M., Nahar, K., Hossain, Md. S., Al Mahmud, J., Hossen. Md. S, Masud, A. A. C. and Fujita, M. (2018), Potassium: A vital regulator of plant responses and tolerance to abiotic stresses. Agronomy. 8 : 1-29.
Hemeid, N. M. (2015). Effect of different sources and levels of potassium fertilization on productivity of peanut grown under sandy soil conditions. J. Agric. Eng. 6 : 1441-454.
Hoang, M. T., Do, T. N., Nguyen, T. T., Hoang, V., Hoang, T. T. H., Late Chen, W., Nguyen, T. T., Le, D. Q., Mann, S. and Bell, R. (2015). Diagnosing multiple nutrients deficiencies that limit crop growth and yield on sands in south central coast Vietnam. In: Proceedings of Sustainable and Profitable Crop and Livestock Systems for South-central Coastal Vietnam (Eds. Mann, S., Webb, M.C. and Bell, R.W.). ACIAR, Canberra, Australia. Pp. 62-80.
Hoang, T. T. H., Do, D. T., Do, T. N., Mann, S. and Bell. R. (2019). Partial potassium balance under irrigated peanut crops on sands in a tropical monsoonal climate. Nutr. Cycl. Agroecosyst. 114 : 71-83.
Hoang, T. T. H., Do, D. T., Nguyen, H. N., Nguyen, V. B., Mann, S. and Bell, R. (2021). Sulfur management strategies to improve partial sulfur balance with irrigated peanut production on deep sands. Arch. Agron. Soil Sci. 67 : 1465-478.
Hoang, T. T. H., Do, D. T., Vu, T. M., Do, H. T. P. and Bell, R. (2022). Double pot technique for assessing deficiencies of potassium and sulfur on peanut (Arachis hypogaea) production in the sands of South-Central coastal Vietnam. Res. Crop. 23 : 85-91.
Kannan, P., Swaminathan, C. and Ponmani, S. (2017). Sulfur nutrition for enhancing rainfed groundnut productivity in typical alfisol of semiarid regions in India. J. Plant Nutri. 40 : 828-40.
Meena, H. N., Yadav, R. S. and Debarati, B. A. (2018). Effects of potassium application on growth of peanut (Arachis hypogaea) and ionic alteration under saline irrigation. Indian J. Agron. 63 : 95-103.
Page, A. L., Miller, R. L. and Keeny, D. R. (1982). Methods of soil analysis. Part 2-chemical and microbiological properties, 2nd edn. ASA, SSSA, CSSA, Madison. Pp. 624.
Patel, P. K., Viradiya, M. B., Kadivala, V. H. and Shinde, R. D. (2018), Effect of potassium and sulphur on yield attributes, yield and quality of summer groundnut under middle gujarat condition. Int. J. Curr. Microbiol. App. Sci. 7 : 2268-273.
Prakash, S., Raman, R., Krishnamoorthy, R. and Balaji, E. (2022). Effect of organic foliar nutrition on growth and yield of groundnut (Arachis hypogaea L.). Crop Res. 57 : 249-52.
Sakarvadia, H. L., Vekaria, L. C., Ponkiya, H. P., Vaghasia, P. M. and Polara, K. B. (2019). Potassium fertilization to kharif groundnut in medium black calcareous soils of Saurashtra region of Gujarat. Int. J. Chem. Stud. 7 : 1752-755.
Solaimalai, A., Jayakumar, M., Baskar, K. and Senthilkumar, M. (2020). Sulphur fertilization in groundnut crop in India: A review. J. Oilseeds Res. 37 : 1-10.
Sowmya, N., Ramesh Babu, P. V., Reddy, U. V. B. and Kavitha, P. (2022). Effect of different land configurations and spacings on growth and yield of groundnut (Arachis hypogaea) in scarce rainfall zone of Andhra Pradesh. Farm. Manage. 7 : 9-13.
Ghadamkheir, M., Vladimirovich, K. P., Orujov, E., Bayat, M., Madumarov, M. M., Avdotyin, V. and Zargar, M. (2020). Influence of sulfur fertilization on infection of wheat Take-all disease caused by the fungus Gaeumannomyces graminis var. tritici. Research on Crops 21 : 627-33.
