EverDrill: Accessing the interior and bed of a Himalayan debris-covered glacier to forecast future mass loss
Lead Research Organisation:
University of Leeds
Department Name: Sch of Geography
Abstract
The Hindu-Kush Himalaya is a region that is commonly known as the 'third pole' given the volume of glacier ice that is stored in the mountains - more than anywhere on earth outside the Arctic and Antarctic. Crucially, many millions of people living in the foothills and further downstream rely on the meltwater from these glaciers for their daily drinking, sanitation and irrigation needs. The region as a whole is known to be extremely sensitive to climate change, and the speed at which warming is taking place is greatest at high-elevation - where the glacier ice is located. It is still largely unknown, however, how climate is likely to change across the region in the future, and the impact this will have on melting glacier ice and those that rely on it in their everyday lives.
It is difficult to predict the impacts of future climate change in the region, because we know so little about the glaciers other than what we can measure at the surface. Many glacier models that are designed to predict glacier evolution therefore assume many of the parameters that are unknown, but these parameters are also very important to their functioning - for example the temperature of the ice, the thickness of the ice, and the existence or otherwise of sediment at the ice-bedrock interface. In this project we aim to collect real measurements of these subsurface properties and thus make much more robust predictions of how these glaciers may chance with climate.
We will drill six boreholes at four locations into the Khumbu Glacier, Nepal, which descends from Mount Everest and is one of the largest in the Himalayan region. It is debris-covered for its lowermost eight kilometres but pocked with clean-ice exposures that we can exploit with a hot-water drill. We will gather visual footage of each borehole interior and install a multi-sensor array at the bed at each of the four locations. The arrays will log water pressure, temperature, electrical conductivity and turbidity and how each of these parameters changes through the seasons. At two additional boreholes we will install englacial temperature and tilt strings to determine the thermal and deformation profiles of the glacier.
Existing glacier models are poorly tested to their sensitivity of variability in the input data. It is important to know how the model responds to small changes in the predicted climate for example, compared with small changes in basal water pressure or temperature. These sensitivity tests tell us about the uncertainty in our predictions as well as how the whole climate-glacier system works. We aim to test the sensitivity of the glacier model that we are using to a range of different parameters by adjusting them individually and analysing the change in prediction in each case. Ultimately, we will include our real-world data in the model and make robust predictions of debris-covered glacier evolution under a warming climate.
This work will inform regional policy makers concerned with future water supply, local humanitarian aid agencies who will work with foothill dwellers in periods of flood and drought, the Intergovernmental Panel on Climate Change (IPCC) which will inform future climate summits on the world stage, and local people who are dependent on glacier runoff for irrigation, hydro-electric power production and sanitation.
It is difficult to predict the impacts of future climate change in the region, because we know so little about the glaciers other than what we can measure at the surface. Many glacier models that are designed to predict glacier evolution therefore assume many of the parameters that are unknown, but these parameters are also very important to their functioning - for example the temperature of the ice, the thickness of the ice, and the existence or otherwise of sediment at the ice-bedrock interface. In this project we aim to collect real measurements of these subsurface properties and thus make much more robust predictions of how these glaciers may chance with climate.
We will drill six boreholes at four locations into the Khumbu Glacier, Nepal, which descends from Mount Everest and is one of the largest in the Himalayan region. It is debris-covered for its lowermost eight kilometres but pocked with clean-ice exposures that we can exploit with a hot-water drill. We will gather visual footage of each borehole interior and install a multi-sensor array at the bed at each of the four locations. The arrays will log water pressure, temperature, electrical conductivity and turbidity and how each of these parameters changes through the seasons. At two additional boreholes we will install englacial temperature and tilt strings to determine the thermal and deformation profiles of the glacier.
Existing glacier models are poorly tested to their sensitivity of variability in the input data. It is important to know how the model responds to small changes in the predicted climate for example, compared with small changes in basal water pressure or temperature. These sensitivity tests tell us about the uncertainty in our predictions as well as how the whole climate-glacier system works. We aim to test the sensitivity of the glacier model that we are using to a range of different parameters by adjusting them individually and analysing the change in prediction in each case. Ultimately, we will include our real-world data in the model and make robust predictions of debris-covered glacier evolution under a warming climate.
