Optimizing Adaptive Agricultural Systems, Making Organic Fertilizer, and Drip Irrigation Technology in Sukamanah Village

Authors

  • Adrian Rizki Maulana Universitas Islam Nusantara, Indonesia
  • Fujia Damayanti Universitas Islam Nusantara, Indonesia
  • Intan Nurlaela Universitas Islam Nusantara, Indonesia
  • Kusnayadi Kusnayadi Universitas Islam Nusantara, Indonesia
  • Muhammad Noval Universitas Islam Nusantara, Indonesia
  • Rafi Muhammad Rifal Universitas Islam Nusantara, Indonesia
  • Rafi Sandina Alam Universitas Islam Nusantara, Indonesia
  • Satria Putra Sulistiyo Universitas Islam Nusantara, Indonesia
  • Siti Jenab Universitas Islam Nusantara, Indonesia
  • Fajar Indra Septiana Universitas Islam Nusantara, Indonesia

DOI:

https://doi.org/10.57235/aurelia.v4i1.4145

Keywords:

Adaptive Agricultural System, Organic Fertilizer, Drip Irrigation, Agricultural Productivity, Sustainability

Abstract

This research aims to evaluate the effectiveness of several proposed solutions to improve the agricultural system. The main focus of this study is on introducing an adaptive agricultural system tailored to local environmental conditions, producing organic fertilizers using modern agricultural standards, and implementing drip irrigation technology. The results show that the introduction of an adaptive agricultural system significantly increases productivity through the selection of superior seeds and proper planting patterns. Furthermore, the production of organic fertilizer has proven to improve soil quality and crop yields through the layering method and the use of Effective Microorganisms (EM4). The application of drip irrigation technology enhances water use efficiency, reducing the overuse of water resources. Overall, these three solutions positively contribute to increased productivity, sustainability, and resource efficiency in modern agricultural systems.

Downloads

Download data is not yet available.

References

Brockerhoff, E. G., Barbaro, L., Castagneyrol, B., Forrester, D. I., Gardiner, B., González-Olabarria, J. R., Lyver, P. O., Meurisse, N., Oxbrough, A., Taki, H., Thompson, I. D., van der Plas, F., and Jactel, H.: Forest biodiversity, ecosystem functioning and the provision of ecosystem services, Biodivers. Conserv., 26, 3005–3035, https://doi.org/10.1007/s10531-017-1453-2, 2017.

Gundersen, P., Thybring, E. E., Nord-Larsen, T., Vesterdal, L., Nadelhoffer, K. J., and Johannsen, V. K.: Old-growth forest carbon sinks overestimated, Nature, 591, E21–E23, https://doi.org/10.1038/s41586-021-03266-z, 2021.

Ikhsani, H., Ratnaningsih, A. T., Kehutanan, S., Kehutanan, F., & Kuning, U, L. (2021) Penanaman Pohon Sebagai Bentuk Kepedulian Terhadap Lingkungan di Perumahan Bukit Permata sumbari II Kota Pekanbaru. DINAMISIA : Jurnal Pengabdian Masyarakat, 5(2), 421-426.

Rohatyn, S., Yakir, D., Rotenberg, E., and Carmel, Y.: Limited climate change mitigation potential through forestation of the vast dryland regions, Science, 377, 1436–1439, https://doi.org/10.1126/science.abm9684, 2022.

S. Kalender - Smajlović, M. Dovjak Advantages of greenery in hospital environment - a literature review. 2024. Sanitarno inženirstvo International Journal of Sanitary Engineering Research 16(1):4-13 DOI:10.2478/ijser-2023-0002

Van den Berg AE, van den Berg MMHE. Health benefits of plants and green space: establishing the evidence base. Acta Hortic. 2015; 1093: 19-30.

Wang, H., Yue, C., and Luyssaert, S.: Reconciling different approaches to quantifying land surface temperature impacts of afforestation using satellite observations, Biogeosciences, 20, 75–92, https://doi.org/10.5194/bg-20-75-2023, 2023.

Allen, R. G., Pereira, L. S., Raes, D., & Smith, M. (1998). Crop Evapotranspiration: Guidelines for Computing Crop Water Requirements. FAO Irrigation and Drainage Paper 56. FAO.

Brady, N. C., & Weil, R. R. (2010). Elements of the Nature and Properties of Soils (3rd ed.). Pearson.

Fereres, E., & Soriano, M. A. (2007). Deficit irrigation for reducing agricultural water use. Journal of Experimental Botany, 58(2), 147-159.

Gurung, T. R. (2006). Participatory Seed Production and Dissemination: Experiences from Nepal. Biodiversity International.

Higa, T., & Wididana, G. N. (1991). The concept and theories of effective microorganisms. In J. F. Parr, S. B. Hornick, & M. E. Simpson (Eds.), Proceedings of the First International Conference on Kyusei Nature Farming (pp. 118-124). USDA.

Higa, T. (1996). An Earth Saving Revolution: A Means to Resolve Our World's Problems Through Effective Microorganisms (EM). Sunmark Publishing, Inc.

Howell, T. A. (2001). Enhancing water use efficiency in irrigated agriculture. Agronomy Journal, 93(2), 281-289.

Nunes, M. C. M., Araújo, S. S., Correia, P. M., & Dias, M. C. (2020). Ecophysiology of drought and heat stress in wheat and maize: Future prospects for food production. Environmental and Experimental Botany, 178, 104153.

Sadras, V. O., & Calderini, D. F. (2021). Crop Physiology: Applications for Genetic Improvement and Agronomy (3rd ed.). Academic Press.

Downloads

Published

2024-12-30

Issue

Vol. 4 No. 1 (2025): January 2025

Section

Articles

Citation Check

License

  1. Authors certify that the work reported here has not been published before and contains no materials the publication of which would violate any copyright or other personal or proprietary right of any person or entity.
  2. Authors dont transfer or license the copyright of publishing to AURELIA: Jurnal Penelitian dan Pengabdian Masyarakat Indonesia Research to publish the article in any media format, to share, to disseminate, to index, and to maximize the impact of the article in any databases.
  3. Authors hereby dont agree to transfer a copyright for publishing to AURELIA: Jurnal Penelitian dan Pengabdian Masyarakat Indonesia a Publisher of the manuscript. 
  4. Authors reserve the following: 
    1. all proprietary rights other than copyright such as patent rights; 
    2. the right to use all or part of this article in future works of our own such as in books and lectures;
    3. use for presentation in a meeting or conference and distributing copies to attendees; 
    4. use for internal training by author's company;
    5. distribution to colleagues for their research use;
    6. use in a subsequent compilation of the author's works;
    7. inclusion in a thesis or dissertation;
    8. reuse of portions or extracts from the article in other works (with full acknowledgement of final article);
    9. preparation of derivative works (other than commercial purposes) (with full acknowledgement of final article); and
    10. voluntary posting on open web sites operated by author or author’s institution for scholarly purposes, but it should follow the open access license of Creative Common CC BY-NC License.