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Halawa, Dilva Dwi Wulan
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Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Economics, Econometrics & Finance Other

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Konduktivitas Hidraulik Tanah Sebagai Indikator Pengelolaan Irigasi Dilahan Kering Ndruru, Julvan; Halawa, Lola Sri Wahyuni; Halawa, Dilva Dwi Wulan
Jurnal Ilmu Pertanian dan Perikanan Vol. 1 No. 1 (2024): PENARIK - Agustus
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/penarik.v2i1.69

Abstract

This study aims to explore the relationship between soil hydraulic conductivity and irrigation management in drylands. Soil hydraulic conductivity, which measures the ability of soil to conduct water, was measured at several locations with varying soil types. The results showed that sandy soils have a higher hydraulic conductivity (average 1.2 cm/hour) compared to clay soils (0.15 cm/hour). Additionally, a survey of 100 farmers revealed that more efficient irrigation practices were applied by those who understood their soil characteristics. Regression analysis indicated that 67% of the variation in irrigation management efficiency could be explained by soil hydraulic conductivity. These findings emphasize the importance of understanding hydraulic conductivity in improving irrigation management practices and agricultural productivity in drylands.
Konduktivitas Hidraulik Tanah Sebagai Indikator Pengelolaann Irigasi Dilahan Kering Ndruru, Julvan; Halawa, Lola Sri Wahyuni; Halawa, Dilva Dwi Wulan
Jurnal Ilmu Pertanian dan Perikanan Vol. 2 No. 3 (2025): PENARIK - Desember
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/penarik.v2i3.54

Abstract

This study aims to explore the relationship between soil hydraulic conductivity and irrigation management in dryland areas. Soil hydraulic conductivity, which is a measure of the soil’s ability to transmit water, was measured at several locations with varying soil types. The results showed that sandy soils have higher hydraulic conductivity (an average of 1.2 cm/hour) compared to clay soils (0.15 cm/hour). In addition, a survey of 100 farmers indicated that more efficient irrigation practices were applied by those who understood their soil characteristics. Regression analysis showed that 67% of the variation in irrigation management efficiency can be explained by soil hydraulic conductivity. These findings highlight the importance of understanding hydraulic conductivity to improve irrigation management practices and agricultural productivity in dryland areas.
Co-Authors Halawa, Lola Sri Wahyuni Ndruru, Julvan