GIS APPLICATION IN SEDIMENT DELIVERY ESTIMATION: COMPARISON OF TWO MODEL APPROACHES

KAJIAN EROSI LAHAN DI KAWASAN AIR STRIP RUNWAY 2600 BANDARA DEPATI AMIR (PGK) BERDASARKAN TATA GUNA LAHAN MASTERPLAN ULTIMATE

FROPIL (Forum Profesional Teknik Sipil) ◽

10.33019/fropil.v7i2.1627 ◽

2019 ◽

Vol 7 (2) ◽

pp. 100-111

Author(s):

Miskar Maini ◽

Junita Eka Susanti

Keyword(s):

Sediment Yield ◽

Soil Loss ◽

Universal Soil Loss Equation ◽

Delivery Ratio ◽

Sediment Delivery Ratio ◽

Sediment Delivery ◽

Soil Loss Equation

Standar permintaan engineering pesawat agar desain bangunan infrastruktur di area Air Strip Runway 2600 yang ada dapat mempunyai fungsi lain. Sedangkan kondisi lain sangat menentukan keselamatan karena lahan di sekitar Air Strip Runway 2600 Bandara Depati Amir (PGK) jika tidak ditutupi vegetasi seperti rumput, kondisi lain lahan yang belum ditutupi vegetasi di sekitar Air Strip Runway 2600 berpotensi akan mengalami erosi lahan, kemudian hasil erosi lahan ini akan terbawa oleh aliran air sehingga akan masuk ke saluran drainase yang akan menyebabkan sedimentasi pada saluran drainase tersebut, akhirnya akan berkurang efektifitas kinerja saluran drainase tersebut. Metode yang digunakan untuk memprediksi laju rata-rata erosi di area Air Strip Runway 2600 dengan memperhitungkan faktor erosivitas hujan, erodibilitas tanah, kemiringan lereng atau panjang lereng, pengelolaan tanaman dan konservasi tanah, yang masing masing tata guna lahan tersebut mengacu pada Masterplan Ultimate Bandara Depati Amir (PGK). Perhitungan dilakukan menggunakan persamaan USLE (Universal Soil Loss Equation) yang dikembangkan oleh Wischmeier dan Smith (1965, 1978), kemudian Sediment Delivery Ratio (SDR) dan Sediment Yield.Hasil penelitian ini, prediksi laju erosi permukaan pada area Air Strip Runway 2600 Bandara Depati Amir (PGK) tahun pertama yang mencapai 5,60 mm/tahun atau 100,76 Ton/Ha/tahun, laju erosi tahun kedua mencapai 3,38 mm/tahun atau 60,84 Ton/Ha/tahun dapat diklasifikasikan ke dalam kelas bahaya erosi sedang (kelas III) dan nilai SDR adalah sebesar 56,3%, nilai sediment yield (SR) pada tahun pertama sebesar 5.887,59 Ton/Tahun, pada tahun kedua ketika rumput pada area Air Strip telah tumbuh dengan sempurna terjadi penurunan hasil sediment yield yaitu nilai SR sebesar 3.554,85 Ton/Tahun.

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Web Based GIS Application using Open Source Software for Sharing Geospatial Data

International Journal of Advanced Remote Sensing and GIS ◽

10.23953/cloud.ijarsg.109 ◽

2015 ◽

Vol 4 (1) ◽

pp. 1224-1228 ◽

Cited By ~ 9

Author(s):

Debasish Chakraborty ◽

◽

Debanjan Sarkar ◽

Shubham Agarwal ◽

Dibyendu Dutta ◽

...

Keyword(s):

Open Source ◽

Open Source Software ◽

Geospatial Data ◽

Web Based ◽

Gis Application

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Using GIS Application to Control the Recording of Traffic Accidents in the Large AL-Najaf City

10.31663/tqujes.9.1.246(2018) ◽

2018 ◽

Vol 9 (1) ◽

pp. 28-33

Author(s):

Ahmed Y. Abd Abas ◽

◽

Hamid A. Al-Jameel ◽

Keyword(s):

Traffic Accidents ◽

Gis Application

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Influence de la végétation forestière sur la formation de dépôts sédimentaires en terrains marneux/ Influence of forest vegetation on sediment delivery in marly terrain

