Showing 50 publications by Sarah Sparrow, Rohan Agrawal
Global gridded dataset of heating and cooling degree days under climate change scenarios
Lizana J, Miranda ND, Sparrow SN, Wallom DCH, Khosla R et al. (2026), Nature Sustainability
BibTeX
@article{globalgriddedda-2026/1,
title={Global gridded dataset of heating and cooling degree days under climate change scenarios},
author={Lizana J, Miranda ND, Sparrow SN, Wallom DCH, Khosla R et al.},
journal={Nature Sustainability},
publisher={Springer Science and Business Media LLC},
year = "2026"
}
Electricity demand in electrified UK homes: the role of heat pumps, seasons, and property type
Agrawal R & Wallom DCH (2026), Energy and Buildings, 350, 116647
BibTeX
@article{electricitydema-2026/1,
title={Electricity demand in electrified UK homes: the role of heat pumps, seasons, and property type},
author={Agrawal R & Wallom DCH},
journal={Energy and Buildings},
volume={350},
pages={116647},
publisher={Elsevier},
year = "2026"
}
Attributing a deadly landslide disaster in Southeastern Brazil to human-induced climate change
Barbosa MLF, Veiga RQ, Quevedo RP, Dutra DJ, Pessôa ACM et al. (2025), Weather and Climate Extremes, 50, 100811-100811
BibTeX
@article{attributingadea-2025/12,
title={Attributing a deadly landslide disaster in Southeastern Brazil to human-induced climate change},
author={Barbosa MLF, Veiga RQ, Quevedo RP, Dutra DJ, Pessôa ACM et al.},
journal={Weather and Climate Extremes},
volume={50},
number={100811},
pages={100811-100811},
publisher={Elsevier BV},
year = "2025"
}
Performance and added value of a high-resolution (2 km) rainfall product based on WRF-downscaled ERA5 for Ho Chi Minh City, Vietnam
Nguyen-Duy T, Ngo-Duc T, Choisy M, Fernandez IP & Sparrow S (2025), Theoretical and Applied Climatology, 156(12), 656
BibTeX
@article{performanceanda-2025/12,
title={Performance and added value of a high-resolution (2 km) rainfall product based on WRF-downscaled ERA5 for Ho Chi Minh City, Vietnam},
author={Nguyen-Duy T, Ngo-Duc T, Choisy M, Fernandez IP & Sparrow S},
journal={Theoretical and Applied Climatology},
volume={156},
pages={656},
publisher={Springer Nature},
year = "2025"
}
Exploring the nexus of climate change and vector-borne disease transmission
Baraik SK, Parihar RS, Sparrow S & Salunke P (2025), iScience, 28(11), 113835-113835
BibTeX
@article{exploringthenex-2025/11,
title={Exploring the nexus of climate change and vector-borne disease transmission},
author={Baraik SK, Parihar RS, Sparrow S & Salunke P},
journal={iScience},
volume={28},
number={113835},
pages={113835-113835},
publisher={Elsevier BV},
year = "2025"
}
Assessing the long-term effects of climate change on offshore wind operations in the UK
Abdelaziz S, Sparrow SN, Hua W & Wallom DCH (2025), Energy, 332
BibTeX
@article{assessingthelon-2025/9,
title={Assessing the long-term effects of climate change on offshore wind operations in the UK},
author={Abdelaziz S, Sparrow SN, Hua W & Wallom DCH},
journal={Energy},
volume={332},
year = "2025"
}
Attributing the 2021 Juruá River Floods to Climate Change: Evidence, Impacts, and Adaptation in the Brazilian Amazon
Quevedo RP, Ovando A, Calado BN, Cunha-Zeri G, Antunes da Silva L et al. (2025), International Journal of Disaster Risk Reduction, 105530-105530
BibTeX
@article{attributingthej-2025/5,
title={Attributing the 2021 Juruá River Floods to Climate Change: Evidence, Impacts, and Adaptation in the Brazilian Amazon},
author={Quevedo RP, Ovando A, Calado BN, Cunha-Zeri G, Antunes da Silva L et al.},
journal={International Journal of Disaster Risk Reduction},
number={105530},
pages={105530-105530},
publisher={Elsevier BV},
year = "2025"
}
Changes to Atmospheric River Related Extremes Over the United States West Coast Under Anthropogenic Warming