This work will inform regional policy makers concerned with future water supply, local humanitarian aid agencies who will work with foothill dwellers in periods of flood and drought, the Intergovernmental Panel on Climate Change (IPCC) which will inform future climate summits on the world stage, and local people who are dependent on glacier runoff for irrigation, hydro-electric power production and sanitation.
Planned Impact
This research will yield: the first spatially distributed measurements of englacial structure and temperature, basal dynamics and hydrology for a Himalayan debris-covered glacier, a quantitative assessment of the sensitivity of glacier mass balance and ice flow models to their parameterisation and what this informs us about the processes driving climate-glacier interactions, and robust predictions of Himalayan glacier evolution under a warming climate and the impact of this evolution on glacier meltwater contribution to river flow. These data will be of specific interest to those working in the Himalayan region as well as informative for scientists working in other glacierised mountain regions of the world. Methodological advances from this research will be of interest to the technical climate and cryospheric communities, and field glaciologists will be able to use the principles of our methods in their own applications elsewhere.
The main non-academic beneficiary of the research will be policy makers in Nepal concerned both with securing future water availability and energy production from hydro-electric schemes being fed by glacier melt. Local humanitarian aid agencies will also benefit from the impact of our research, through an enhanced understanding of how continued changes in climate are likely to impact on populations that are, in places, entirely dependent on glacier meltwater runoff for drinking, irrigation and sanitation needs. This will clearly benefit the health of local people, and will reduce the requirements for UK-based organisations such as DFID to fund emergency response activities as a result of unexpected changes in water supply.
Our Nepali project partner will benefit from being exposed to new glaciological field techniques (e.g. hot-water drilling) as well as the transfer and discussion of more general climatological and glaciological knowledge. They will also take ownership of the hot-water drill following our final field season so that they have the capability to carry out related research in future projects. Through their teaching and student supervision this knowledge will be to the benefit of future generations of scientists graduating from Nepali universities in environmental disciplines. Second, our partner will benefit from enhanced profile through joint publications and press releases pertaining to our research outputs as they progress. Third, and most importantly, they will benefit from the findings of our research - enhanced knowledge of glacier-climate interactions that will feed into regional management plans and provision of information to the public.
The attached Pathways to Impact document provides full details of the methods we will employ to maximise the benefits of this research to end users. Briefly, they include a workshop for local stakeholders and authorities in Kathmandu, the provision of information summaries to academic and non-academic organisations in the region, and the publication of all data on a University of Leeds project website for access by the academic community as well as the general public. Such forms of information dissemination can be implemented very quickly, so the timescales for the delivery of end user benefits are short (during the lifetime of the project for some, and within a month of the project termination for the remainder). To ensure the impact of our research continues for some years beyond the lifetime of the project we aim to establish partnerships with both Tribhuvan and Kathmandu Universities to promote knowledge-exchange, capacity-building and potential joint PhD projects and staff exchanges.
The main non-academic beneficiary of the research will be policy makers in Nepal concerned both with securing future water availability and energy production from hydro-electric schemes being fed by glacier melt. Local humanitarian aid agencies will also benefit from the impact of our research, through an enhanced understanding of how continued changes in climate are likely to impact on populations that are, in places, entirely dependent on glacier meltwater runoff for drinking, irrigation and sanitation needs. This will clearly benefit the health of local people, and will reduce the requirements for UK-based organisations such as DFID to fund emergency response activities as a result of unexpected changes in water supply.
Our Nepali project partner will benefit from being exposed to new glaciological field techniques (e.g. hot-water drilling) as well as the transfer and discussion of more general climatological and glaciological knowledge. They will also take ownership of the hot-water drill following our final field season so that they have the capability to carry out related research in future projects. Through their teaching and student supervision this knowledge will be to the benefit of future generations of scientists graduating from Nepali universities in environmental disciplines. Second, our partner will benefit from enhanced profile through joint publications and press releases pertaining to our research outputs as they progress. Third, and most importantly, they will benefit from the findings of our research - enhanced knowledge of glacier-climate interactions that will feed into regional management plans and provision of information to the public.