Géomorphologie relief processus environnement ◽

10.3406/morfo.2002.1130 ◽

2002 ◽

Vol 8 (1) ◽

pp. 85-92 ◽

Cited By ~ 2

Author(s):

Freddy Rey ◽

Yannick Robert ◽

Olivier Vento

Keyword(s):

Forest Vegetation ◽

Sediment Delivery

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Amplified Impact of Climate Change on Fine-Sediment Delivery to a Subsiding Coast, Humboldt Bay, California

Estuaries and Coasts ◽

10.1007/s12237-021-00938-x ◽

2021 ◽

Author(s):

Jennifer A. Curtis ◽

Lorraine E. Flint ◽

Michelle A. Stern ◽

Jack Lewis ◽

Randy D. Klein

Keyword(s):

Climate Change ◽

Climate Change Impacts ◽

Baseline Period ◽

Climate Impacts ◽

Sediment Supply ◽

Balance Model ◽

Climate Projections ◽

Sediment Delivery ◽

Beneficial Reuse ◽

Coastal Margin

AbstractIn Humboldt Bay, tectonic subsidence exacerbates sea-level rise (SLR). To build surface elevations and to keep pace with SLR, the sediment demand created by subsidence and SLR must be balanced by an adequate sediment supply. This study used an ensemble of plausible future scenarios to predict potential climate change impacts on suspended-sediment discharge (Qss) from fluvial sources. Streamflow was simulated using a deterministic water-balance model, and Qss was computed using statistical sediment-transport models. Changes relative to a baseline period (1981–2010) were used to assess climate impacts. For local basins that discharge directly to the bay, the ensemble means projected increases in Qss of 27% for the mid-century (2040–2069) and 58% for the end-of-century (2070–2099). For the Eel River, a regional sediment source that discharges sediment-laden plumes to the coastal margin, the ensemble means projected increases in Qss of 53% for the mid-century and 99% for the end-of-century. Climate projections of increased precipitation and streamflow produced amplified increases in the regional sediment supply that may partially or wholly mitigate sediment demand caused by the combined effects of subsidence and SLR. This finding has important implications for coastal resiliency. Coastal regions with an increasing sediment supply may be more resilient to SLR. In a broader context, an increasing sediment supply from fluvial sources has global relevance for communities threatened by SLR that are increasingly building resiliency to SLR using sediment-based solutions that include regional sediment management, beneficial reuse strategies, and marsh restoration.

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What Role do Hurricanes Play in Sediment Delivery to Subsiding River Deltas?

Scientific Reports ◽

10.1038/srep17582 ◽

2015 ◽

Vol 5 (1) ◽

Cited By ~ 32

Author(s):

James E. Smith ◽

Samuel J. Bentley ◽

Gregg A. Snedden ◽

Crawford White

Keyword(s):

Sediment Delivery ◽

River Deltas

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Methods for assessing mine site rehabilitation design for erosion impact

Soil Research ◽

10.1071/sr99036 ◽

2000 ◽

Vol 38 (2) ◽

pp. 231 ◽

Cited By ~ 44

Author(s):

Kenneth G. Evans

Keyword(s):

Water Quality ◽

Prediction Models ◽

Sediment Delivery ◽

Mine Site ◽

3 Dimensional ◽

Evolution Simulation ◽

Erosion Prediction ◽

Simulation Techniques ◽

Subsequent Degradation ◽

Site Rehabilitation

Erosion of rehabilitated mines may result in landform instability, which in turn may result in exposure of encapsulated contaminants, elevated sediment delivery at catchment outlets, and subsequent degradation of downstream water quality. Rehabilitation design can be assessed using erosion and hydrology models calibrated to mine site conditions. Incision rates in containment structures can be quantified using 3-dimensional landform evolution simulation techniques. Sediment delivery at catchment outlets for various landform amelioration techniques can be predicted using process-based and empirical erosion-prediction models and sediment delivery ratios. The predicted sediment delivery can be used to estimate an average annual stream sediment load that can, in turn, be used to assess water quality impacts. Application of these techniques is demonstrated through a case study applied to a proposed rehabilitation design option for the Energy Resources of Australia Ltd (ERA) Ranger Mine in the Northern Territory of Australia.

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