Higgins TB, Subramanian AC, Watson PAG & Sparrow S (2025), Geophysical Research Letters, 52(5)
BibTeX
@article{changestoatmosp-2025/3,
title={Changes to Atmospheric River Related Extremes Over the United States West Coast Under Anthropogenic Warming},
author={Higgins TB, Subramanian AC, Watson PAG & Sparrow S},
journal={Geophysical Research Letters},
volume={52},
publisher={American Geophysical Union (AGU)},
year = "2025"
}
Quantifying CO2 and Non‐CO2 Contributions to Climate Change Under 1.5°C and 2°C Adaptive Emission Scenarios
Lee D, Sparrow SN, Willeit M, Ceppi P & Allen MR (2025), Earth's Future, 13(3)
BibTeX
@article{quantifyingcoan-2025/3,
title={Quantifying CO2 and Non‐CO2 Contributions to Climate Change Under 1.5°C and 2°C Adaptive Emission Scenarios},
author={Lee D, Sparrow SN, Willeit M, Ceppi P & Allen MR},
journal={Earth's Future},
volume={13},
publisher={American Geophysical Union (AGU)},
year = "2025"
}
The attribution of February extremes over North America: a forecast-based storyline study
Lee D, Sparrow S, Leach N, Osprey S, Lee J et al. (2024), Journal of Climate, 37(19), 5073-5089
BibTeX
@article{theattributiono-2024/9,
title={The attribution of February extremes over North America: a forecast-based storyline study},
author={Lee D, Sparrow S, Leach N, Osprey S, Lee J et al.},
journal={Journal of Climate},
volume={37},
pages={5073-5089},
publisher={American Meteorological Society},
year = "2024"
}
Skilful probabilistic medium‐range precipitation and temperature forecasts over Vietnam for the development of a future dengue early warning system
Main L, Sparrow S, Weisheimer A & Wright M (2024), Meteorological Applications, 31(4)
BibTeX
@article{skilfulprobabil-2024/8,
title={Skilful probabilistic medium‐range precipitation and temperature forecasts over Vietnam for the development of a future dengue early warning system},
author={Main L, Sparrow S, Weisheimer A & Wright M},
journal={Meteorological Applications},
volume={31},
number={e2222},
publisher={Wiley},
year = "2024"
}
Dynamic and Thermodynamic Control of the Response of Winter Climate and Extreme Weather to Projected Arctic Sea‐Ice Loss
Ye K, Woollings T & Sparrow SN (2024), Geophysical Research Letters, 51(13)
BibTeX
@article{dynamicandtherm-2024/7,
title={Dynamic and Thermodynamic Control of the Response of Winter Climate and Extreme Weather to Projected Arctic Sea‐Ice Loss},
author={Ye K, Woollings T & Sparrow SN},
journal={Geophysical Research Letters},
volume={51},
number={e2024GL109271},
publisher={Wiley Open Access},
year = "2024"
}
Ensemble of global climate simulations for temperature in historical, 1.5 °C and 2.0 °C scenarios from HadAM4
Lizana J, Miranda ND, Sparrow SN, Watson PAG, Zachau Walker M et al. (2024), Scientific Data, 11(1)
BibTeX
@article{ensembleofgloba-2024/6,
title={Ensemble of global climate simulations for temperature in historical, 1.5 °C and 2.0 °C scenarios from HadAM4},
author={Lizana J, Miranda ND, Sparrow SN, Watson PAG, Zachau Walker M et al.},
journal={Scientific Data},
volume={11},
number={578},
publisher={Nature Research},
year = "2024"
}
Extreme rainfall and landslides as a response to human-induced climate change: a case study at Baixada Santista, Brazil, 2020
Couto de Souza D, Crespo NM, Vieira da Silva D, Harada LM, Parrode de Godoy RM et al. (2024), Natural Hazards
BibTeX
@article{extremerainfall-2024/5,
title={Extreme rainfall and landslides as a response to human-induced climate change: a case study at Baixada Santista, Brazil, 2020},
author={Couto de Souza D, Crespo NM, Vieira da Silva D, Harada LM, Parrode de Godoy RM et al.},
journal={Natural Hazards},
publisher={Springer},
year = "2024"
}
Event attribution of a midlatitude windstorm using ensemble weather forecasts
