During the 2022 growing season (August to November) at the Federal University of Technology, Minna School farm, Niger State, an experiment was conducted to investigate the influence of mulching on Okra’s growth, yield, and moisture content was examined across four distinct growth stages (initial, development, mid, and late) and at varying soil depths (0 - 30 cm and 30 - 60 cm). The study employed a randomised complete block design with four replications, encompassing control (T0), groundnut shells mulch (T1), black polythene mulch (T2), and white polythene mulch (T3) as treatments. The highest average Okra fresh pod yield, amounting to 23.4 t/ha, was achieved by implementing white plastic mulch, contrasting with the control treatment, which yielded the lowest at 22 t/ha. Notably, the control plots exhibited yield reductions of up to 32% compared to the plots employing white plastic mulching. The utilisation of mulch had a notable impact on the overall crop yield, with the superior quality evident in the treatment employing white plastic mulch (26 t/ha). The control treatment exhibited the lowest quality at 24.3 t/ha. Groundnut shell mulch influenced moisture conservation, but no significant variance was observed compared to the control plots. Therefore, the study suggests that polythene mulch may be the most suitable type to enhance the quality of okra production by conserving soil moisture. Among the biodegradable and non-biodegradable mulches used in this study, white polythene mulch was the most effective.
References
[1]
Anyaoha, C. O., Arogundade, O., Akinkunmi, O. Y., Okoyo, M. E., & Ikoro, J. I. (2023). Agro-Morphological Characterisation of Okra (Abelmoschus Species) for Biotic Stress and Yield Contributing Traits under Rainfed Conditions in Southwestern Nigeria. Plant Physiology Reports, 28, 92-106. https://doi.org/10.1007/s40502-023-00716-w
[2]
Cerdà, A., Daliakopoulos, I. N., Terol, E., Novara, A., Fatahi, Y., Moradi, E., Salvati, L., & Pulido, M. (2021). Long-Term Monitoring of Soil Bulk Density and Erosion Rates in Two Prunus persica (L) Plantations under Flood Irrigation and Glyphosate Herbicide Treatment in La Ribera District, Spain. Journal of Environmental Management, 282, Article ID: 111965. https://doi.org/10.1016/j.jenvman.2021.111965
[3]
Chukwuone, N. A., & Amaechina, E. C. (2021). Factors Affecting Climate Change Coping Strategies Used by Smallholder Farmers under Root Crop Farming Systems in Derived Savannah Ecology Zone of Nigeria. Environmental Development, 39, Article ID: 100627. https://doi.org/10.1016/j.envdev.2021.100627
[4]
El-Beltagi, H. S., Basit, A., Mohamed, H. I., Ali, I., Ullah, S., Kamel, E. A., Alkhateeb, A. A., & Ghazzawy, H. S. (2022). Mulching as a Sustainable Water and Soil Saving Practice in Agriculture: A Review. Agronomy, 12, Article No. 1881. https://doi.org/10.3390/agronomy12081881
[5]
Eze, P. C., Odofin, A. J., Onyekwere, I. N., Musa, J. J., & Tsado, P. A. (2018). Influence of Rice Husk-Mulch on Soil Water Balance Components under Sorghum and Millet Crops in Maiduguri, Semi-Arid Northwest Nigeria. Nigerian Journal of Soil Science, 28,114-122. https://doi.org/10.9734/jeai/2019/v33i430150
[6]
Feng, W., Zhang, Y. S., Shao, Y. W., Huang, T., Zhang, N., Yang, J. H., Qi, X. D., & Wang, Y. (2021). Coaxial Electrospun Membranes with Thermal Energy Storage and Shape Memory Functions for Simultaneous Thermal/Moisture Management in Personal Cooling Textiles. European Polymer Journal, 145, Article ID: 110245. https://doi.org/10.1016/j.eurpolymj.2020.110245
[7]
Ferreira, C. J. B., Tormena, C. A., Severiano, E. D. C., Zotarelli, L., & Betioli Júnior, E. (2021). Soil Compaction Influences Soil Physical Quality and Soybean Yield under Long-Term No-Tillage. Archives of Agronomy and Soil Science, 67, 383-396. https://doi.org/10.1080/03650340.2020.1733535
[8]
Gonçalves, M. A. F., da Silva, B. R. S., Nobre, J. R. C., Batista, B. L., & da Silva Lobato, A. K. (2024). Biochar Mitigates the Harmful Effects of Drought in Soybean through Changes in Leaf Development, Stomatal Regulation, and Gas Exchange. Journal of Soil Science and Plant Nutrition, 1-12. https://doi.org/10.1007/s42729-024-01663-7
[9]
Ibrahim, H., Aniyikaye, R., Ezekiel-Adewoyin, D. T., Osunde, A. O., & Bala, A. (2020). Effect of Different Combinations of Organic and Inorganic Nitrogen Sources on Growth and Pod Yield of Okra (Abelmoschus esculentus) in Minna, Niger State. In 44th Annual Conference Proceeding of Soil Science Society of Nigeria (pp. 243-248). The Soil Science Society of Nigeria.
