Waduk Bili-bili terletak di Kabupaten Gowa, Propinsi Sulawesi Selatan, memiliki volume tampungan 375 juta m3, luas genangan 18,5 km2 dan daerah tangkapan waduk 384 km2. Waduk Bili-bili dibangun dengan perkiraan umur rencana 50 tahun dengan kapasitas tampung mati sebesar 29.000.000 m3 dan laju pengendapan sebesar 580.000 m3/tahun. Berdasarkan hasil echosounding tahun 2004, sedimentasi yang terjadi di waduk Bili-bili sebesar 4.763.229 m3 dan hasil echosounding tahun 2005 sebesar 22.686.654 m3. Sumber sedimentasi waduk adalah erosi di daerah tangkapan waduk dan longsoran kaldera G. Bawakaraeng. Untuk itu perlu dilakukan suatu kajian tentang sumber-sumber sedimen tersebut dan pengaruhnya terhadap sedimentasi yang terjadi di Waduk Bili-bili. Penelitian ini bertujuan mengadakan kajian pengaruh erosi lahan terhadap sedimentasi yang terjadi di Waduk Bili-bili dan memberikan saran penanggulangannya. Analisis erosi lahan dilakukan dengan menggunakan metode prediksi erosi lahan Universal Soil Equation (USLE) dan Modified USLE (MUSLE) berdasarkan pada data-data sekunder yang ada. Sedangkan besarnya hasil sedimen yang masuk ke waduk diperkirakan menggunakan metode Sediment Delivery Ratio (SDR). Pengendalian erosi dilakukan dengan memperbaiki sistem pengolahan lahan dari tegalan menjadi kebun campur dan perbaikan sistem pengelolaan tanah. Hasil penelitian menunjukkan bahwa erosi lahan yang terjadi di daerah tangkapan hujan Waduk Bili-bili sebesar 1.609.216 m3/tahun atau kehilangan lapisan tanah sebesar 4,25 mm/tahun. Sebanyak 42,3 % sedimen hasil erosi lahan tersebut masuk dan terendapkan di waduk. Pengaruh sedimen hasil erosi yang masuk ke waduk menyebabkan sisa umur operasi waduk diperkirakan menjadi ± 29 tahun, sedangkan pengaruh sedimen longsoran kaldera G. Bawakaraeng relatif besar sehingga dikhawatirkan waduk hanya dapat beroperasi kurang dari umur yang direncanakan. Berdasarkan kondisi tersebut, maka pengendalian sedimen longsoran harus menjadi prioritas utama disamping pengendalian erosi lahan. Pengendalian erosi lahan dilakukan dengan harapan akan terjadi penurunan laju erosi menjadi 970.969 m3/tahun atau sebesar 2,57 mm/tahun sehingga mengurangi laju sedimentasi di waduk akibat erosi lahan menjadi 489.951 m3/tahun.

Bili-Bili Reservoir is located in Gowa Regency, South Sulawesi Province. The reservoir has storage capacity of 375 million m3, inundation water surface area of 18.5 km2, and catchment area of 384 km2. It was constructed to have lifetime design for 50 years with sediment storage capacity of 29,000,000 m3 and sedimentation rate of 580,000 m3/year. The result of the year 2004 echosounding shows sedimentation of 4,763,229.26 m3 have occurred in Bili-bili Reservoir, while the year 2005 echosounding shows sedimentation of 22,686,654 m3. The main sources of reservoir sedimentation come from catchment area erosion and caldera collapse of Mount Bawakaraeng. An analysis is then needed to study the sources of sediment and their effect on Bili-Bili Reservoir sedimentation. This research is intended to analyze the effect of catchment area erosion on Bili-Bili Reservoir sedimentation and providing recommendation of countermeasure methods. The analysis is conducted using land erosion prediction method of Universal Soil Loss Equation (USLE) and Modified USLE (MUSLE) based on the collected secondary data. Sediment yield entering reservoir is calculated using Sediment Delivery Ratio (SDR) method. Erosion countermeasures on the catchment area and construction of sediment control structures are needed in order to manage the sedimentation rate. Erosion control is carried out by improving land use management system. The improvement of land use is implemented by converting cultivated land into mixed cropping land. The results show that land erosion of 1,609,216 m3/year or soil losses of 4.25 mm/year in avarage occur on the catchment area of Bili-Bili Reservoir. SDR calculation shows that 42.3 % of surface erosion on the reservoir catchment area has caused sedimentation in the reservoir. Sediment yield entering the reservoir provides a huge impact on reducing the reservoir operational lifetime design down to 29 years.The huge impact of sediment yield resulted from caldera collapse of Mount Bawakaraeng results in reduction of the reservoir operational lifetime less than it is designed. Rever to such condition, therefor collapse sediment countermeasure must be the first priority as well as land erosion countermeasur. Hopefully under proper land use management system the soil erosion will come to 970,969.16 m3/year which equivalent to 2.57 mm/year, and erosion rate is predicted turn down to 489,951 m3/year.

Kata Kunci : Sedimentasi Waduk,Erosi Lahan, USLE, MUSLE, SDR, control.