Ermis S, Leach NJ, Lott FC, Sparrow SN & Weisheimer A (2024), Environmental Research: Climate, 3(3)
BibTeX
@article{eventattributio-2024/5,
title={Event attribution of a midlatitude windstorm using ensemble weather forecasts},
author={Ermis S, Leach NJ, Lott FC, Sparrow SN & Weisheimer A},
journal={Environmental Research: Climate},
volume={3},
number={035001},
publisher={IOP Publishing},
year = "2024"
}
A comparative climate-resilient energy design: Wildfire Resilient Load Forecasting Model using multi-factor deep learning methods
Yang W, Sparrow SN & Wallom DCH (2024), Applied Energy, 368
BibTeX
@article{acomparativecli-2024/5,
title={A comparative climate-resilient energy design: Wildfire Resilient Load Forecasting Model using multi-factor deep learning methods},
author={Yang W, Sparrow SN & Wallom DCH},
journal={Applied Energy},
volume={368},
number={123365},
publisher={Elsevier},
year = "2024"
}
Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations
Ye K, Woollings T, Sparrow SN, Watson PAG & Screen JA (2024), npj Climate and Atmospheric Science, 7(1)
BibTeX
@article{responseofwinte-2024/1,
title={Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations},
author={Ye K, Woollings T, Sparrow SN, Watson PAG & Screen JA},
journal={npj Climate and Atmospheric Science},
volume={7},
number={20},
publisher={Springer Nature},
year = "2024"
}
Global gridded dataset of Heating Degree Days and Cooling Degree Days under three climate scenarios: historical, 1.5°C and 2°C
Lizana J, Miranda ND, Sparrow SN, Wallom DCH, Khosla R et al. (2024)
BibTeX
@misc{globalgriddedda-2024/1,
title={Global gridded dataset of Heating Degree Days and Cooling Degree Days under three climate scenarios: historical, 1.5°C and 2°C},
author={Lizana J, Miranda ND, Sparrow SN, Wallom DCH, Khosla R et al.},
year = "2024"
}
Assessing long-term future climate change impacts on extreme low wind events for offshore wind turbines in the UK exclusive economic zone
Abdelaziz S, Sparrow S, Hua W & Wallom D (2023), Applied Energy, 354(B)
BibTeX
@article{assessinglongte-2023/11,
title={Assessing long-term future climate change impacts on extreme low wind events for offshore wind turbines in the UK exclusive economic zone},
author={Abdelaziz S, Sparrow S, Hua W & Wallom D},
journal={Applied Energy},
volume={354},
number={122218},
publisher={Elsevier},
year = "2023"
}
Assessing the impact of climate change on the cost of production of green ammonia from offshore wind
Hatton L, Bañares-Alcántara R, Sparrow S, Lott F & Salmon N (2023), International Journal of Hydrogen Energy, 49(D), 635-643
BibTeX
@article{assessingtheimp-2023/11,
title={Assessing the impact of climate change on the cost of production of green ammonia from offshore wind},
author={Hatton L, Bañares-Alcántara R, Sparrow S, Lott F & Salmon N},
journal={International Journal of Hydrogen Energy},
volume={49},
pages={635-643},
publisher={Elsevier},
year = "2023"
}
Optimising multi-factor assistance in a deep learning-based electricity forecasting model with climate resilience: an Australian case study
Yang W, Sparrow SN & Wallom DCH (2023), 00, 1-5
BibTeX
@inproceedings{optimisingmulti-2023/10,
title={Optimising multi-factor assistance in a deep learning-based electricity forecasting model with climate resilience: an Australian case study},
author={Yang W, Sparrow SN & Wallom DCH},
booktitle={2023 IEEE PES Innovative Smart Grid Technologies Europe (ISGT EUROPE)},
pages={1-5},
year = "2023"
}
Extreme wind gust impact on UK offshore wind turbines: long-term return level estimation
Abdelaziz S, Sparrow SN, Hua W & Wallom D (2023), 2023 IEEE Power & Energy Society General Meeting (PESGM), 1-5
BibTeX
@inproceedings{extremewindgust-2023/9,
title={Extreme wind gust impact on UK offshore wind turbines: long-term return level estimation},
