The present study aims to assess rainfall erosivity and erosivty density both in space and time over the Suketi River catchment of western Himalayan region in India during 1971–2015. The data used comprises of daily rainfall measurements at three rain gauge stations, which are sparsely distributed over the catchment. Rainfall erosivity was assessed by employing Wischmeier and Smith algorithms, whereas erosivity density was estimated by applying Kinnell’s algorithm. The spatial distribution of both algorithms was analyzed through Kriging method based on geographical information system. The obtained results indicate remarkable year-to-year, seasonal and monthly variations in average annual rainfall erosivity and erosivity density. Apart from this, individual cases of high and very high rainfall erosivity and erosivity density were noticed. The long-term average annual rainfall erosivity and erosivity density revealed a general decreasing trend. This decreasing trend in rainfall erosivity was found to be statistically significant at 0.05 significance level, whereas it was found to be non-significant for erosivity density. The highest values of both indices were observed in the month of July followed by August and June particularly in northern parts. These results indicate that July month followed by August and June are the most susceptible months for soil erosion over the Suketi River catchment with lower reaches (northern) being the most vulnerable one. Finally, results of this study will be valuable for farmers, agronomists and regional planners in chalking out best management practices for reducing water erosion in vulnerable areas of the catchment.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Angulo-Martínez M and Beguería S 2009 Estimating rainfall erosivity from daily precipitation records: A comparison among methods using data from the Ebro Basin (NE Spain); J. Hydrol. 379 111–121.
Angulo-Martínez M and Beguería S 2012 Trends in rainfall erosivity in NE Spain at annual, seasonal and daily scales, 1955–2006; Hydrol. Earth Syst. Sci. 16 3551–3559.
Apaydin H, Erpul G, Bayramin I and Gabriels D 2006 Evaluation of indices for characterizing the distribution and concentration of precipitation: A case for the region of south eastern Anatolia Project, Turkey; J. Hydrol. 328 726–732.
Bahadur K C K 2009 Mapping soil erosion susceptibility using remote sensing and GIS: A case of the Upper Nam Wa Watershed, Nan Province, Thailand; Environ. Geol. 57 695–705.
Ballabio C, Borrelli P, Spinoni J, Meusburger K, Michaelides S, Begueria S, Klik A, Petan S, Janecek M, Olsen P, Aalto J, Lakatos M, Rymszewicz A, Dumitrescu A, Tadic M P, Diodato N, Kostalova J, Rousseva S, Banasik K, Alewell C and Panagos P 2017 Mapping monthly rainfall erosivity in Europe; Sci. Total Environ. 579 1298–1315.
Bhardwaj P and Singh O 2018 Spatial and temporal analysis of thunderstorm and rainfall activity over India; Atmosfera 31 255–284.
Bonilla C A and Vidal K L 2011 Rainfall erosivity in central Chile; J. Hydrol. 410 126–133.
Capolongo D, Diodato N, Mannaerts C, Piccarreta M and Strobl R 2008 Analysing temporal changes in climate erosivity using a simplified rainfall erosivity model in Basilicata (southern Italy); J. Hydrol. 356 119–130.
Chauhan P, Singh N, Chauniyal D D, Ahluwalia R S and Singhal M 2017 Differential behaviour of a Lesser Himalayan watershed in extreme rainfall regimes; J. Earth Syst. Sci. 126 22.
Dabney S M, Yoder D C, Vieira D A N and Bingner R L 2011 Enhancing RUSLE to include runoff-driven phenomena; Hydrol. Process. 25 1373–1390.
Dabral P P, Baithuri N and Pandey A 2008 Soil erosion assessment in a hilly catchment of north-eastern India using USLE, GIS and remote sensing; Water Resour. Manag. 22 1783–1798.
Das B K and Haake B G 2003 Geochemistry of Rewalsar lake sediments Lesser Himalaya, India: Implications for source-area weathering, provenance and tectonic setting; Geo. Sci. J. 7 299–312.
Das B K and Kaur P 2007 Geochemistry of surface and sub-surface waters of Rewalsar Lake, Mandi district, Himachal Pradesh: Constraints on weathering and erosion; J. Geol. Soc. India 69 1020–1030.