The attached Pathways to Impact document provides full details of the methods we will employ to maximise the benefits of this research to end users. Briefly, they include a workshop for local stakeholders and authorities in Kathmandu, the provision of information summaries to academic and non-academic organisations in the region, and the publication of all data on a University of Leeds project website for access by the academic community as well as the general public. Such forms of information dissemination can be implemented very quickly, so the timescales for the delivery of end user benefits are short (during the lifetime of the project for some, and within a month of the project termination for the remainder). To ensure the impact of our research continues for some years beyond the lifetime of the project we aim to establish partnerships with both Tribhuvan and Kathmandu Universities to promote knowledge-exchange, capacity-building and potential joint PhD projects and staff exchanges.
Publications
Bryn Hubbard
(2019)
Locations and lengths of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project
in UK Polar Data Centre, Natural Environment Research Council, UK Research & Innovation
Bryn Hubbard
(2019)
Borehole optical televiewer (OPTV) logs of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project
in UK Polar Data Centre, Natural Environment Research Council, UK Research & Innovation
Bryn Hubbard
(2019)
Data time-series from sensors installed at the base of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project
in UK Polar Data Centre, Natural Environment Research Council, UK Research & Innovation
Bryn Hubbard
(2019)
Ice tilt time-series from sensors installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project
in UK Polar Data Centre, Natural Environment Research Council, UK Research & Innovation
Bryn Hubbard
(2019)
Ice temperature time-series from sensors installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project
in UK Polar Data Centre, Natural Environment Research Council, UK Research & Innovation
Bryn Hubbard
(2019)
Summary of instrumentation installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project
in UK Polar Data Centre, Natural Environment Research Council, UK Research & Innovation
Hornsey J
(2022)
Be-10 Dating of Ice-Marginal Moraines in the Khumbu Valley, Nepal, Central Himalaya, Reveals the Response of Monsoon-Influenced Glaciers to Holocene Climate Change
in Journal of Geophysical Research: Earth Surface
Miles E
(2018)
Glacial and geomorphic effects of a supraglacial lake drainage and outburst event, Everest region, Nepal Himalaya
in The Cryosphere
Miles K
(2021)
Continuous borehole optical televiewing reveals variable englacial debris concentrations at Khumbu Glacier, Nepal
in Communications Earth & Environment
Description | We have discovered that the Khumbu Glacier, a high-elevation debris-covered glacier in Nepal, may contain ~56% temperate ice, with much of the colder shallow ice near to the melting-point temperature (within 0.8°C). We measured a minimum ice temperature of -3.3°C, and even the coldest ice we measured was 2°C warmer than the mean annual air temperature. Our results therefore indicate that high-elevation Himalayan glaciers are vulnerable to even minor atmospheric warming. We have also discovered that an inefficient, but likely channelised and sinuous subsurface hydrological system exists within the Khumbu Glacier emerging at the glacier's surface close to its terminus, flowing into small near-surface englacial reservoirs that typically delay meltwater transit by several hours. This has implications for the timing of glacier meltwater runoff as the glacier continues to respond to climatic changes. |
Exploitation Route | These findings provide critical input data for numerical model parameterisation focusing on predicting future glacier evolution. |
Sectors | Agriculture Food and Drink Energy Environment |
Description | Karcher UK Ltd has developed technology for high-elevation adaptation of combustion-driven pressure pumps in collaboration with us for use by this project. These adaptations have been reported through Karcher and in the news/media. |
First Year Of Impact | 2017 |
Sector | Electronics,Energy,Manufacturing, including Industrial Biotechology |
Impact Types | Economic |
Title | Basal probe time-series from sensors installed at the base of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project - VERSION 2.0 |
Description | The datasets are basal probe sensor time series measuring suspended sediment concentration, water pressure, electrical conductivity and temperature. Each sensor was located at a discrete depth within one of six boreholes into Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Supporting borehole information is provided as a related dataset. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2021 |
Provided To Others? | Yes |
URL | https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01525 |
Title | Borehole optical televiewer (OPTV) logs of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project |
Description | These are digital optical televiewer (OPTV) logs of four boreholes drilled by hot water to various depths (see Instrumented Borehole Info) in Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Title | Data time-series from sensors installed at the base of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project |
