High wind speed is one of the limiting factors for plant cultivation in coastal sandy land. To mitigate this, sweet corn, an annual plant, can be cultivated as a windbreaker. Water spinach is one of the short-lived plants cultivated by farmers in coastal sandy land. The study aimed to figure out the microweather change, growth, and yield of water spinach protected by sweet corn as windbreaker in various planting locations in Samas coastal sandy land. The research had been conducted in Samas coastal sandy land, Bantul Regency, Yogyakarta Special Region, from October to November 2022. The experiment was arranged in Randomized Complete Block Design non-factorial, containing five treatment levels and four repetitions. The treatment of the planting location of sweet corn as a windbreaker is without sweet corn, sweet corn positioned on the “east”, sweet corn on the “east and west”, sweet corn on the “south”, and sweet corn on the “south and north”. The data were analyzed using analysis of variance (ANOVA), and if the difference was marked, the data analysis was proceeded to Tukey HSD with α = 5%. The results showed that sweet corn windbreaker placed on the “east” was the most effective in decreasing wind speed, thereby modifying the microweather of water spinach plot by lowering air temperature and increasing air humidity and soil moisture content during November on the Samas coastal sandy land. Growth, dry matter accumulation, and water spinach yield increased, although the dry harvest index and fresh harvest index did not show any improvement.

Astutik, D. (2017). Pengaruh kerapatan jagung manis (Zea mays saccharata) sebagai tanaman pagar (shelter) terhadap pertumbuhan dan hasil dua kultivar kacang hijau (Vigna radiata L.) di lahan pasir pantai Samas, Bantul. M.Sc. Tesis. Universitas Gadjah Mada. Yogyakarta.

Astutik, D., Yudhono, P., and Waluyo, S. (2017). The Growth of Two Cultivars Mung Bean under Different Sweet Corn Shelter Density in Sandy Soil Coastal Area. Ilmu Pertanian (Agricultural Science), 2(3), pp. 106–111.

Astutik, D., Yudhono, P., and Waluyo, S. (2020). Karakteristik Perakaran Tanaman Kacang Hijau pada Tanah Pasir dengan Tingkat Kerapatan Tanaman Pagar Jagung Manis. Jurnal Pertanian Agros, 2(2), pp. 158–167.

Dai, K., Bergot, A., Liang, C., Xiang, W.N., and Huang, Z. (2015). Environmental Issues Associated with Wind Energy – A Review. Renewable Energy, 75, pp. 911–921.

Dheng, R., Li, Y., Zhangm S., Wang, W., and Shi, X. (2011). Assessment of the Effects of Shelterbelt on the Soil Temperature Regional Scale Based on MODIS Data. Journal of Forestry Research, 22(1), pp. 65–70.

Edy, Tohari, Indradewa, D., and Shiddieq, D. (2011). Respon Tanaman Jagung Tumpangsari Kacang Hijau terhadap Perlakuan Parit pada Lahan Kering. Jurnal Agrotropika, 16(1), pp. 38–44.

Fikri, M.S., Indradewa, D., and Putra, E.T.S. (2015). Pengaruh pemberian kompos limbah media tanam jamur pada pertumbuhan dan hasil kangkung darat. Vegetalika, 4(2), pp. 36–47.

Firdaus, A.A., Khuria, Kusuma, K.W., Salvaningtyas, N., and Azmita, M. (2022). Pemantauan Kecepatan Turbin Angin Sumbu Vertikal Secara Real-time Berdasarkan Internet of Things. Alinier Jurnal, 3(1), pp. 1–9.

Gardiner, B., Berry, P., and Moulia, B. (2016). Review: Wind Impacts on Plant Growth, Mechanics and Damage. Plant Science, 245, pp. 94–118.

Hasanuzzaman, M., Shabala, L., Brodribb, T.J., Zhou, M., and Shabala, S. (2019). Understanding Physiological and Morphological Traits Contributing to Drought Tolerance in Barley. Journal of Agronomy and Crop Science, 205(2), pp. 129–140.

Ipaulle, Q.H., Indradewa, D., and Irwan, S.N.R. (2023). Effects of Rice Husk Charcoal on The Resistance of Jali (Coix lacryma‐jobi L.) to Drought Stress during Generative Phase. Ilmu Pertanian (Agricultural Science), 8(1), pp. 32–38.

Iwasaki, K., Torita, H., Abe, T., Uraike, T., Touze, M., Fukuchi, M., Sato, H., Iijima, T., Imaoka, K., and Igawa, H. (2019). Spatial Pattern of Windbreak Effects on Maize Growth Evaluated by Unmanned Aerial Vehicle in Hokkaido, Northern Japan. Agroforestry Systems, 93, pp. 1133–1145.