Dash C J, Das N K and Adhikary P P 2019 Rainfall erosivity and erosivity density in Eastern Ghats highland of east India; Nat. Hazards 97 727–746.
Davison P, Hutchins M, Anthony S, Betson M, Johnson C and Lord E 2005 The relationship between potentially erosive storm energy and daily rainfall quantity in England and Wales; Sci. Total Environ. 344 15–25.
De Luis M, Gonzalez-Hidalgo J C and Longares L A 2009 Is rainfall erosivity increasing in the Mediterranean Iberian Peninsula?; Land Degrad. Dev. 21 139–144.
Diodato N and Bellocchi G 2009 Assessing and modelling changes in rainfall erosivity at different climate scales; Earth Surf. Proc. Land. 34 969–980.
Diodato N and Bellocchi G 2010 MedREM, a rainfall erosivity model for the Mediterranean region; J. Hydrol. 387 119–127.
Diodato N, Bellocchi G, Romano N and Chirico G B 2011 How the aggressiveness of rainfalls in the Mediterranean lands is enhanced by climate change?; Clim. Change 108 591–599.
Dumitrascu M, Dragota C S, Grigorescu I, Dumitrascu C and Vladut A 2017 Key pluvial parameters in assessing rainfall erosivity in the south-west development region, Romania; J. Earth Syst. Sci. 126 60.
Eltaif N I, Gharaibeh M A, Al-Zaitawi F and Alhamad M N 2010 Approximation of rainfall erosivity factors in North Jordan; Pedosphere 20 711–717.
Fiener P, Neuhaus P and Botschek J 2013 Long-term trends in rainfall erosivity-analysis of high-resolution precipitation time series (1937–2007) from Western Germany; Agr. Forest Meteorol. 171–172 115–123.
Galy A and France-Lanord C 2001 Higher erosion rates in the Himalaya: Geochemical constraints on riverine fluxes; Geology 29 23–26.
Garde R J and Kothyari U C 1987 Sediment yield estimation; J. Irrig. Power (India) 44 97–123.
Girmay G, Singh B R, Nyssen J and Borrosen T 2009 Runoff and sediment-associated nutrient losses under different land uses in Tigray, Northern Ethiopia; J. Hydrol. 376 70–80.
Gu C, Mu X, Gao P, Zhao G, Sun W and Yu Q 2019 Rainfall erosivity and sediment load over the Poyang Lake Basin under variable climate and human activities since the 1960s; Theor. Appl. Climatol. 136 15–30.
Gu Z J, Duan X W, Liu B, Hu J M and He J N 2016 The spatial distribution and temporal variation of rainfall erosivity in the Yunnan Plateau, southwest China: 1960–2012; Catena 145 291–300.
Hoyos N, Waylen P R and Álvaro J 2005 Seasonal and spatial patterns of erosivity in a tropical watershed of the Colombian Andes; J. Hydrol. 314 177–191.
Huang J, Zhang F, Hu Z and Chen S 2019 Climatology of rainfall erosivity during 1961–2012 in Jiangsu Province, southeast China; Nat. Hazards 98 1155–1168.
Jain S K, Kumar S and Varghese J 2001 Estimation of soil erosion for a Himalayan watershed using GIS technique; Water Resour. Manag. 15 41–54.
Jain S K, Singh P, Saraf A K and Seth S M 2003 Estimation of sediment yield for a rain, snow and glacier fed river in the western Himalayan region; Water Resour. Manag. 17 377–393.
Jebari S, Berndtsson R, Bahri A and Boufaroua M 2008 Exceptional rainfall characteristics related to erosion risk in semi-arid Tunisia; Open Hydrol. J. 1 25–33.
Jebari S, Berndtsson R, Olsson J and Bahri A 2012 Soil erosion estimation based on rainfall disaggregation; J. Hydrol. 436–437 102–110.
Katz R W, Brush G S and Parlange M B 2005 Statistics of extremes: Modelling ecological disturbances; Ecology 86 1124–1134.