author={Abdelaziz S, Sparrow SN, Hua W & Wallom D},
booktitle={2023 IEEE Power & Energy Society (PES) General Meeting (GM)},
pages={1-5},
year = "2023"
}
Physically based equation representing the forcing-driven precipitation in climate models
Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen M (2023), Environmental Research Letters, 18(9)
BibTeX
@article{physicallybased-2023/9,
title={Physically based equation representing the forcing-driven precipitation in climate models},
author={Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen M},
journal={Environmental Research Letters},
volume={18},
number={094063},
publisher={IOP Publishing},
year = "2023"
}
Future climate change impact on wind gust for offshore wind turbines cut-out within the UK exclusive economic zone
Abdelaziz S, Sparrow SN, Hua W & Wallom D (2023), 2023 IEEE Green Technologies Conference (GreenTech), 10-14
BibTeX
@inproceedings{futureclimatech-2023/7,
title={Future climate change impact on wind gust for offshore wind turbines cut-out within the UK exclusive economic zone},
author={Abdelaziz S, Sparrow SN, Hua W & Wallom D},
booktitle={Fifteenth Annual IEEE Green Technologies (GreenTech) Conference},
pages={10-14},
year = "2023"
}
Change in cooling degree days with global mean temperature rise increasing from 1.5 °C to 2.0 °C
Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al. (2023), Nature Sustainability, 6(11), 1326-1330
BibTeX
@article{changeincooling-2023/7,
title={Change in cooling degree days with global mean temperature rise increasing from 1.5 °C to 2.0 °C},
author={Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al.},
journal={Nature Sustainability},
volume={6},
pages={1326-1330},
publisher={Springer Nature},
year = "2023"
}
Using deep learning for an analysis of atmospheric rivers in a high-resolution large ensemble climate data set
Higgins TB, Subramanian AC, Graubner A, Kapp‐Schwoerer L, Watson PAG et al. (2023), Journal of Advances in Modeling Earth Systems, 15(4)
BibTeX
@article{usingdeeplearni-2023/4,
title={Using deep learning for an analysis of atmospheric rivers in a high-resolution large ensemble climate data set},
author={Higgins TB, Subramanian AC, Graubner A, Kapp‐Schwoerer L, Watson PAG et al.},
journal={Journal of Advances in Modeling Earth Systems},
volume={15},
number={e2022MS003495},
publisher={American Geophysical Union},
year = "2023"
}
A generalised multi-factor deep learning electricity load forecasting model for wildfire-prone areas
Yang W, Sparrow SN & Wallom DCH (2023)
BibTeX
@misc{ageneralisedmul-2023/4,
title={A generalised multi-factor deep learning electricity load forecasting model for wildfire-prone areas},
author={Yang W, Sparrow SN & Wallom DCH},
year = "2023"
}
Human contribution to the risk of 2021 Northwestern Pacific concurrent marine and terrestrial summer heat
Tang H, Wang J, Chen Y, Tett SFB, Sun Y et al. (2023), Bulletin of the American Meteorological Society, 104(3), E673-E679
BibTeX
@article{humancontributi-2023/3,
title={Human contribution to the risk of 2021 Northwestern Pacific concurrent marine and terrestrial summer heat},
author={Tang H, Wang J, Chen Y, Tett SFB, Sun Y et al.},
journal={Bulletin of the American Meteorological Society},
volume={104},
pages={E673-E679},
publisher={American Meteorological Society},
year = "2023"
}
Changes in Cooling Degree Days (CDD) between the 1.5ºC and 2.0ºC global warming scenarios
Miranda ND, Lizana J, Sparrow SN, Wallom DCH, Zachau-Walker M et al. (2023)
BibTeX
@misc{changesincoolin-2023/1,
title={Changes in Cooling Degree Days (CDD) between the 1.5ºC and 2.0ºC global warming scenarios},
author={Miranda ND, Lizana J, Sparrow SN, Wallom DCH, Zachau-Walker M et al.},
year = "2023"
