This study aimed to determine the effect of ship engine noise level on hearing function and work stress on ship engine technicians. The data collection process was carried out within 30 days, from 15 February 2021 to 15 March 2021. This study took a collation at the Merak port of Banten. The method used is a survey using research subjects, ship engine technicians, and the object of research is noise. This study uses primary data in engine maintenance design and the intensity of noise distribution on the ship's engine. The research sample was 2 units of machines with engine criteria aged 1 year and 6 years. The equipment used in this study is a sound level meter, an object to measure the noise that has been calibrated. This research uses the descriptive analysis method. The results showed that the noise value at full rpm was 70.3-104 dB (A) and 59.2-77.5 dB (A) when in a stationary state. Referring to the data, the age of the machine does not affect the noise level. As a preventive measure against something that can become an obstacle regarding noise on board, it is necessary to use ear protection devices such as ear protection devices called earplugs. Noise can be minimized by regularly lubricating the engine and installing silencers to prevent sound from spreading to other rooms so that it can reduce the risk due to noise that causes stress, headaches, high blood pressure and other diseases

Level; Hearing; Stress.

Astriawati, N. 2019. Perawatan Sistem Pelumasan Mesin Utama Pada Kapal Km. Mutiara Sentosa II. Jurnal Teknovasi: Jurnal Teknik dan Inovasi Mesin Otomotif, Komputer, Industri dan Elektronika, 6(1), 74-80.

Chen, P., Huang, Y., Mou, J., & Van Gelder, P. H. A. J. M. 2019. Probabilistic risk analysis for ship-ship collision: State-of-the-art. Safety science, 117, 108-122.

Cholewiak, D., Clark, C. W., Ponirakis, D., Frankel, A., Hatch, L. T., Risch, D., ... & Van Parijs, S. M. 2018. Communicating amidst the noise: modeling the aggregate influence of ambient and vessel noise on baleen whale communication space in a national marine sanctuary. Endangered Species Research, 36, 59-75.

Dwinanto, M. M. 2019. Pelatihan Diagnosa, Perbaikan, Dan Perawatan Motor Diesel Dan Motor Tempel Bagi Kelompok Nelayan. Jurnal Pengabdian Vokasi, 1(2), 87-93.

Febrianti, S., Iskandar, B. H., & Kurniawati, V. R. 2021. Intensitas Kebisingan Berdasarkan Umur Mesin Kapal Payang di Pelabuhan Perikanan Nusantara Palabuhanratu. ALBACORE Jurnal Penelitian Perikanan Laut, 5(1), 017-028.

Ferial, L., Susanto, E., & Silalahi, M. D. 2016. Analisis Tingkat Kebisingan di Terminal Pakupatan (Kabupaten Serang, Provinsi Banten). Indonesian Journal of Urban and Environmental Technology, 8(1), 81-96.

Halliday, W. D., Insley, S. J., Hilliard, R. C., de Jong, T., & Pine, M. K. 2017. Potential impacts of shipping noise on marine mammals in the western Canadian Arctic. Marine Pollution Bulletin, 123(1-2), 73-82.

Hariani, E., Setyawati, T. R., & Yanti, A. H. 2013. Tekanan Darah Penumpang Laki-Laki yang Terpapar Suara Mesin Kapal Klotok Jalur Pontianak Teluk Batang. Jurnal Protobiont, 3(1).

Hendrawan, A. 2020, January. Analisa Tingkat Kebisingan Kamar Mesin Pada Kapal. In WIJAYAKUSUMA Prosiding Seminar Nasional (Vol. 1, No. 1, pp. 10-15).

Hendrawan, A., & Yulianeu, A. 2017. The impact of physical environment of work stress in abk (crew) fishing boat in cilacap. Proceeding ICSTIEM, 1-21.

Manuputty, M. 2019. Pengaruh getaran dan kebisingan terhadap kelelahan kerja pada awak kapal ikan tipe pole and line. ALE Proceeding, 2, 39-44.

McGeoch, P. D., & Rouw, R. 2020. How everyday sounds can trigger strong emotions: ASMR, misophonia and the feeling of wellbeing. BioEssays, 42(12), 2000099.

Setyawan, O., Zakki, A. F., & Iqbal, M. 2015. Analisa Estimasi Tingkat Kebisingan di Kamar Mesin dan Ruang Akomodasi pada Kapal Riset dengan Penggerak Motor Listrik. Jurnal Teknik Perkapalan, 3(1).

Sumardiyono, S., Wijayanti, R., Hartono, H., & Sri Budiastuti, M. T. 2020. Pengaruh Kebisingan terhadap Tekanan Darah, dengan Stres Kerja sebagai Variabel Mediator. Jurnal Kesehatan Vokasional, 5(2), 124.

Suryaatmaja, A., & Pridianata, V. E. 2020. Hubungan antara Masa Kerja, Beban Kerja, Intensitas Kebisingan dengan Kelelahan Kerja di PT Nobelindo Sidoarjo. Journal of Health Science and Prevention, 4(1), 14-22.

Usior, O. T., Pangalila, F. P. T., & Kaparang, F. E. 2014. Pengukuran tingkat kebisingan pada kapal pukat cincin KM. Sumber Jaya bermesin tempel di perairan Teluk Manado. Jurnal Ilmu dan Teknologi Perikanan Tangkap, 1(1), 92-98.

Wisniewska, D. M., Johnson, M., Teilmann, J., Siebert, U., Galatius, A., Dietz, R., & Madsen, P. T. 2018. High rates of vessel noise disrupt foraging in wild harbour porpoises (Phocoena phocoena). Proceedings of the Royal Society B: Biological Sciences, 285(1872), 20172314.