Khan M Y A, Daityari S and Chakrapani G J 2016 Factors responsible for temporal and spatial variations in water and sediment discharge in Ramganga River, Ganga Basin, India; Environ. Earth Sci. 75 283.
Kinnell P I A 2010 Event soil loss, runoff and the universal soil loss equation family of models: A review; J. Hydrol. 385 384–397.
Klik A, Haas K, Dvorackova A and Fuller I C 2015 Spatial and temporal distribution of rainfall erosivity in New Zealand; Soil Res. 53 815–825.
Kumar D and Singh O 2018 Flood producing rainstorms over the Markanda catchment over north-west India: A hydrological study; Punjab Geogr. 14 33–51.
Kumar V and Jain S K 2010 Trends in seasonal and annual rainfall and rainy days in Kashmir valley in the last century; Quatern. Int. 212 64–69.
Laceby J P, Chartin C, Evrard O, Onda Y, Garcia-Sanchez L and Cerdan O 2016 Rainfall erosivity in catchments contaminated with fallout from the Fukushima Daiichi nuclear power plant accident; Hydrol. Earth Syst. Sci. 20 2467–2482.
Lai C, Chen X, Wang Z, Wu X, Zhao S, Wu X and Bai W 2016 Spatio-temporal variation in rainfall erosivity during 1960–2012 in the Pearl River Basin, China; Catena 137 382–391.
Lanckriet S, Asfaha T, Frankl A, Zenebe A and Nyssen J 2016 Sediment in alluvial and lacustrine debris fans as an indicator for land degradation around Lake Ashenge (Ethiopia); Land Degrad. Dev. 2 258–269.
Lee J H and Heo J H 2011 Evaluation of estimation methods for rainfall erosivity based on annual precipitation in Korea; J. Hydrol. 409 30–48.
Li X and Ye X 2018 Variability of rainfall erosivity and erosivity density in the Ganjiang River catchment, China: Characteristics and influences of climate change; Atmosphere 9 48.
Lim K J, Sagong M, Engel B A, Tang Z, Choi J and Kim K 2005 GIS-based sediment assessment tool; Catena 64 61–80.
Ma X, He Y, Xu J, van Noordwijk M and Lu X 2014 Spatial and temporal variation in rainfall erosivity in a Himalayan watershed; Catena 121 248–259.
Meddi M, Toumi S and Assani A A 2016 Spatial and temporal variability of the rainfall erosivity factor in northern Algeria; Arab. J. Geosci. 9 282.
Meshesha T D, Tsunekawa A, Tsubo M, Haregeweyn N and Adgo E 2015 Evaluating spatial and temporal variations of rainfall erosivity: Case of central rift valley of Ethiopia; Theor. Appl. Climatol. 119 515–522.
Mikhailova E A, Bryant R B, Schwager S J and Smith S D 1997 Predicting rainfall erosivity in Honduras; J. Soil Sci. Soc. Am. 61 273–279.
Mondal A, Khare D and Kundu S 2016 A comparative study of soil erosion modeling by MMF, USLE and RUSLE; Geocarto Int. 33 89–103.
Mukundan R, Pradhanang S M, Schneiderman E M, Pierson D C, Anandhi A, Zion M S, Matonse A H, Lounsbury D G and Steenhuis T S 2013 Suspended sediment source areas and future climate impact on soil erosion and sediment yield in a New York City water supply watershed, USA; Geomorphology 183 110–119.
Munka C, Cruz G and Caffera R M 2007 Long term variation in rainfall erosivity in Uruguay: A preliminary Fournier approach; GeoJournal 70 257–262.
Mutua B M, Klik A and Loiskandl W 2006 Modeling soil erosion and sediment yield at a catchment scale: The case of Masinga catchment, Kenya; Land Degrad. Dev. 17 557–570.
Nearing M A, Jetten V, Baffaut C, Cerdan O, Couturier A, Hernandez M, Le Bissonnais Y, Nichols M H, Nunes J P, Renschler C S, Souchère V and van Oost K 2005 Modeling response of soil erosion and runoff to changes in precipitation and cover; Catena 61 131–154.
Ninyerola M, Pons X and Roure J M 2007 Monthly precipitation mapping of the Iberian Peninsula using spatial interpolation tools implemented in a geographic information system; Theor. Appl. Climatol. 89 195–209.