}
From 1.5ºC to 2.0ºC: the global increase in cooling degree days
Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al. (2023)
BibTeX
@misc{fromctoctheglob-2023/,
title={From 1.5ºC to 2.0ºC: the global increase in cooling degree days},
author={Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al.},
year = "2023"
}
Using Deep Learning for an Analysis of Atmospheric Rivers in a High-Resolution Large Ensemble Climate Data Set
Higgins TB, Subramanian AC, Graubner A, Kapp-Schwoerer L, Watson PAG et al. (2023), JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS, 15(4)
BibTeX
@article{usingdeeplearni-2023/,
title={Using Deep Learning for an Analysis of Atmospheric Rivers in a High-Resolution Large Ensemble Climate Data Set},
author={Higgins TB, Subramanian AC, Graubner A, Kapp-Schwoerer L, Watson PAG et al.},
journal={JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS},
volume={15},
number={ARTN e2022MS003495},
year = "2023"
}
From 1.5ºC to 2.0ºC: the global increase in cooling degree days
Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al. (2023)
BibTeX
@misc{fromctoctheglob-2023/,
title={From 1.5ºC to 2.0ºC: the global increase in cooling degree days},
author={Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al.},
year = "2023"
}
Change in cooling degree days with global mean temperature increasing from 1.5 °C to 2.0 °C
Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al. (2023), NATURE SUSTAINABILITY
BibTeX
@article{changeincooling-2023/,
title={Change in cooling degree days with global mean temperature increasing from 1.5 °C to 2.0 °C},
author={Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al.},
journal={NATURE SUSTAINABILITY},
year = "2023"
}
Change in cooling degree days with global mean temperature rise increasing from 1.5 °C to 2.0 °C (Jul, 10.1038/s41893-023-01155-z, 2023)
Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al. (2023), NATURE SUSTAINABILITY
BibTeX
@article{changeincooling-2023/,
title={Change in cooling degree days with global mean temperature rise increasing from 1.5 °C to 2.0 °C (Jul, 10.1038/s41893-023-01155-z, 2023)},
author={Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al.},
journal={NATURE SUSTAINABILITY},
year = "2023"
}
Physically based equation representing the forcing-driven precipitation in climate models
Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen MR (2023), ENVIRONMENTAL RESEARCH LETTERS, 18(9)
BibTeX
@article{physicallybased-2023/,
title={Physically based equation representing the forcing-driven precipitation in climate models},
author={Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen MR},
journal={ENVIRONMENTAL RESEARCH LETTERS},
volume={18},
number={ARTN 094063},
year = "2023"
}
Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations
Ye K, Woollings T, Sparrow S, Watson P & Screen J (2023)
BibTeX
@misc{responseofwinte-2023/,
title={Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations},
author={Ye K, Woollings T, Sparrow S, Watson P & Screen J},
year = "2023"
}
Risks of seasonal extreme rainfall events in Bangladesh under 1.5 and 2.0 °C warmer worlds – how anthropogenic aerosols change the story
Rimi RH, Haustein K, Barbour EJ, Sparrow SN, Li S et al. (2022), Hydrology and Earth System Sciences, 26(22), 5737-5756
BibTeX
@article{risksofseasonal-2022/11,
title={Risks of seasonal extreme rainfall events in Bangladesh under 1.5 and 2.0 °C warmer worlds – how anthropogenic aerosols change the story},
author={Rimi RH, Haustein K, Barbour EJ, Sparrow SN, Li S et al.},
journal={Hydrology and Earth System Sciences},
volume={26},
pages={5737-5756},
publisher={ Copernicus Publications},
year = "2022"
}
Attribution of April 2020 exceptional cold spell over Northeast China
