PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT
Open-pit mining activities disturb the topsoil and reduce vegetation density, leading to an increased erosion rate. This phenomenon can affect the quality of mine water due to the release of soil particles carried by runoff during rain events. It is crucial to predict the erosion rate and runoff...
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id-itb.:846182024-08-16T10:23:48ZPREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT Adiyatma Afrizal, Arya Teknik saniter dan perkotaan; teknik perlindungan lingkungan Indonesia Final Project Mine water, RUSLE-SDR, soil erosion, total suspended solids (TSS) INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/84618 Open-pit mining activities disturb the topsoil and reduce vegetation density, leading to an increased erosion rate. This phenomenon can affect the quality of mine water due to the release of soil particles carried by runoff during rain events. It is crucial to predict the erosion rate and runoff volume for the planning and evaluation of mine water management and treatment. The RUSLE-SDR method is utilized to predict the erosion rate and sediment yield at the catchment area outlet. The obtained erosion rates range from 319.12 tons/year to 1995.94 tons/year. The primary influence on the erosion rate in the study area is topographical conditions, as analyzed through sensitivity testing, with sensitivity percentages for the LS and P factors being 41.67% and 41.18%, respectively. Additionally, the erosion rate contributes to and correlates with TSS and Cr6+ concentrations, with average determination coefficients (R2 ) of 0.173 and 0.716, respectively. The low determination coefficient values are attributed to the fact that TSS measurements are more representative when using load calculations rather than concentration, demonstrated by the increase in R 2 value from TSS load to sediment yield to 0.379. This study is useful for determining appropriate erosion management strategies to reduce the burden on mine water treatment systems and promote sustainable mine water management. text |
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Teknik saniter dan perkotaan; teknik perlindungan lingkungan |
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Teknik saniter dan perkotaan; teknik perlindungan lingkungan Adiyatma Afrizal, Arya PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT |
| description |
Open-pit mining activities disturb the topsoil and reduce vegetation density, leading
to an increased erosion rate. This phenomenon can affect the quality of mine water
due to the release of soil particles carried by runoff during rain events. It is crucial
to predict the erosion rate and runoff volume for the planning and evaluation of
mine water management and treatment. The RUSLE-SDR method is utilized to
predict the erosion rate and sediment yield at the catchment area outlet. The
obtained erosion rates range from 319.12 tons/year to 1995.94 tons/year. The
primary influence on the erosion rate in the study area is topographical conditions,
as analyzed through sensitivity testing, with sensitivity percentages for the LS and
P factors being 41.67% and 41.18%, respectively. Additionally, the erosion rate
contributes to and correlates with TSS and Cr6+ concentrations, with average
determination coefficients (R2
) of 0.173 and 0.716, respectively. The low
determination coefficient values are attributed to the fact that TSS measurements
are more representative when using load calculations rather than concentration,
demonstrated by the increase in R
2
value from TSS load to sediment yield to 0.379.
This study is useful for determining appropriate erosion management strategies to
reduce the burden on mine water treatment systems and promote sustainable mine
water management. |
| format |
Final Project |
| author |
Adiyatma Afrizal, Arya |
| author_facet |
Adiyatma Afrizal, Arya |
| author_sort |
Adiyatma Afrizal, Arya |
| title |
PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT |
| title_short |
PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT |
| title_full |
PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT |
| title_fullStr |
PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT |
| title_full_unstemmed |
PREDICTION OF SOIL EROSION RATE AND WATER QUALITY THROUGH GIS REMOTE SENSING TO SUPPORT NICKEL MINING ENVIRONMENTAL MANAGEMENT |
| title_sort |
prediction of soil erosion rate and water quality through gis remote sensing to support nickel mining environmental management |
| url |
https://digilib.itb.ac.id/gdl/view/84618 |
| _version_ |
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