Oliveira P T S, Wendland E and Nearing M A 2012 Rainfall erosivity in Brazil: A review; Catena 100 139–147.
Panagos P, Ballabio C, Borrelli P, Meusburger K, Klik A, Rousseva S, Percec Tadic M, Michaelides S, Hrabalikova M, Olsen P, Aalto J, Lakatos M, Rymszewicz A, Dumitrescu A, Begueria S and Alewell C 2015 Rainfall erosivity in Europe; Sci. Total Environ. 511 801–814.
Panagos P, Ballabio C, Borrelli P and Meusburger K 2016 Spatio-temporal analysis of rainfall erosivity and erosivity density in Greece; Catena 137 161–172.
Pheerawat P and Udmale P 2017 Impacts of climate change on rainfall erosivity in the Huai Luang Watershed, Thailand; Atmosphere 8 143.
Pimental D and Kuonang N 1998 Ecology of soil erosion in ecosystems; Ecosystems 1 416–426.
Pimentel P 2006 Soil erosion: A food and environmental threat; Environ. Dev. Sustain. 8 119–137.
Pophare A M and Balpande U S 2014 Morphometric analysis of Suketi River basin, Himachal Himalaya, India; J. Earth Syst. Sci. 123 1501–1515.
Pradeep G S, Ninu Krishnan M V and Vijith H 2015 Identification of critical soil erosion prone areas and annual average soil loss in an upland agricultural watershed of Western Ghats, using analytical hierarchy (AHP) and RUSLE techniques; Arab. J. Geosci. 8 3697–3711.
Prasannakumar V, Vijith H, Abinod S and Geetha N 2012 Estimation of soil erosion risk within a small mountainous sub-watershed in Kerala, India, using Universal Soil Loss Equation (RUSLE) and geo-information technology; Geosci. Front. 3 209–215.
Qin W, Guo Q K, Zuo C Q, Shan Z J, Ma L and Sun G 2016 Spatial distribution and temporal trends of rainfall erosivity in mainland China for 1951–2010; Catena 147 177–186.
Quazi N Q and Rai S P 2018 Spatio-temporal dynamics of sediment transport in Lesser Himalayan catchments, India; Hydrol. Sci. J. 63 50–62.
Ramos M C and Duran B 2014 Assessment of rainfall erosivity and its spatial and temporal variabilities: Case study of the Penedes area (NE Spain); Catena 123 135–147.
Rawat P K, Tiwari P C and Pant C C 2012 Geo-hydrological database modeling for integrated multiple hazards and risk assessment in Lesser Himalaya: A GIS based case study; Nat. Hazards 62 1233–1260.
Renard K G, Foster G R, Weesies G A, McCool D K and Yoder D C 1997 Predicting Soil Erosion by Water: A Guide to Conservation Planning with the Revised Universal Soil Loss Equation (RUSLE); Washington DC, United State Department of Agriculture: USA, Agriculture Handbook, No. 703.
Routschek A, Schmidt J, Enke W and Deutschlaen T 2014 Future soil erosion risk – results of GIS-based model simulations for a catchment in Saxony/Germany; Geomorphology 206 299–306.
Sanchez-Moreno J F, Mannaerts C M and Jetten V 2014 Rainfall erosivity mapping for Santiago Island, Cape Verde; Geoderma 217 74–82.
Sepaskhah A R and Sarkhosh P 2005 Estimating storm erosion index in southern region of IR Iran; Iran J. Sci. Technol. Trans. 31(B2) 237–248.
Sharma P and Rai S C 2004 Stream flow, sediment and carbon transport from a Himalayan watershed; J. Hydrol. 289 190–203.
Shi Z H, Cai C F, Ding S W, Wang T W and Chow T L 2004 Soil conservation planning at the small watershed level using RUSLE with GIS; Catena 55 33–48.
Shi Z H, Ai L, Fang N F and Zhu H D 2012 Modeling the impacts of integrated small watershed management on soil erosion and sediment delivery: A case study in the Three Gorges Area, China; J. Hydrol. 438–439 156–167.
