Sumberdaya air (SDA) kini telah masuk tahap kerusakan yang parah. Kejadian kekurangan air sesaat setelah musim penghujan berhenti, konflik kepentingan atas air di banyak claerah, dan gagal panen di banyak tempat adalah contoh akibat kerusakan SDA. Untuk mengatasi degradasi • dari kualitas dan kuantitas SDA sudah dilakukan program pengelolaan - SDA terpadu, akan tetapi program masih terbatas pada konsep dengan pemahaman terbatas. Sebagai akibatnya, stakeholder tidak bisa melakukan program secara tepat. Dari tinjauan literatur secara menyeluruh menghasilkan definisi aliratt rendah, yakni aliran yang nilainya relatif terhadap pemakaian. Konsep manajemen aliran rendah terpadu dalam penelitian ini ditunjukkan dengan aplikasi 3 (tiga) tolok ukur resiko sebagai nilai pembatas dalam manajemen SDA, yakni indeks keandalan (reliability), indeks kelentingan (resiliency), dan indeks kerawanan (vulnerability). Untuk mendukung konsep ini telah dibangun model pengelolaan aliran­ rendah (MPAR) dengan pendekatan hidrologi elementer. MPAR terdiri dari 2 (dua) jenis analisis, yakni transformasi hujan-aliran dan manajemen air berkelanjutan. Model telah diuji pada daerah irigasi Notog, sub-DAS Notog­ Bantarkawung, bagian dari DAS Pemali, Jawa Tengah. Unit hidrologi terkecil dengan ukuran 0,5 x 0,5 km2 digunakan dalam memodelkan transformasi hujan­ aliran. Tolok ukur untuk uji model ditetapkan sebelumnya, yaitu koefisien kalibrasi (CB)<0,025 dan koefisien keseimbangan massa (MB)<0,05. Kalibrasi secara manual telah dilakukan untuk model transformasi hujan-aliran dengan hasil nilai CB=0,18 dan MB=0,0097 pada nilai n=0,03 dan Boussinesq=0,4. Tetapi, pada tahap verifikasi, hanya mencapai nilai CB=0,48 dan MB=0,9. Hasil tes menunjukkan bahwa nilai indeks keandalan dapat dicapai secara mudah, tetapi sulit untuk mencapai nilai indeks kelentingan dan indeks kerawanan sesuai nilai yang telah ditetapkan. Evaluasi dilakukan untuk periode pendek, tiga tolok ukur resiko dapat dicapai dengan mudah. Dalam keadaan aliran rendah, indeks keandalan tinggi dapat dicapai jika frekuensi kejadian kekurangan air adalah rendah, indeks kelentingan tinggi dapat diperoleh jika kekurangan air didistribusikan dengan baik, dan indeks kerawanan rendah dapat dicapai jika kekurangan air relatif kecil. Kejadian ini merupakan indikasi bahwa tolok ukur tersebut patut dipertimbangkan sebagai pembatas dalam manajemen SDA dan secara umum MPAR cukup memuaskan sebagai alat dalam pengelolaan SDA berkelanjutan.

Water resources are now in the serious critical phase. The occurrence of water insufficiency as soon as the rainy season stops, the conflict of water demand in many areas, the crop failure in many areas are of the examples of impacts of the water resource damage. To overcome the degradation of water resources in terms of quality and quantity, an integrated water resource management program has been conducted The program, however, is limited to some concepts with limited understandings that the stakeholder cannot carry out it properly. The comprehensive overview upon the literatures on low-flow results in a definition that the lowflow is aflow which is relative to its usage. The concept of integrated low flow management in this research is shown by the application of 3 risk­ indicators (index) as the boundary in the water resource management, namely: reliability index, resiliency index, and vulnerability index. To support the concept, the model of low flow management with an elementary hydrology approach has been built. The model consists of two kinds of analysis, namely rainfall-run off transformation and sustainable water management. The model was tested at the Notog irrigation area, Notog­ Bantarkawung sub-basin. The latter is a part of Pemali basin in Central Java. The smallest hydrological unit with the size of 0.5 x 0.5 km2 was used in modeling the rainfall-run off transformation. The indicators for the model testing were specified prior to their application. The indicators included calibration coefficient (CB) < 0.025 and mass balance coefficient (MB) < 0.05. Manual calibration was done for the model of rainfall-run off transformation; it indicated that the values of CB and MB were 0.18 and 0.0097 respectively at the value n = 0.03 and Boussinesq = 0.4. At the verification phase, however, the values of CB and MB were only 0.48 and 0.90 respectively. The results of the tests show that the value of the reliability index can be reached easily, but the value of the resiliency index and vulnerability index are difficult to reach as stipulated. However, if the evaluation is done in a short -term, the three risk-indicators can be reached easily. During the low flow, the high reliability index can be reached if the frequency of the incident of water insufficiency is low. The high resiliency index can be reached if the incident of water insufficiency does not take place at a certain period, but it is well distributed. •The low vulnerability index can be achieved if the water insufficiency is relatively low. Therefore, those values indicate that the three indexes are eligible to be considered as the limit in the water resource management. The. low flow management model is fairly satisfactory as a means of sustainable water resource management.

Kata Kunci : Aliran rendah,Tolok ukur resiko,Model