Open Access
Spatial-Temporal Trend Analysis of Rainfall Erosivity and Erosivity Density of Tropical Area in Air Bengkulu Watershed, Indonesia
Author(s) -
Supriyono Supriyono,
Sugeng Utaya,
Didik Taryana,
Budi Handoyo
Publication year - 2021
Publication title -
quaestiones geographicae
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.356
H-Index - 18
eISSN - 2081-6383
pISSN - 2082-2103
DOI - 10.2478/quageo-2021-0028
Subject(s) - watershed , environmental science , precipitation , spatial distribution , hydrology (agriculture) , erosion , physical geography , geography , climatology , meteorology , remote sensing , geology , paleontology , geotechnical engineering , machine learning , computer science
There have been many studies on rainfall erosivity and erosivity density (ED). However, it was not widely developed in Indonesia as a tropical country and has unique precipitation patterns. They are indicators for assessing the potential risk of soil erosion. The Air Bengkulu Watershed is undergoing severe land degradation due to soil erosion. This study aimed to analyze spatial-temporal in rainfall erosivity and ED based on monthly rainfall data (mm). The data used consisted of 19 weather stations during the period 2006–2020 and which are sparsely distributed over the watershed. The analysis was done by using Arnold's equation. Then, the trend was tested using parametric and non-parametric statistics, and analysed with linear regression equation, and Spearman's Rho and Mann Kendall's tests. The spatial distribution of both algorithms was analysed using the inverse distance weighted (IDW) method based on the geographic information system (GIS). Unlike previous research findings, The long-term average monthly rainfall erosivity and ED revealed a general increase and decreasing trend, whereas it was found to be non-significant when both indices were observed. However, these results indicate a range from 840.94 MJ · mm −1 · ha −1 · h −1 · a −1 , 552.42 MJ · mm −1 · ha −1 · h −1 · a −1 to 472.09 MJ · mm −1 · ha −1 · h −1 · a −1 in that November month followed by December and April are the most susceptible months for soil erosion. Therefore, The upstream area of the region shows that various anthropogenic activities must be managed properly by taking into account the rainfall erosivity on the environment and that more stringent measures should be followed in soil and water conservation activities.