Hasanuzzaman, M., Borhannuddin, B. M. H. M., Nahar, K., Hossain, Md. S., Al Mahmud, J., Hossen. Md. S, Masud, A. A. C. and Fujita, M. (2018), Potassium: A vital regulator of plant responses and tolerance to abiotic stresses. Agronomy. 8 : 1-29.
Hemeid, N. M. (2015). Effect of different sources and levels of potassium fertilization on productivity of peanut grown under sandy soil conditions. J. Agric. Eng. 6 : 1441-454.
Hoang, M. T., Do, T. N., Nguyen, T. T., Hoang, V., Hoang, T. T. H., Late Chen, W., Nguyen, T. T., Le, D. Q., Mann, S. and Bell, R. (2015). Diagnosing multiple nutrients deficiencies that limit crop growth and yield on sands in south central coast Vietnam. In: Proceedings of Sustainable and Profitable Crop and Livestock Systems for South-central Coastal Vietnam (Eds. Mann, S., Webb, M.C. and Bell, R.W.). ACIAR, Canberra, Australia. Pp. 62-80.
Hoang, T. T. H., Do, D. T., Do, T. N., Mann, S. and Bell. R. (2019). Partial potassium balance under irrigated peanut crops on sands in a tropical monsoonal climate. Nutr. Cycl. Agroecosyst. 114 : 71-83.
Hoang, T. T. H., Do, D. T., Nguyen, H. N., Nguyen, V. B., Mann, S. and Bell, R. (2021). Sulfur management strategies to improve partial sulfur balance with irrigated peanut production on deep sands. Arch. Agron. Soil Sci. 67 : 1465-478.
Hoang, T. T. H., Do, D. T., Vu, T. M., Do, H. T. P. and Bell, R. (2022). Double pot technique for assessing deficiencies of potassium and sulfur on peanut (Arachis hypogaea) production in the sands of South-Central coastal Vietnam. Res. Crop. 23 : 85-91.
Kannan, P., Swaminathan, C. and Ponmani, S. (2017). Sulfur nutrition for enhancing rainfed groundnut productivity in typical alfisol of semiarid regions in India. J. Plant Nutri. 40 : 828-40.
Meena, H. N., Yadav, R. S. and Debarati, B. A. (2018). Effects of potassium application on growth of peanut (Arachis hypogaea) and ionic alteration under saline irrigation. Indian J. Agron. 63 : 95-103.
Page, A. L., Miller, R. L. and Keeny, D. R. (1982). Methods of soil analysis. Part 2-chemical and microbiological properties, 2nd edn. ASA, SSSA, CSSA, Madison. Pp. 624.
Patel, P. K., Viradiya, M. B., Kadivala, V. H. and Shinde, R. D. (2018), Effect of potassium and sulphur on yield attributes, yield and quality of summer groundnut under middle gujarat condition. Int. J. Curr. Microbiol. App. Sci. 7 : 2268-273.
Prakash, S., Raman, R., Krishnamoorthy, R. and Balaji, E. (2022). Effect of organic foliar nutrition on growth and yield of groundnut (Arachis hypogaea L.). Crop Res. 57 : 249-52.
Sakarvadia, H. L., Vekaria, L. C., Ponkiya, H. P., Vaghasia, P. M. and Polara, K. B. (2019). Potassium fertilization to kharif groundnut in medium black calcareous soils of Saurashtra region of Gujarat. Int. J. Chem. Stud. 7 : 1752-755.
Solaimalai, A., Jayakumar, M., Baskar, K. and Senthilkumar, M. (2020). Sulphur fertilization in groundnut crop in India: A review. J. Oilseeds Res. 37 : 1-10.
Sowmya, N., Ramesh Babu, P. V., Reddy, U. V. B. and Kavitha, P. (2022). Effect of different land configurations and spacings on growth and yield of groundnut (Arachis hypogaea) in scarce rainfall zone of Andhra Pradesh. Farm. Manage. 7 : 9-13.