Shiono T, Ogawa S, Miyamoto T and Kameyama K 2013 Expected impacts of climate change on rainfall erosivity of farmlands in Japan; Ecol. Eng. 61 678–689.
Singh O and Bhardwaj P 2019 Spatial and temporal variations in the frequency of thunderstorm days over India; Weather 74 138–144.
Singh O, Sharma M C, Sarangi A and Singh P 2008 Spatial and temporal variability of sediment and dissolved loads from two alpine watersheds of the Lesser Himalayas; Catena 76 27–35.
Singh O, Singh P, Sarangi A, Sharma M C and Kumar S 2010 Anthropogenic impacts on the sediment flux in two alpine watersheds of the Lesser Himalayas; Curr. Sci. 99 608–618.
Singh O 2007 Geomorphological evaluation, soil erosion assessment and management in Himalayan watershed, Himachal Pradesh; Ph.D. thesis submitted to Jawaharlal Nehru University, New Delhi.
Singh O 2011 Rainfall, runoff and sediment transport from a forested Lesser Himalayan Watershed in Himachal Pradesh; J. Indian Geophys.Uni. 15 207–220.
Singh P, Jain S K and Kumar N 1997 Estimation of snow and glacier-melt contribution to the Chenab River, Western Himalaya; Mt. Res. Dev. 17 49–56.
Singh P, Ramasastri K S and Kumar N 1995 Topographical influence on precipitation distribution in different ranges of western Himalayas; Nord. Hydrol. 26 259–284.
Sonneveld B and Nearing M 2003 A nonparametric/parametric analysis of the universal soil loss equation; Catena 52 9–21.
Tamene L, Abegaz A, Aynekulu E, Woldearegay K and Vlek P L 2011 Estimating sediment yield risk of reservoirs in northern Ethiopia using expert knowledge and semi-quantitative approaches; Lakes & Reserv. 16 293–305.
Tiwari H, Rai P D, Kumar D and Sharma N 2016 Rainfall erosivity factor for India using modified Fournier index; J. Appl. Water Eng. Res. 4 83–91.
Vaidyanandan R and Ramakrishnan M 2008 Geology of India; Geol. Soc. Ind. Memoir 2 615–661.
Vijith H and Dodge-Wan D 2019 Spatial and statistical trend characteristics of rainfall erosivity (R) in upper catchment of Baram River, Borneo; Environ. Monit. Assess. 191 494.
Vrieling A, Sterk G and De Jong S M 2010 Satellite-based estimation of rainfall erosivity for Africa; J. Hydrol. 395 235–241.
Winchell M F, Jackson S H, Wadley A M and Srinivasan R 2008 Extension and validation of a geographic information system-based method for calculating the Revised Universal Soil Loss Equation length-slope factor for erosion risk assessments in large watersheds; J. Soil Water Conserv. 63 105–111.
Wischmeier W H and Smith D D 1978 Predicting rainfall erosion losses: A guide to conservation planning; Washington DC, United States Department of Agriculture: USA, Agriculture Handbook, No. 537, 58p.
Yang D, Kanae S, Oki T, Koike T and Musiake K 2003 Global potential soil erosion with reference to land use and climate changes; Hydrol. Process. 17 2913–2928.
Yang F and Lu C 2015 Spatio-temporal variation and trends in rainfall erosivity in China’s dryland region during 1961–2012; Catena 133 362–372.
Zhang G H, Nearing M and Liu B 2005 Potential effects of climate change on rainfall erosivity in the Yellow River basin of China; Trans. ASAE 48 511–517.
Acknowledgements
We express our gratitude to India Meteorological Department, Pune and Bhakra Beas Management Board, Sundarnagar for providing the data used in this study. We also thank the anonymous reviewer for critical and constructive comments that led to a constructive improvement in the manuscript.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by Rajib Maity
Rights and permissions
About this article
Cite this article
Singh, J., Singh, O. Assessing rainfall erosivity and erosivity density over a western Himalayan catchment, India. J Earth Syst Sci 129, 97 (2020). https://doi.org/10.1007/s12040-020-1362-8
Received:
Revised:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12040-020-1362-8