Understanding the hydrometeorological characteristics and relationships in the semiarid region of Maharashtra (western India): implications for water management

Todmal, Rahul S.

doi:10.1007/s11600-019-00386-z

Artykuł - szczegóły

Tytuł artykułu

Understanding the hydrometeorological characteristics and relationships in the semiarid region of Maharashtra (western India): implications for water management

Autorzy

Todmal Rahul S.

Wybrane pełne teksty z tego czasopisma

https://www.springer.com/journal/11600

Identyfikatory

DOI

10.1007/s11600-019-00386-z

Warianty tytułu

Języki publikacji

Abstrakty

In spite of enormous investment for water harvesting in Maharashtra, the issue of water defciency persist. Therefore, with the proper understanding of recent (1975–2014) hydrometeorological characteristics in the semiarid region of Maharashtra, the study endeavored to suggest management strategies to optimize the water resources. To understand the inherent characteristics of rainfall, runof, dam storages and groundwater, statistical techniques including descriptive statistics, correlation, regression and Student’s t test were applied. The monsoon rainfall has notable control over the water resources. As the study region characterized by signifcantly low water availability with high variability which is accountable for higher frequency and intensity of drought, it should be prioritized while formulating a judicial plan for water management. The major rivers of Maharashtra follow the unimodal pattern of rainfall. Whereas the study area displays a peculiar character of the bimodal and unimodal regimes of rainfall and runof, respectively, this highlights the role of hydrological losses. However, it also indicates that there is a wide scope to harvest surface water, particularly during the months of September and October. Interestingly, the inter-annual variability in the extreme rainfall and runof events over the study basins is observed to be higher in India. Most of the water (>50%) received during fashy rainfall events drains out through fashy discharges. The impoundment of this water and modifed irrigation schedule by considering the recent hydrological characteristics may diminish the variability and defciency of surface and subsurface water. Furthermore, for the precise forecast of water availability in the study area, ENSO condition needs to incorporate, as it has a signifcant connection with rainfall and runof.

Słowa kluczowe

Maharashtra semi-arid region rainfall runoff groundwater ENSO water management

Maharasztra region półpustynny opad deszczu spływ wody gruntowe ENSO gospodarka wodna

Wydawca

Instytut Geofizyki PAN
Springer

Czasopismo

Acta Geophysica

Rocznik

2020

Tom

Vol. 68, no. 1

Strony

189--206

Opis fizyczny

Bibliogr. 46 poz.

Twórcy

autor

Todmal Rahul S.

todmalrahul@gmail.com

Department of Geography, Vidya Pratishthan’s ASC College Baramati, Pune 413 133, India