Description | The datasets are basal probe sensor time series measuring suspended sediment concentration, water pressure, electrical conductivity and temperature. Each sensor was located at a discrete depth within one of six boreholes into Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Supporting borehole information is provided as a related dataset. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Title | Ice temperature time-series from sensors installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project |
Description | The datasets are temperature time series from strings of thermistors, each located at a discrete depth within one of six boreholes into Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Supporting borehole information is provided as a related dataset. The data are presented in whole or in part in Miles et al. (2018). Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Title | Ice temperature time-series from sensors installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project - VERSION 2.0 |
Description | The datasets are temperature time series from strings of thermistors, each located at a discrete depth within one of six boreholes into Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Supporting borehole information is provided as a related dataset. The data are presented in whole or in part in Miles et al. (2018). Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2021 |
Provided To Others? | Yes |
URL | https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01523 |
Title | Ice tilt time-series from sensors installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project |
Description | The datasets are ice tilt time series from strings of accelerometers, each located at a discrete depth within one of three boreholes into Khumbu Glacier, Nepal. Ice deformation can be derived from this tilt data, but has not yet been calculated. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Supporting borehole information is provided as a related dataset. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Title | Ice tilt time-series from sensors installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project - VERSION 2.0 |
Description | The datasets are ice tilt time series from strings of accelerometers, each located at a discrete depth within one of three boreholes into Khumbu Glacier, Nepal. Ice deformation can be derived from this tilt data, but has not yet been calculated. Boreholes were drilled in May 2017 and 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. Supporting borehole information is provided as a related dataset. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2021 |
Provided To Others? | Yes |
URL | https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01524 |
Title | Locations and lengths of boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project |
Description | The dataset lists information about boreholes drilled by hot water into Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and May 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. The information provided includes each borehole's ID, length, location (at the time of drilling), elevation and instrumentation. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Title | Simulated ice thickness, supraglacial debris thickness and subglacial topography for Khumbu Glacier, Nepal, using the iSOSIA ice-flow model - VERSION 2.0 |
Description | Simulated ice thickness (ice, metres, 100 m grid spacing) and supraglacial debris thickness (debris, metres, 100 m grid spacing) for Khumbu Glacier, Nepal, produced using the iSOSIA ice-flow model presented in Rowan et al. (2021; Journal of Geophysical Research-Earth Surface). The model domains used for the entire glacier and active glacier simulations (metres above sea level, 100 m grid spacing), and the present-day ice thickness estimate (metres, 30 m grid spacing) used to create the subglacial topography are included. The files contained in this collection present the outputs from three experiments carried out in Rowan et al. (2021; Journal of Geophysical Research-Earth Surface): 1. Simulation with a continuous debris layer, where h0 = 0.23 m and dT = 1.5 degC, showing the effect of change in mean annual air temperature to the present day (2015 CE) from 1.5 degC relative to the Little Ice Age 2. Simulation with a discontinuous debris layer, where h0 = 0.94 m and dT = 1.5 degC 3. Simulation with a discontinuous debris layer of the active glacier, where h0 = 0.94 m and dT = 1.5 degC The subglacial DEMs used for the model domains for the entire glacier and the active glacier, and the present-day (2015 CE) ice thickness estimated by Rowan et al. (2015, EPSL) to create the subglacial topography are also included (3 files). Funded by NERC under grant: NE/P00265X/1 "EverDrill: Accessing the interior and bed of a Himalayan debris-covered glacier to forecast future mass loss" to Duncan Quincey (PI) and Ann Rowan (CoI). |
Type Of Material | Database/Collection of data |
Year Produced | 2021 |
Provided To Others? | Yes |
URL | https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01555 |
Title | Simulated ice thickness, supraglacial debris thickness and velocity for Khumbu Glacier, Nepal, using the iSOSIA ice-flow model |