Kaur, A., and Singh, S.P. (2014). Effect of Different Shelterbelts on Growth and Yield of Brinjal (Solanum melongena L) under Different Environments. International Journal of Farm Sciences, 4(1), pp. 35–41.

Martin, J., Markus, R., and Philippe, C. (2010). Recent Decline in the Global Land Evapotranspiration due to Limited Moisture Supply. Nature, 467, pp. 951–954.

Nugroho, S.W., and Kartono, D. (2022). Tanggapan Kangkung Darat (Ipomoea reptans Poir.) terhadap Monosodium Glutamate (MSG) Berbagai Konsentrasi. Vegetalika, 11(1), pp. 19–26.

Nurhayati, D. R., and Siswadi. (2019). Growth of Sesame (Sesamum indicum L.) Plants with Mediated Compost Biochar on Coastal Sandy Land Area in Bantul Regency Indonesia. EurAsian Journal of BioSciences, 13, pp. 673–679.

Parwada, C., Chigiya, V., Ngezimana, W., and Chipomho, J. (2020). Growth and Performance of Baby Spinach (Spinacia oleracea L.) Grown under Different Organic Fertilizer. International Journal of Agronomy, 2020(1), 8843906.

Parwata, I.G.M.A., Indradewa, D., Yudono, P., Kertonegoro, B. D., and Kusmarwiyah, R. (2014). Respon Pertumbuhan dan Hasil Tanaman Jarak Pagar (Jatropha curcas L.) terhadap Cekaman Kekeringan di Lahan Pasir Pantai pada Tahun Pertanaman Siklus Produksi. Jurnal Agronomi Indonesia, 42(1), pp. 59–65.

Putra, S.S., Putra, E.T.S., and Widada, J., (2020). The Effects of Types of Manure and Mycorrhizal Applications on Sandy Soils on the Growth and Yield of Curly Red Chili (Capsicum annum L.). Caraka Tani Journal of Sustainable Agriculture, 35(2), pp. 258–267.

Setyaningrum, T., Indradewa, D., Priyatmojo, A., and Sulistyaningsih, E. (2019). Trichoderma asperellum Inoculation on Shallots Productivity in Coastal Sand Lands. IOP Conference Series: Earth and Environmental Science, 250, 012094.

Setyaningrum, T., Indradewa, D., Priyatmono, A., and Sulistyaningsih, E. (2018). Physiological Properties, Growth, and Yield of Shallot (Allium cepa var. Aggregatum) in Coastal Sand Land with Inoculation of Trichoderma asperellum and Cow Manure. Amerikan Eurasian Journal of Sustainable Agriculture. 12(4), pp. 25-33.

Shin, M.-H., Hwang, H.-S., Lee, I.-B., Seo, Y.-H., and Kim, M.-K. (2013). Dust Collection and Nutrient Absorption by Halophyte Communities in Saemanguem Reclaimed Land. Journal of the Korean Society Applied Biological Chemstry, 56, pp. 679–686.

Sukri, M. Z., Sari, V. K., and Firgiyanto, R. (2018). Improving Soil Fertilizer Through Application of Organic Fertilizer Humid Acid and Mikoriza in Supporting Growth and Production of Chilli Plants In Sand Land. IOP Conference Series: Earth and Environmental Science, 207, 012056.

Sun, Q., Zheng, B., Liu, T., Zhu, L., Hao, X., and Han, Z. (2022). The Optimal Spacing Interval between Principal Shelterbelts of the Farm-Shelter Forest Network. Environmental Science Pollution Research, 29, pp. 12680–12693.

Tamang, B., Andreu, M.G., and Rockwood, D.L. (2010). Microclimate Patterns on the Leeside of Single-Row Tree Windbreaks during Different Weather Conditions in Florida Farms: Implications for Improved Crop Production. Agroforestry System, 79, pp. 111–122.

Thevs, N., Strenge, E., Aliev, K., Eraaliev, M., Lang, P., Baibagysov, A., and Xu, J. (2017). Tree Shelterbelts as an Element to Improve Water Resource Management in Central Asia. Water, 9(842), pp. 1–11.

Zheng, X., Zhu, J., and Xing, Z. (2016). Assessment of the Effect of Shelterbelts on Crop Yields at the Regional Scale in Northeast China. Agricultural Systems, 14, pp. 49–60.

Zhuang, J.-Y., Zhang, J.-C., Yang, Y., Zhang, B., and Li, J., (2017). Effect of Forest Shelter-Belt as a Regional Climate Improver Along the Old Course of the Yellow River, China. Agroforestry Systems, 91, pp. 393–401.