Bibliografia

1. Biggs TW, Gaur A, Scott CA, Thenkabail P, Parthasaradhi GR, Gumma MK, Acharya S, Turral H (2007) Closing of the Krishna Basin: irrigation, streamflow depletion and macroscale hydrology, Colombo, Sri Lanka. International Water Management Institute (IWMI) Research Report 111, http://re.indiaenvironmentportal.org.in/files/RR111.pdf. Cited 10 July 2018
2. Biswas BC, Nayar PS (1984) Quantification of drought and crop potential. Mausam 35:281–286
3. Chowdhury A, Abhyankar VP (1984) A Markov chain model for the probability of drought incidence in India. Mausam 35:403–405
4. Deodhar L (2000) Flood hydrology and geomorphic effectiveness in the Western Upland Maharashtra. Unpublished Ph. D thesis submitted to the University of Pune
5. Deosthali V (2002) Dry farming in Maharashtra. In: Diddee J, Jog SR, Kale VS, Datye VS (eds) Geography of Maharashtra. Rawat Publications, Jaipur, pp 180–198
6. Dikshit J (1983) Identification of drought prone areas and prediction of crop expectation in Maharashtra. Geogr. Rev. India 42:48–81
7. Gadgil AS (2002) Rainfall characteristics of Maharashtra. In: Diddee J, Jog SR, Kale VS, Datye VS (eds) Geography of Maharashtra. Rawat Publications, Jaipur, pp 89–102
8. Gokhale R, Sohani M (2015) Data driven behavioral characterization of dry-season groundwater-level variation in Maharashtra, India. J Earth Syst Sci 124:767–781
9. GoM (1999) Maharashtra Water and Irrigation Commission Report. Government of Maharashtra, Water and Land Management Institute (WALMI), Aurangabad, p 1
10. GoM (2014) Irrigation (Chapter IV). In: Maharashtra State Development Report. http://planningcommission.nic.in/plans/stateplan/sdr_maha/ch-4-14-02-05.pdf. Cited 12 July 2018
11. Gore PG, Sinha Ray KC (2002) Variability of drought incidence over districts of Maharashtra. Mausam 53:533–538
12. Guhathakurta P, Saji E (2013) Detecting changes in rainfall pattern and seasonality index vis-`a-vis increasing water scarcity in Maharashtra. J Earth Syst Sci 122:639–649. https://doi.org/10.1007/s12040-013-0294-y
13. IMD (2005) Climate of Maharashtra. India Meteorological Department, Pune
14. IPCC (2013) Climate Change 2013: the physical science basis. In: Stocker TF, Qin D, Plattner GK, Tignor M, Allen SK, Boschung J, Nauels A, Xia Y, Bex V, Midgley PM (eds) Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
15. Kalamkar SS (2011) Agricultural growth and productivity in Maharashtra: trends and determinants. Allied Publishers Pvt. Ltd., New Delhi, pp 1–218
16. Kale VS (2002) Fluvial geomorphology of Indian rivers—an overview. Prog Phys Geogr 26:400–433
17. Kale VS (2003) Geomorphic effects of monsoon floods on Indian Rivers. Nat Hazards 28:65–84
18. Kale VS (2005) Fluvial hydrology and geomorphology of monsoon-dominated Indian ivers. Rev Bras Geomorfol 6:63–73
19. Kale VS (2012) On the link between extreme floods and excess monsoon epochs in South Asia. Clim Dyn 39:1107–1122
20. Kale VS, Todmal RS, Kulkarni P (2014) The monsoon-fed rivers of Maharashtra: their hydro-geomorphic characteristics and management. Spec Publ J Geol Soc India 3:26–34
21. Khot V, Sabanna T (2018) Water resources and cropping pattern. Lulu Publication, Morrisville, pp 1–227
22. Kumar KK, Rajagopalan B, Cane MA (1999) On the weakening relationship between the Indian monsoon and ENSO. Science 284:2156–2159
23. Mehta AK, Satpathy T (2011) Escaping poverty: the Ralegan Siddhi Case. Indian Institute of Public Administration, New Delhi,CPRC-IIPA Working Paper No.38. p. 53
24. Milly PCD, Betancourt J, Falkenmark M, Hirsch RM, Kundzewicz ZW, Lettenmaier DP, Stouffer RJ (2008) Stationarity is dead: whither water management? Science 319:573–574
25. Mishra S (2006) Farmers’ suicides in Maharashtra. Econ Polit Wkly 41:1538–1545
26. Muthreja KN (1986) Applied hydrology. Tata McGraw Hill, New Delhi, pp 148–163
27. NOAA (National Oceanic and Atmospheric Administration). website: http://archive.stats.govt.nz/browse_for_stats/environment/environmental-reporting-series/environmental-indicators/Home/Atmosphere-and-climate/el-nino-oscillations/el-nino-oscillations-archived-19-10-2017.aspx. Accessed 11 May 2018
28. Pahl-Wostl C (2007) Transitions towards adaptive management of water facing climate and global change. Water Resour Manag 21:49–62
29. Pathak MD, Gadkari AD, Ghate SD (1999) Groundwater development in Maharashtra State, India. In: 25th WEDC conference on “Integrated development for water supply and sanitation”, Addis Ababa Ethiopia in 1999
30. Pavelic P, Patankar U, Acharya S, Jella K, Gumma MK (2012) Role of groundwater in buffering irrigation production against climate variability at the basin scale in southwest India. Agr Water Manag 103:78–87
31. Purandare P (2013) Water governance and droughts in Marathwada. Econ Polit Wkly 48:18–21
32. Samal DR, Gedam SS (2012) Impact of land use dynamics on streamflow: a case study in upper Bhima basin, Maharashtra, India. In: 2012 IEEE International on geoscience and remote sensing symposium (IGARSS). 7165–7168. https://doi.org/10.1109/igarss.2012.6352010
33. Sanyal J, Lu XX (2004) Application of remote sensing in flood management with special reference to monsoon Asia: a review. Nat Hazards 33:283–301
34. Sethi LN, Panda SN, Nayak MK (2006) Optimal crop planning and water resources allocation in a coastal groundwater basin, Orissa, India. Agr Water Manag 83:209–220
35. Shewale MP, Kumar S (2005) Climatological features of drought incidences in India. Meteorological Monograph (Climatology 21/2005), National Climate Centre, India Meteorological Department. http://www.imdpune.gov.in/Clim_Pred_LRF_New/Reports/NCCResearchReports/
36. Subramanian V (2004) Water quality in south Asia. Asian J Water Environ Pollut 1:41–54
37. Suresh D (2015) Farmers Suicides in Maharashtra (October 7, 2015). Available at SSRN: https://ssrn.com/abstract=2670554 or http://dx.doi.org/10.2139/ssrn.2670554
38. Surinaidu L, Bacon CGD, Pavelic P (2013) Agricultural groundwater management in the Upper Bhima Basin, India: current status and future scenarios. Hydrol Earth Syst Sci 17:507–517
39. TERI (2012) Climate change in Maharashtra: A pioneering adaptation strategy. The Energy and Resource Institute, New Delhi. Available at: http://www.metoffice.gov.uk/media/pdf/c/a/GOM_brochure_for_web.pdf Accessed 2 Sept 2014
40. TERI (2014) Assessing Climate Change Vulnerability and Adaptation Strategies for Maharashtra: Maharashtra State Adaptation Action Plan on Climate Change (MSAAPC). The Energy and Resources Institute, New Delhi, 302. http://www.moef.gov.in/sites/default/files/Maharashtra%20Climate%20Change%20Final%20Report.pdf
41. Todmal RS (2019) Droughts and agriculture in the semi-arid region of Maharashtra, western India. Weather Clim Soc. https://doi.org/10.1175/WCAS-D-18-0131.1
42. Todmal RS, Kale VS (2016) Monsoon rainfall variability and rainfed agriculture in the water-scarce Karha Basin, western India. Mausam 67:927–938
43. Todmal RS, Korade MS, Dhorde AG, Zolekar RB (2018) Hydro-meteorological and agricultural trends in water-scarce Karha Basin, western India: current and future scenario. Arab J Geosci. https://doi.org/10.1007/s12517-018-3594-3
44. Udmale PD, Ichikawa Y, Kiem AS, Panda SN (2014) Drought impacts and adaptation strategies for agriculture and rural livelihood in Maharashtra State of India. Open Agric J 8:41–47
45. Wang LZ, Fang L, Hipel KW (2003) Water resources allocation: a cooperative game theoretic approach. J Environ Inform 2:11–22
46. World Bank (2008) Climate change impacts in drought and flood affected areas: case studies in India. Available at: http://www.preventionweb. net/files/12563_WBindia.pdf. Accessed 1 May 2014

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021)

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-964a3d67-47e9-4b6b-b15d-0b9bd9691fb3