Description | Simulated ice thickness (ice, metres), supraglacial debris thickness (dh, metres) and velocity (velocity, metres per year) for Khumbu Glacier, Nepal, produced using the iSOSIA ice-flow model presented in Rowan et al. (in revision, Journal of Geophysical Research-Earth Surface). The files contained in this collection present the outputs from three experiments: Experiment 1, six files, three simulations showing the effect of change in mean annual air temperature to the present day from 1.5 degC to 3.5 degC relative to the Little Ice Age. Experiment 2, four files, two simulations showing the effect of change in the h0 constant describing the reduction in sub-debris melt with debris thickness. Experiment 3, four files, two simulations, showing the effect of change in mean annual air temperature to the present day from 2.5 degC to 3.5 degC relative to the Little Ice Age where h0 = 1.1 m. Results from the optimal simulation, nine files, one simulation, showing results for simulated ice thickness, supraglacial debris thickness and glacier velocity for the Little Ice Age, 1984 CE and 2015 CE. Funding was provided by the NERC grant NE/P00265X/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2020 |
Provided To Others? | Yes |
URL | https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01435 |
Title | Summary of instrumentation installed in boreholes drilled into Khumbu Glacier, Nepal, in 2017 and 2018 as part of EverDrill research project |
Description | The dataset lists information about the instrumentation of boreholes drilled into Khumbu Glacier, Nepal. Boreholes were drilled in May 2017 and May 2018 to investigate the internal properties of Khumbu Glacier, specifically ice thickness, temperature, deformation and structure, as part of the NERC-funded 'EverDrill' research project. The information provided includes each borehole's ID, length, location, elevation and instrumentation, including the type and depth of each sensor. Funding was provided by the NERC grant NE/P00265X/1 and NE/P002021/1. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Description | Collaboration with Karcher |
Organisation | Karcher UK |
Country | United Kingdom |
Sector | Private |
PI Contribution | Our research team has advised on conditions typically experienced in the field to direct the modification of equipment that Karcher may then seek to commercialize for similar work elsewhere in the world. |
Collaborator Contribution | Karcher have modified some of the existing equipment and tailored it for operation at high-elevation, as well as providing that equipment to us without charge. |
Impact | None as yet |
Start Year | 2017 |
Description | Collaboration with Kathmandu University, Nepal |
Organisation | Kathmandu University |
Country | Nepal |
Sector | Academic/University |
PI Contribution | The research team has worked with two members of Kathmandu University in the field, one of whom also spent time at the University of Leeds on a placement (see relevant section). |
Collaborator Contribution | Kathmandu University have provided a member of staff to undertake ground penetrating radar surveys at our field site, and provided the equipment to be able to do this, as well as providing a postgraduate student to assist in fieldwork. |
Impact | No outputs at this stage. |
Start Year | 2017 |
Description | BBC coverage |
Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Public/other audiences |
Results and Impact | BBC articles online about our fieldwork activities |
Year(s) Of Engagement Activity | 2017 |
URL | http://www.bbc.co.uk/news/uk-wales-39442450 |
Description | Community-based workshops in Namche Bazaar and Khumjung villages, Khumbu Himal, Nepal |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | Regional |
Primary Audience | Public/other audiences |
Results and Impact | Around 40 people attended each of these two workshops, where we presented the findings from the research project, demonstrated the impacts of the changing climate on the mountain regions via VR headsets, and engaged in debate and discussion. We also visited Khumjung School and presented to a group of interested students and answered their questions on glaciers and glacier recession. |
Year(s) Of Engagement Activity | 2019 |
Description | Paul Hudson weather show |
Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
Part Of Official Scheme? | No |
Geographic Reach | Regional |
Primary Audience | Public/other audiences |
Results and Impact | Interviewed on Paul Hudson weather show for BBC Leeds |
Year(s) Of Engagement Activity | 2018 |
Description | Press release and media briefing to Nepal national media, Kathmandu |
Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Media (as a channel to the public) |
Results and Impact | Media briefing for around 75 journalists, stakeholders and practitioners, resulting in television news and newspaper coverage of our key findings and their implications. |
Year(s) Of Engagement Activity | 2019 |
Description | Walk and Talk Nepal |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Public/other audiences |
Results and Impact | The Walk and Talk conference presented a series of talks and interactive activities in the study area in Nepal over a ten-day period. There was discussion around the talks and activities every evening and lodge owners and the public were able to engage with the outputs of our work and to understand what the findings mean for future water resources and economic development relating to hydropower and agriculture. |
Year(s) Of Engagement Activity | 2018 |
URL | https://walk-talk.com/ |
Description | Yorkshire Post coverage |
Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
Part Of Official Scheme? | No |
Geographic Reach | Regional |
Primary Audience | Public/other audiences |
Results and Impact | Media interview and publication with the Yorkshire Post |
Year(s) Of Engagement Activity | 2017 |
URL | https://www.yorkshireeveningpost.co.uk/news/environment/leeds-team-in-everest-drilling-bid-1-8490060 |