291 research outputs found

    GREENHOUSE GAS INVENTORY AND ABATEMENT STRATEGY FOR FORESTRY AND LANDUSE CHANGE SECTORINVENTARISASI GAS RUMAH KACA DAN STRATEGI PENURUNAN EMISINYA UNTUK SEKTOR KEHUTANAN DAN PERUBAHAN TATA GUNA LAHAN

    No full text
    Abstract is available in the full text (pdf format

    TIME OF FLOODING FOR GOGO RANCAH RICE AND REPRODUCTIVE STAGE MOISTURE STRESS FOR WALIK JERAMI RICE

    No full text
    Abstract is available in the full text (pdf format

    AKUMULASI SATUAN PANAS DALAM BUDIDAYA TANAMAN KEDELAI DI LOMBOK, NUSA TENGGARA BARAT

    No full text
    Abstract is available in the full text (pdf format

    STUDI KECEPATAN TUMBUH AKAR DENGAN PENGUKURAN KADAR AIR TANAH

    No full text
    Abstract is available in the full text (pdf format

    ANALISIS SIMULASI UPAYA MITIGASI GAS METAN PADA PADI SAWAH DI INDONESIASIMULATION ANALYSIS OF APPROACH ON MITIGATION OF METHANE GAS EMISSION RICE FIELDS IN INDONESIA

    No full text
    Abstract is available in the full text (pdf format

    MITIGATION OPTIONS OF GREEN-HOUSE GASES (GHG) FOR AGRICULTURE

    No full text
    Abstract is available in the full text (pdf format

    PENGARUH UNSUR-UNSUR IKLIM TERHADAP FLUKTUASI HASIL CENGKEH

    No full text
    Abstract is available in the full text (pdf format

    PENGARUH MUSIM TANAM DAN PEMBERIAN AIR TERHADAP UMUR DAN HASIL KEDELAI

    No full text
    Abstract is available in the full text (pdf format

    PHOTOSYNTESIS OF SOYBEAN SINGLE LEAF INRELATION TO LIGHT INTENSITY AND LEAF TEMPERATURE

    No full text
    Abstract is available in the full text (pdf format

    ANALISA POTENSI WADUK RUKOH DALAM MEMENUHI KEBUTUHAN AIR DI KABUPATEN PIDIE, INDONESIAANALYSIS OF RUKOH RESERVOIR POTENCY FOR DETERMINING WATER REQUIREMENT IN PIDIE DISTRICT, INDONESIA

    Full text link
    Generally, reservoir can overcome problem of water availability in particular region. The reservoir collects excess water during rainy season to be used at the time of water shortage during dry season. In Pidie, the largest water sources are from Krueng Baro Geunik and Krueng Tiro. The reservoir is located at Krueng Rukoh with Krueng Tiro as the source of water supply. The reservoir provides water for irrigating and supplying domestic water in Baro (11.950 ha) and Tiro (6.330 ha) areas. There are 13 districts (216718 inhabitants) use the water from this reservoir. Given the population growing at rate of 0.52% then the water demand in the region increases. The aim of study was to estimate the volume of water entering the reservoir using the tank model. Calibration curve between the tank model output and observation data showed good correlation (R2 = 0.7). The calibrated model was then used to calculate the discharge at Krueng Baro Geunik. A water balance analysis showed that the highest deficit occurred in September and the highest surplus in November. Based on this analysis, the capacity of Krueng Rukoh reservoir is able to fulfill its function assuming the rate of population growth and the irrigation area are constant

    171

    full texts

    291

    metadata records
    Updated in last 30 days.
    Agromet
    Access Repository Dashboard
    Do you manage Open Research Online? Become a CORE Member to access insider analytics, issue reports and manage access to outputs from your repository in the CORE Repository Dashboard! 👇