[10]
Kader, M. A., Singha, A., Begum, M. A., Jewel, A., Khan, F. H., & Khan, N. I. (2019). Mulching as Water-Saving Technique in Dryland Agriculture. Bulletin of the National Research Centre, 43, 1-6. https://doi.org/10.1186/s42269-019-0186-7
[11]
Kumar, R., Singh, R. K., & Singh, U. P. (2022). Effect of Drought on Yield and Yield Attributes of Mung Bean [Vigna radiata (L.) Wilczek] Genotypes under Different Irrigation Regimes. Legume Research, 45, 274-280.
[12]
Liu, Y., Guo, L., Huang, Z., López-Vicente, M., & Wu, G. L. (2020). Root Morphological Characteristics and Soil Water Infiltration Capacity in Semi-Arid Artificial Grassland Soils. Agricultural Water Management, 235, Article ID: 106153. https://doi.org/10.1016/j.agwat.2020.106153
[13]
Liu, Y., Heuvelink, G. B., Bai, Z., He, P., Xu, X., Ding, W., & Huang, S. (2021). Analysis of Spatio-Temporal Variation of Crop Yield in China Using Stepwise Multiple Linear Regression. Field Crops Research, 264, Article ID: 108098. https://doi.org/10.1016/j.fcr.2021.108098
[14]
Mandal, A., Das, A. K., & Patra, A. K. (2020). Effect of Soil Moisture Content on Soil Properties: A Review. Bulletin of Environmental Contamination and Toxicology, 105, 161-167.
[15]
Mederski, H. J. (2019). Effects of Water and Temperature Stress on Soybean Plant Growth and Yield in Humid, Temperate Climates. In Crop Reactions to Water and Temperature Stresses in Humid, Temperate Climates(pp. 35-48). CRC Press.
[16]
Melese, B., Satheesh, N., Fanta, S. W., & Bishaw, Z. (2022). Effects of Storage Bags Type and Storage Duration on Seed Quality and Proximate Composition of Emmer Wheat (Triticum dicoccum L.) in Ethiopia. Heliyon, 8, e12506. https://doi.org/10.1016/j.heliyon.2022.e12506
[17]
Mgolozeli, S., Nciizah, A. D., Wakindiki, I. I., & Mudau, F. N. (2020). Innovative Pro-Smallholder Farmers’ Permanent Mulch for Better Soil Quality and Food Security under Conservation Agriculture. Agronomy, 10,Article No. 605. https://doi.org/10.3390/agronomy10040605
[18]
Muluneh, M. G. (2021). Impact of Climate Change on Biodiversity and Food Security: A Global Perspective—A Review Article. Agriculture & Food Security, 10, 1-25. https://doi.org/10.1186/s40066-021-00318-5
[19]
Musa, J. J., Anijofor, S. C., Obasa, P., & Avwevuruvwe, J. J. (2017). Effects of Soil Physical Properties on Erodibility and Infiltration Parameters of Selected Areas in Gidan Kwano. Nigerian Journal of Technological Research, 12, 46-54. https://doi.org/10.4314/njtr.v12i1.8
[20]
Musa, J. J., Dada, P. O. O., Adewumi, J. K., Akpoebidimiyen, O. E., Musa, E. T., Otache, M. Y., & Yusuf, S. (2020). Fishpond Effluent Effect on Physico-Chemical Properties of Soils in Southern Guinea Savanna, Nigeria. Open Access Library Journal, 7, 1-16. https://doi.org/10.4236/oalib.1105990
[21]
Odjo, S., Bongianino, N., González Regalado, J., Cabrera Soto, M. L., Palacios-Rojas, N., Burgueño, J., & Verhulst, N. (2022). Effect of Storage Technologies on Postharvest Insect Pest Control and Seed Germination in Mexican Maize Landraces. Insects, 13, 878. https://doi.org/10.3390/insects13100878
[22]
Onunwa, A. O., Nwankwo, J. E., Nwaiwu, C. J., Nwaigwe, C. E., & Uko, I. (2023). Effect of Different Live Mulches on Soil Physicochemical Properties and Yield of Okra in Nnamdi Azikwe University Awka, Nigeria. In E-Proceedings of the Faculty of Agriculture International Conference. pp. 115-120.
