Research Reportshttp://117.252.14.250:8080/jspui/handle/123456789/102026-04-21T20:46:47Z2026-04-21T20:46:47ZAssessing the hydrological mechanisms and impacts on groundwater of the 2023 flooding in Himachal Pradesh and Punjab : Environmental change, adaptation and resilience programmeBrauns, B.Gupta, V.Krishan, GopalMacAllister, DJPathania, A.Lapworth, D JMacDonald, A.M.http://117.252.14.250:8080/jspui/handle/123456789/80272026-04-06T11:21:31Z2026-01-01T00:00:00ZAssessing the hydrological mechanisms and impacts on groundwater of the 2023 flooding in Himachal Pradesh and Punjab : Environmental change, adaptation and resilience programme
Brauns, B.; Gupta, V.; Krishan, Gopal; MacAllister, DJ; Pathania, A.; Lapworth, D J; MacDonald, A.M.
Executive summary
Following severe and successive flooding in Himachal Pradesh (HP) and Punjab in July and
August 2023, the British Geological Survey (BGS), in partnership with the National Institute of
Hydrology (NIH) Roorkee and the Indian Institute of Technology (IIT) Mandi, undertook a study
to investigate flood mechanisms in the upland areas of HP and the impacts on downstream
groundwater in Punjab. The aim of this project was to constrain the scale of the extreme events
that occurred in HP and Punjab during the 2023 monsoon and to assess their cumulative impact
on groundwater recharge and contamination. The objectives were:
• characterise flood dynamics, cumulative impacts of persistent rain and the role of dams
during flooding in the mountains (HP) and plains (Punjab)
• quantify the impacts of floods on groundwater levels and recharge in Punjab, and relate
this to upstream and downstream flood characteristics
• quantify flood impacts on groundwater quality in Punjab
Funded by the Foreign, Commonwealth & Development Office (FCDO) Climate Action for a Resilient
Asia (CARA) programme, the UK’s flagship regional programme to build climate resilience in
South Asia, South-east Asia and the Pacific Islands.
2026-01-01T00:00:00ZET Portioning using isotopesKrishan, GopalRao, M.S.http://117.252.14.250:8080/jspui/handle/123456789/80222026-02-20T11:56:43Z2025-01-01T00:00:00ZET Portioning using isotopes
Krishan, Gopal; Rao, M.S.
1. Design of lysimeter for seepage measurement: A lysimeter specifically designed to measure
seepage losses, particularly during the rice-growing season, should be developed to improve
water balance estimations.
2. Development of a Peltier element-based autosampler: A sampling system utilizing a Peltier
element-based autosampler can be designed to collect atmospheric water vapor more efficiently
for isotope analysis. Since it is very difficult to collect water vapor at remote location using liquid
nitrogen based cold traps.
3. Exploration of in-situ methods for soil and plant water collection: Since cryogenic vacuum
distillation is a destructive method, alternative in-situ techniques should be investigated for non
destructive isotope sampling of soil and plant water.
4. Direct analysis of water vapor using a water vapor isotope analyzer: The current approach relies
on Keeling plots for isotope analysis, but these can be improved by directly analyzing water vapor
using a field-deployable Water Vapor Isotope Analyzer.
5. Investigation of non-steady-state transpiration: The study assumed a steady-state transpiration,
but in real-world conditions, this assumption may not always hold. Future research should focus
on quantifying non-steady-state transpiration fraction dynamics for improved ET partitioning.
6. The data generated from both hydrometric and isotopic methods can be utilized for developing
and testing hydrological models at plot and field scales, thereby improving future water
conservation and agricultural planning strategies
7. Knowledge of isotopic compositions of different components of hydrological cycles and their
temporal variations, as studied in this project, can be useful in understanding the complexities of
hydrological processes in the Ganga basin. A long-term isotopic record can be helpful in
deciphering the response of the hydrological cycle to climatic and anthropogenic changes.
2025-01-01T00:00:00Z56-Dissertation Report on Hydrogeochemistry of Bazada Region of Tapi Basin Part of Jalgaon District Maharastra.Singh, GarimaUnder the Guidance of Rai, S. P.http://117.252.14.250:8080/jspui/handle/123456789/80212026-02-13T06:31:28Z2017-01-01T00:00:00Z56-Dissertation Report on Hydrogeochemistry of Bazada Region of Tapi Basin Part of Jalgaon District Maharastra.
Singh, Garima; Under the Guidance of Rai, S. P.
2017-01-01T00:00:00Z55-Project Report Evaluation of Impact of Both Small Scale and Large Scale Reservoirs on Vegetation and Groundwater Recharge in Bundelkhand Region using Remote Sensing and GIS Techniques.Adithya, BingiUnder the Guidance of Goyal, V. C.http://117.252.14.250:8080/jspui/handle/123456789/80202026-02-13T06:11:58Z2017-01-01T00:00:00Z55-Project Report Evaluation of Impact of Both Small Scale and Large Scale Reservoirs on Vegetation and Groundwater Recharge in Bundelkhand Region using Remote Sensing and GIS Techniques.
Adithya, Bingi; Under the Guidance of Goyal, V. C.
2017-01-01T00:00:00Z