Application of Smart Rice Transplanter (SRT) to Improve Efficiency and Yield in Agricultural Areas

Authors

  • Salsabila Thifal Nabil Haq Univesitas Negeri Malang, Indonesia
  • Wahyu Tri Handoko Univesitas Negeri Malang, Indonesia
  • Moh Zainul Falah Univesitas Negeri Malang, Indonesia
  • Imam Tree Utomo Univesitas Negeri Malang, Indonesia
  • Akmah Atikah Amilia Univesitas Negeri Malang, Indonesia
  • Fuad Indra Kusuma Univesitas Negeri Malang, Indonesia

DOI:

https://doi.org/10.51278/bce.v4i3.1554

Keywords:

Smart Rice Transplanter, Seboro Village, Agriculture

Abstract

Seboro Village is located in Krejengan District, Probolinggo, East Java Province, with an area of ​​94.75 ha (4.50 mi²) consisting of residential land, agricultural land, public facilities, and plantations. The main agricultural products in Seboro Village are rice in the rainy season and tobacco in the dry season. Seboro Village agriculture plays a very important role in maintaining food security because rice is the main raw material for food and also as the main agricultural producer. In the process of planting rice in Seboro Village itself, it is still relatively traditional, only using hands for the planting process in rice fields, so it requires a lot of workers so that the rice seedling planting process is completed quickly. On the other hand, the planting distance between rice seedlings is not the same so that it can interfere with the growth process between rice plants. Therefore, this community service activity proposes a hand-pushed rice planting tool or Smart Rice Transplanter (SRT) which is a tool to help plant rice in agricultural land efficiently and effectively without having to involve many workers. By using the Smart Rice Transplanter (SRT), it can also produce maximum rice harvest production because there is a system for providing planting distance when planting rice seedlings.

 

References

Bahri, S. (2020). Dampak Penyuluhan Pertanian Terhadap Produktivitas Padi Sawah. JU-ke (Jurnal Ketahanan Pangan), 3(2), 15–19.

Bawa, G., Liu, Z., Yu, X., Tran, L.-S. P., & Sun, X. (2024). Introducing single cell stereo-sequencing technology to transform the plant transcriptome landscape. Trends in Plant Science. https://www.cell.com/trends/plant-science/fulltext/S1360-1385(23)00329-1

Falah, M. Z., Handoko, W. T., Syah, A. I., Azizah, F. Z., Sujito, & Gumilar, L. (2023). IMPLEMENTATION OF SMART FARMING BASED SOLAR CELL SYSTEM IN HYDROPONIC IN THE AGRICULTURAL AREA OF BLITAR VILLAGE. Community Development Journal : Jurnal Pengabdian Masyarakat, 4(4), Article 4. https://doi.org/10.31004/cdj.v4i4.18161

Ficetola, G. F., Marta, S., Guerrieri, A., Cantera, I., Bonin, A., Cauvy-Fraunié, S., Ambrosini, R., Caccianiga, M., Anthelme, F., & Azzoni, R. S. (2024). The development of terrestrial ecosystems emerging after glacier retreat. Nature, 632(8024), 336–342.

Handoko, W. T., Falah, M. Z., Fakhruddin, D., Itqon, M. S., Gumilar, L., & Afifah, F. W. (2024). Implementation of Caterpillar Pest Control (CPC) on Solar Cell Based Onion Plants to Increase Productivity. Bulletin of Community Engagement, 4(2), 126–133.

Kothari, S., & Schweiger, A. K. (2022). Plant spectra as integrative measures of plant phenotypes. Journal of Ecology, 110(11), 2536–2554. https://doi.org/10.1111/1365-2745.13972

Kusumaningrum, S. I. (2019). Pemanfaatan sektor pertanian sebagai penunjang pertumbuhan perekonomian indonesia. Transaksi, 11(1), 80–89.

Latif, A., Ilsan, M., & Rosada, I. (2022). Hubungan peran penyuluh pertanian terhadap produktivitas petani padi. Wiratani: Jurnal Ilmiah Agribisnis, 5(1), 11–21.

Maghfiroh, R., Ati, N. U., & Sunariyanto, S. (2021). IMPLEMENTASI KEBIJAKAN DINAS KETAHANAN PANGAN DAN PERTANIAN DALAM MENINGKATKAN KESEJAHTERAAN PETANI (Studi Dinas Ketahanan Pangan Dan Pertanian Kabupaten Probolinggo). Respon Publik, 15(4), 67–74.

Panzarella, B. (2024). Hügelkultur at Wairarapa Moana: Exploring the effects of buried coarse woody debris on revegetation efforts in a high-stress growing environment [PhD Thesis, Open Access Te Herenga Waka-Victoria University of Wellington]. https://openaccess.wgtn.ac.nz/articles/thesis/H_gelkultur_at_Wairarapa_Moana_Exploring_the_effects_of_buried_coarse_woody_debris_on_revegetation_efforts_in_a_high-stress_growing_environment/26094238

Rúa, M. A., & Hoeksema, J. D. (2024). Interspecific selection in a diverse mycorrhizal symbiosis. Scientific Reports, 14(1), 12151.

Siregar, M. A. R. (2023). PENINGKATAN PRODUKTIVITAS TANAMAN PADI MELALUI PENERAPAN TEKNOLOGI PERTANIAN TERKINI. https://osf.io/g98xr/download

Sujito, S., Soekopitojo, S., Susanto, H., Wirawan, I. M., Falah, M. Z., Basthony, R. M., & Bharotoyakti, A. (2022). Pemberdayaan Masyarakat Dalam Pengolahan Hasil Pertanian Sebagai Ketahanan Ekonomi Selama Pandemi Covid-19 Di Desa Pejok Kecamatan Kepohbaru Kabupaten Bojonegoro. Prosiding Seminar Nasional Pengabdian kepada Masyarakat (SINAPMAS), 0, Article 0. http://conference.um.ac.id/index.php/sinapmas/article/view/3714

Syah, A. I., Handoko, W. T., Falah, M. Z., Kurniawan, R., Hafid, A., & Prasetya, D. D. (2023). Implementation of Smart Corn Planter (SCP) to Support Food Security in Agricultural Area Gondosuli Village Probolinggo Regency. Bulletin of Community Engagement, 3(2), 136–143.

Syairozi, M. I. (2020). Analisis Kemiskinan di Sektor Pertanian (Studi Kasus Komoditas Padi di Kabupaten Malang). Media Ekonomi, 28(2), 113–128.

Vullo, L., Palermo, V., Boer, R., Wahid, L., Hadinata, F., Kinasih, S., Rakhman, A., & Bertoldi, P. (2023). Technical Guidance for Development of Cities’ CAP in Indonesia in the frame of GCoM. https://publications.jrc.ec.europa.eu/repository/bitstream/JRC131301/JRC131301_01.pdf

Wardhiani, W. F. (2019). Peran Politik Pertanian dalam Pembangunan Pertanian menghadapi Era Revolusi Industri 4.0 di Sektor Pertanian. JISIPOL| Jurnal Ilmu Sosial Dan Ilmu Politik, 3(2), 83–94.

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Published

2024-11-19

How to Cite

Salsabila Thifal Nabil Haq, Wahyu Tri Handoko, Moh Zainul Falah, Imam Tree Utomo, Akmah Atikah Amilia, & Fuad Indra Kusuma. (2024). Application of Smart Rice Transplanter (SRT) to Improve Efficiency and Yield in Agricultural Areas . Bulletin of Community Engagement, 4(3), 347–354. https://doi.org/10.51278/bce.v4i3.1554

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