[23]
Onyutha, C. (2019). African Food Insecurity in a Changing Climate: The Roles of Science and Policy. Food and Energy Security, 8, e00160. https://doi.org/10.1002/fes3.160
[24]
Patra, S. K., Poddar, R., Pramanik, S., Bandopadhyay, P., Gaber, A., & Hossain, A. (2023). Growth, Yield, Water Productivity, and Economics of Okra (Abelmoschus esculentus L.) in Response to Gravity Drip Irrigation under Mulch and Without-Mulch Conditions. Scientia Horticulturae, 321, Article ID: 112327. https://doi.org/10.1016/j.scienta.2023.112327
[25]
Prem, M., Ranjan, P., Seth, N., & Patle, G. T. (2020). Mulching Techniques to Conserve the Soil Water and Advance the Crop Production—A Review. Current World Environment, 15, 10-30. https://doi.org/10.12944/CWE.15.Special-Issue1.02
[26]
Rahman, M. A., Islam, M. S., Hossain, M. A., Akter, N., & Hossain, M. A. (2020). Effect of Water Stress at Different Growth Stages on Yield and Yield Components of Soybean. Legume Research, 43, 192-196.
[27]
Rodenburg, J., Büchi, L., & Haggar, J. (2021). Adoption by Adaptation: Moving from Conservation Agriculture to Conservation Practices. International Journal of Agricultural Sustainability, 19, 437-455. https://doi.org/10.1080/14735903.2020.1785734
[28]
Sedara, O. S., Sedara, A. M., Alatise, M. O., & Faloye, O. T. (2021). Effect of Varying Water Applications on Growth, Yield and Water Use Efficiency of Okra (Abelmoschus esculentus) under Drip Irrigation in Akure. Agricultural Engineering International: CIGR Journal, 23, 100-108.
[29]
Sharma, P., & Bijalwan, P. (2022). Effect of Mulching on Crop Production under Rainfed Condition: A Review. Agricultural Reviews, 43, 199-204.
[30]
Singh, A. (2022). Soil Salinity: A Global Threat to Sustainable Development. Soil Use and Management, 38, 39-67. https://doi.org/10.1111/sum.12772
[31]
Strauss, J. A., Swanepoel, P. A., Laker, M. C., & Smith, H. J. (2021). Conservation Agriculture in Rainfed Annual Crop Production in South Africa. South African Journal of Plant and Soil, 38, 217-230. https://doi.org/10.1080/02571862.2021.1891472
[32]
Tadesse, Y., & Kesho, A. (2023). Yield Loss Assessment of Potato Late Blight Disease in Central Highland Parts of Ethiopia. American Journal of Plant Biology, 8, 71-74. https://doi.org/10.11648/j.ajpb.20230803.14
[33]
Tan, D., Fan, Y., Liu, J., Zhao, J., Ma, Y., & Li, Q. (2019). Winter Wheat Grain Yeild and Quality Response to Straw Mulching and Planting Pattern. Agricultural Research,8, 548-552. https://doi.org/10.1007/s40003-019-00401-1
[34]
Torres, L. C., Keller, T., de Lima, R. P., Tormena, C. A., de Lima, H. V., & Giarola, N. F. B. (2021). Impacts of Soil Type and Crop Species on Permanent Wilting of Plants. Geoderma, 384, Article ID: 114798. https://doi.org/10.1016/j.geoderma.2020.114798
[35]
Wabela, K., Bekele, T., & Ahmed, M. (2023). Effects of Irrigation Scheduling on Yield of Potato and Water Productivity Southern, Ethiopia. International Journal on Food, Agriculture and Natural Resources, 4, 18-22. https://doi.org/10.46676/ij-fanres.v4i1.116
[36]
Wagg, C., Hann, S., Kupriyanovich, Y., & Li, S. (2021). Timing of Short-Period Water Stress Determines Potato Plant Growth, Yield and Tuber Quality. Agricultural Water Management, 247, Article ID: 106731. https://doi.org/10.1016/j.agwat.2020.106731
[37]
Wang, Y., Wang, Q., Wang, S., Zhang, X., & Sun, R. (2020). Effects of Soil Moisture Content on Soil Biological Properties: A Review. Journal of Agricultural Science, 12, 91-102.
[38]
Wijerathna-Yapa, A., & Pathirana, R. (2022). Sustainable Agro-Food Systems for Addressing Climate Change and Food Security. Agriculture, 12, Article No. 1554. https://doi.org/10.3390/agriculture12101554
[39]
Zhang, X., You, S., Tian, Y., & Li, J. (2019). Comparison of Plastic Film, Biodegradable Paper and Bio-Based Film Mulching for Summer Tomato Production: Soil Properties, Plant Growth, Fruit Yield and Fruit Quality. Scientia Horticulturae, 249, 38-48. https://doi.org/10.1016/j.scienta.2019.01.037
[40]
Zhang, Y. W., Wang, K. B., Wang, J., Liu, C., & Shangguan, Z. P. (2021). Changes in Soil Water Holding Capacity and Water Availability Following Vegetation Restoration on the Chinese Loess Plateau. Scientific Reports, 11, Article No. 9692. https://doi.org/10.1038/s41598-021-88914-0
