Peran Praktek Agroforestri Kopi terhadap Iklim Mikro dan Sifat Fisik Tanah di Desa Lanjan Jawa Tengah

https://doi.org/10.47637/agrimals.v5i2.1891
Published: Oct 9, 2025

Abstract:

The increase in the earth's temperature causes extreme climate change which affects the microclimate around plants. Practice of agroforestry is increasingly recognized as an effective land management system that integrates forestry species with agricultural crops to enhance ecological and economic functions. This study focuses on evaluating the role of coffee-based agroforestry practices on microclimate elements and soil physical properties in Lanjan Village, Central Java. The research is driven by the need to understand how shade trees in agroforestry systems influence environmental conditions and support sustainable agriculture, particularly in coffee cultivation. A field-based experimental approach was employed, involving observations and measurements of microclimatic parameters (temperature and humidity) and soil physical characteristics (bulk density).

The formulated hypothesis posits that agroforestry practices significantly alter the microclimate and physical characteristics of the soil. The findings confirm that agroforestry has a substantial impact on shaping key microclimatic elements, notably by reducing ambient air temperature and increasing air humidity under tree shade. Additionally, the system exhibits a statistically significant influence on bulk density, indicating an improvement in soil structure and potential for enhanced fertility.

Overall, the research highlights that agroforestry systems not only support crop productivity but also contribute positively to microclimate regulation and soil physical health. These insights underscore the importance of integrating shadeas a sustainable land management strategy, particularly in regions experiencing climate variability and soil degradation.

Keywords:
1. Microclimate
2. Temperature
3. Soil physical characteristics
4. Agroforestry
Authors:
1 . Mokhtar Effendi
Program Studi Teknologi Produksi Tanaman Pangan, Jurusan Pertanian, Politeknik Negeri Banyuwangi, Indonesia.
2 . Moh Hasbi Ash Shidiqi
Program Studi Teknologi Produksi Tanaman Pangan, Jurusan Pertanian, Politeknik Negeri Banyuwangi, Indonesia.
3 . Eka Nurmala Sari
Program Studi Teknologi Produksi Tanaman Pangan, Jurusan Pertanian, Politeknik Negeri Banyuwangi, Indonesia
4 . Septrial Arafat
Program Studi Agroekoteknologi, Jurusan Pertanian, Fakultas Peternakan dan Pertanian, Universitas Diponegoro, Indonesia.
5 . Refki Sanjaya
Program Studi Produksi Tanaman Perkebunan, Jurusan Budidaya Tanaman Perkebunan, Politeknik Negeri Lampung
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How to Cite
Effendi, M., Ash Shidiqi, M. H., Nurmala Sari, E., Arafat, S., & Sanjaya, R. (2025). Peran Praktek Agroforestri Kopi terhadap Iklim Mikro dan Sifat Fisik Tanah di Desa Lanjan Jawa Tengah. Journal of Agriculture and Animal Science, 5(2), 119–126. https://doi.org/10.47637/agrimals.v5i2.1891
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Issue & Section
Vol. 5 No. 2 (2025): Volume 5 Nomor 2 Tahun 2025
Articles
References

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  1. Agustiningsih, R., Suhartoyo, H., Suharto, E., Studi, P., Fakultas, K., & Universitas, P. (2022). 1) 2) , 3). 2(2), 56–60.
  2. Ariyanto, S. (2010). Kajian Dampak Perubahan Iklim Terhadap Produktivitas Kacang Hijau (Phaseolus radiatus L.) di Lahan Kering. Sains Dan Teknologi, 1–10. http://eprints.umk.ac.id/89/
  3. Castagnolli, L., Boggiani, F. S., Lima, J. A. de, Lima, M. T., & Tonello, K. C. (2023). Hydrological Properties of Litter in Different Vegetation Types: Implications for Ecosystem Functioning. Hydrology, 10(8), 1–13. https://doi.org/10.3390/hydrology10080165
  4. Effendi, M., Sugito, Y., & Nugroho, A. (2019). Adaptation test of several plants under the Pine Forest stands. Bioscience Research, 16(2), 1793–1799.
  5. Fahad, S., Chavan, S. B., Chichaghare, A. R., Uthappa, A. R., Kumar, M., Kakade, V., Pradhan, A., Jinger, D., Rawale, G., Yadav, D. K., Kumar, V., Farooq, T. H., Ali, B., Sawant, A. V., Saud, S., Chen, S., & Poczai, P. (2022). Agroforestry Systems for Soil Health Improvement and Maintenance. Sustainability (Switzerland), 14(22), 1–25. https://doi.org/10.3390/su142214877
  6. Hatfield, J. L., & Prueger, J. H. (2015). Temperature extremes: Effect on plant growth and development. Weather and Climate Extremes, 10, 4–10. https://doi.org/10.1016/j.wace.2015.08.001
  7. Islakhul Anam, M., Maghfiroh, C. N., Puspaningrum, Y., Nasirudin, M., & Faizah, M. (2023). Pengaruh Naungan Lentera, Alpukat, dan Sengon Terhadap Kondisi Iklim Mikro Pada Lahan Agroforestri Kopi Robusta. Agrosaintifika, 6(1), 25–30. https://doi.org/10.32764/agrosaintifika.v6i1.4304
  8. Tams, L., Paton, E. N., & Kluge, B. (2023). Impact of shading on evapotranspiration and water stress of urban trees. Ecohydrology, 16(6), 1–14. https://doi.org/10.1002/eco.2556
  9. Towaha, J., Aunillah, A., Purwanto, E. H., & Supriadi, H. (2014). Pengaruh Elevasi dan Pengolahan terhadap Kandungan Kimia dan Citarasa Kopi Robusta Lampung. Jurnal Tanaman Industri Dan Penyegar, 1(1), 57. https://doi.org/10.21082/jtidp.v1n1.2014.p57-62