This study aims to: 1) recognize fruit flies (Drosophila melanogaster), 2) morphologically distinguish adult fruit fly sex, 3) study the growth of fruit fly populations. The practicum was held on August 20, 2019 in the Biology Education Laboratory FKIP UISU. The working principle of practicum is making food as a medium for fruit fly culture (a mixture of bananas, cassava tape, benzoate), etherization and observation, observing the growth of fruit fly populations. Observations were made by counting the number of live flies and dead flies, the sex ratio of flies. Observations were carried out every day, for 15 days (20 August 2019 - 3 September 2019). The results of the analysis show that: 1) population growth of Drosophila melanogaster includes logistic growth models with S-shaped curves, 2) sex of adult fruit flies can be morphologically distinguished through body size, abdominal shape, genital comb and external genital organs in the abdomen. Based on the results and discussion, the following conclusions are obtained: 1) fruit flies including insects undergoing perfect metamorphosis (egg phase, larvae, pupa, imago), 2) differences in adult fruit fly sex can be seen from body size, abdomen shape, presence of genital comb, external genital organs in the abdomen, 3) population growth of fruit flies including logistic growth models in the form of S curves, influenced by environmental factors

Population; Population Growth; Fruit Flies (Drosophila Melanogaster); Sex;

Agustina, E., Mahdi, N., Herdanawati. (2013). Perkembangan Metamorphosis Lalat Buah (Drosophilla melanogaster) pada Media Biakan Alami sebagai Referensi Pembelajaran pada Mata Kuliah Perkembangan Hewan. Jurnal Biotik. 1(1): 1-66.

Basukriadi. (2011). Populasi, Ekosistem, Biosfer. Retrieved from http://staff.ui.ac.id/internal/131472297/material/EKOSISTEM.pdf.

Chusnia. (2009). Pertumbuhan Populasi Paramaecium sp. dan Daya Dukung Lingkungan. Retrieved from http://wilda.html.

Demerec dan Kaufmann. (1961). Drosophila Guide, Introduction to the Genetics and Cytology of Drosophila melanogaster. Washington D.C: Carnegie Institution of Washington.

Frost, S. W. (1959). Insect Life and Insect Natural History, Second Revised Edition. New York: Dover Publication, Inc.

Gill, M. and Ellar, D. (2002). Transgenic Drosophila Reveals a Functional in vivo Receptor for the Bacillus thuringiensis Toxin Cry1Ac1. Insect Molecular Biology. 11(6): 619–625.

Karyanto, Puguh & Saputra, Alanindra. (2016). Modul Praktikum Ekologi Hewan. UNS.

Lints, Frederick A. and Soliman, M. Hani (Eds.). (1988). Drosophila as a Model Organism for Ageing Studies. New York: Springer Science.

Santoso, Rachmat Slamet. (2011). Identifikasi D. Melanogaster pada Media Biakan Alami dari Pisang Sepatu, Belimbing dan Jambu Biji. Jurnal Buana Sains. 11(2): 149-162.

Shorrock, B. (1972). Drosophila sp. Ginn Genetick. London: Company Limited.

Siburian, Jodion. (2008). Studi Keanekaragaman Drosophila sp. di Kota Jambi (Diversity of Drosophila sp at the Jambi City). Jurnal Biospecies. 1(2): 47-54.

Strickberger, M. W. (1962). Experiments in Genetic with Drosophila. New York: John Wiley and Sons Inc.

Tarumingkeng, R. C. (1994). Dinamika Populasi Kajian Ekologi Kuantitatif. Jakarta: Pustaka Sinar Harapan.

---