Kurniawan, J.S., and Khardi, S., 2011, Comparison of Methodologies Estimating Emissions of Aircraft Pollutants, Environemtal Impact Assessment around Airports, Enivronmental Impanct Assessment Review, 31, 240-252, doi : 10.1016/j.eiar.2010.09.001

ICAO, 2011, Airport Air Quality Manual, 1st edition, International Civil Aviation Organization, Montreal.

Khardi, S., and Kurniawan, J., 2013, Modeling of Aircraft Pollutant Emissions of LTO Cycles Around Soekarno Hatta International Airport, Environmental Science, 8(1), 22-34.

Natsir, T.A., Pambarep, Y.W., Susetyaningsih, R., Etyanto, K., dan Triastianti, R.D., 2017, Penggunaan AERMOD untuk Kajian Simulasi Dampak Pencemaran Karbon Monoksida di Kota Yogyakarta Akibat Emisi Kendaraan Bermotor, J. Manusia & Lingkungan Hidup, 24(1), 11-16, doi : 10.22146/jml.23631

Synylo, K., and Zaporozhets, O., 2017, Improvement of Airport Local Air Quality Modeling, Journal of Aircraft, 54(5), 1750-1759, doi : 10.2514/1.C033803

Deligiorgi, D., Philippoulos, K., and Karvounis, G., 2013, Estimation of Pollution Dispersion Patterns of a Power Plant Plume in Complex Terrain, Global NEST Journal, 15(2), 227-240, doi : 10.30955/gnj.000955

Kim, B., nakada K., Wayson R., Christie, S., Paling, C., Bennet, M., Raper, D., Raps, V., Levy, J., and Roof, C., 2015, Understanding Airport Air Quality and Public Health Studies Related to Airports, Transportation Resaerach Board of the National Academies, Washington DC, doi : 10.17226/22119

Rood, A.S., 2014, Performance Evaluation of AERMOD, CALPUFF, and Legacy Air Dispersion Models using the Winter Validation Tracer Study Dataset, Atmospheric Environment, 89, 707-720, doi : 10.1016/j.atmosenv.2014.02.054

Rzeszutek, M., and Szulecka, A., 2021, assessment of the AERMOD Dispersion Model in Complex Terrain with Different Types of Digital Elevation Data, 3rd International Conference on the Sustainable Energy and Environmental Development, 16-18 October 2019, Kraków.

Wayson, R.L., Kim, B.Y., Fleming, G.G., Hall, C., Thrasher, T., Colligan, B., Draper, J., 2003, Integration of AERMOD into EDMS, Proceedings of the 96th Annual Meeting of the Air and Waste Management Association, 23-25 June, California.

Matacchiera, F., Manes, C., Beaven, R.P., Rees-White, T.C., Boano, F., Mønster, J., and Scheutz, C., 2018, AERMOD as Gaussian Model for Planning Tracer Gas Dispersion Tests for Landfill Methane Emission Quantification, Waste Management, 87, 924-936, doi : 10.1016/j.wasman.2018.02.007

Zhang, L., Guo, X., Zhao, T., Gong, S., Xu, X., Li, Y., Luo, L., Gui, K., Wang, H., Zheng, Y., and Yin, X., 2019, A Modeling Study of the Terrain Effects on Haze Pollution in the Sichuan Basin, Atmospheric Environment, 196, 77-85, doi : 10.1016/j.atmosenv.2018.10.007

Clark, A.I., McIntyre, A.E., Perry, R., and Lester, J.N., 1983, Air Quality Measurement in the Vicinity of Airports, Environmental Pollution, 6, 245-261, doi : 10.1016/0143-148X(83)90012-5

Steib, R., Labancz, K., Ferenczi, Z., and Alföldy, B., 2008, Airport (Budapest Ferihegy-Hungary) Air quality Analysis using the EDMS Modelling System, J. Hungarian Meteorol. Serv., 112, 99-112.

Theopanides, M., and Anastassopoulou, J., 2009, Air Pollution Simulation and Geographical Information Systems (GIS) Applied to Athens International Airport, Journal of Environmental Science and Health Part A, 44, 758-766, doi : 10.1080/10934520902928354

Simonetti, I., Maltagliati, S., and Manfrida, G., 2015, Air Quality Impact of a Middle Size Airport within an Urban Context through EDMS Simulation, Transportation Research Part D, 40, 144-154, doi : 10.1016/j.trd.2015.07.008

Arunachalam, S., Valencia, A., Woody, M.C., Snyder, M.G., Huang, J., Weil, J., Soucacos, P., and Webb, S., 2017, Dispersion Modeling Guidance for Airports Addressing Local Air Quality Health Concerns, Transportation Research Board of the National Academies, Washington DC, doi : 10.17226/24881

Kuzu, S.L., 2018, Estimation and Dispersion Modeling of Landing and Take-off (LTO) Cycle Emissions from Atatürk International Airport Air Quality, Atmosphere & Health, 153-161, doi : 10.1007/s11869-017-0525-5

Askariyeh, M.H., Kota, S.H., Vallamsundar, S., Zietsman, J., and Ying, Q., 2017, AERMOD for Near-road Pollutant Dispersion: Evaluation of Model Performance with Different Emission Source Representations and Low Wind Options, Transportation Research Part D, 57, 392-402, doi : 10.1016/j.trd.2017.10.008

Natalia, A.C.S., 2012, Prediksi Penyebaran Polutan Particulate Matter, Sulfur Dioksida, Nitrogen Oksida, dan Karbon Monoksida dari PT.X menggunakan Perangkat Lunak AERMOD, Skripsi, Jurusan Teknik Lingkungan FTSL ITB, Bandung.

Zhao, D., Chen, H., Shao, H., and Sun, X., 2018, Vehicle Emission Factors for Particulate and Gaseous Pollutantants in an Urban Tunnel in Xi'an, China, Journal of Chemistry, 2018(2), 1-11, doi : 10.1155/2018/8964852

Solano, J.C., Montaño, T., Maldonado-Correa, J., Ordóñez, A., and Pesantez, M., 2021, Correlation between the Wind Speed and the Elevation to Evaluate the Wind Potential in the Southern Region of Ecuador, Energy Reports, 7(3), 259-268, doi : 10.1016/j.egyr.2021.06.044

Yan, L., Hu, W., and Yin, M., 2020, An Investigation of the Correlation between Pollutant Dispersion and Wind Environment: Evaluation of Static Wind Speed, Pol. J. Environ. Stud., 30(5), 4311-4323, doi : 10.15244/pjoes/130040

Anonim, 2018, Dokumen Hasil analisis Dampak Lalu Lintas Pembangunan New Yogyakarta International Airport, Pusat Studi Transportasi dan Logistik Universitas Gadjah Mada, Yogyakarta.

Anonim 2018, Keputusan Menteri Perhubungan Nomor KP 1994 Tahun 2018 tentang Penetapan Lokasi Bandar Udara Baru di Kabupaten Kulon Progo Provinsi Daerah Istimewa Yogyakarta.