Yu H, Yu X, Zhou Z, Wang Y, Li Y et al. (2022), Bulletin of the American Meteorological Society, 103(3), S61-S67
BibTeX
@article{attributionofap-2022/3,
title={Attribution of April 2020 exceptional cold spell over Northeast China},
author={Yu H, Yu X, Zhou Z, Wang Y, Li Y et al.},
journal={Bulletin of the American Meteorological Society},
volume={103},
pages={S61-S67},
publisher={American Meteorological Society},
year = "2022"
}
Reduced probability of 2020 June–July persistent heavy Meiyu rainfall event in the mid-lower reaches of the Yangtze River basin under anthropogenic forcing
Tang H, Wang Z, Tang B, Ma Y, Pei L et al. (2022), Bulletin of the American Meteorological Society, 103(3), S83-S89
BibTeX
@article{reducedprobabil-2022/3,
title={Reduced probability of 2020 June–July persistent heavy Meiyu rainfall event in the mid-lower reaches of the Yangtze River basin under anthropogenic forcing},
author={Tang H, Wang Z, Tang B, Ma Y, Pei L et al.},
journal={Bulletin of the American Meteorological Society},
volume={103},
pages={S83-S89},
publisher={American Meteorological Society},
year = "2022"
}
Trends in Europe storm surge extremes match the rate of sea-level rise
Calafat F, Wahl T, Getachew Tadesse M & Sparrow S (2022), Nature, 603, 841-845
BibTeX
@article{trendsineuropes-2022/3,
title={Trends in Europe storm surge extremes match the rate of sea-level rise},
author={Calafat F, Wahl T, Getachew Tadesse M & Sparrow S},
journal={Nature},
volume={603},
pages={841-845},
publisher={Nature Research},
year = "2022"
}
Resilient by design: Preventing wildfires and blackouts with microgrids
Yang W, Sparrow SN, Ashtine M, Wallom D & Morstyn T (2022), Applied Energy, 313
BibTeX
@article{resilientbydesi-2022/3,
title={Resilient by design: Preventing wildfires and blackouts with microgrids},
author={Yang W, Sparrow SN, Ashtine M, Wallom D & Morstyn T},
journal={Applied Energy},
volume={313},
number={118793},
publisher={Elsevier},
year = "2022"
}
Reduced probability of 2020 June–July persistent heavy Meiyu rainfall event in the mid-lower reaches of the Yangtze River basin under anthropogenic forcing
Tang H, Wang Z, Tang B, Ma Y, Pei L et al. (2022), Bulletin of the American Meteorological Society, 103(3), S83-S89
BibTeX
@article{reducedprobabil-2022/3,
title={Reduced probability of 2020 June–July persistent heavy Meiyu rainfall event in the mid-lower reaches of the Yangtze River basin under anthropogenic forcing},
author={Tang H, Wang Z, Tang B, Ma Y, Pei L et al.},
journal={Bulletin of the American Meteorological Society},
volume={103},
pages={S83-S89},
publisher={American Meteorological Society},
year = "2022"
}
Physical processes of summer extreme rainfall interannual variability in Eastern China—part II: evaluation of CMIP6 models
Freychet N, Tett SFB, Tian F, Li S, Dong B et al. (2022), Climate Dynamics, 59(1), 455-469
BibTeX
@article{physicalprocess-2022/2,
title={Physical processes of summer extreme rainfall interannual variability in Eastern China—part II: evaluation of CMIP6 models},
author={Freychet N, Tett SFB, Tian F, Li S, Dong B et al.},
journal={Climate Dynamics},
volume={59},
pages={455-469},
publisher={Springer},
year = "2022"
}
Generating samples of extreme winters to support climate adaptation
Leach N, Watson PAG, Sparrow SN, Wallom DCH & Sexton DMH (2022), Weather and Climate Extremes, 36
BibTeX
@article{generatingsampl-2022/2,
title={Generating samples of extreme winters to support climate adaptation},
author={Leach N, Watson PAG, Sparrow SN, Wallom DCH & Sexton DMH},
journal={Weather and Climate Extremes},
volume={36},
number={100419},
publisher={Elsevier},
year = "2022"
}
Understanding climate risk in future energy systems: an energy-climate data hackathon
Fallon JC, Bloomfield HC, Brayshaw DJ, Sparrow S, Wallom DCH et al. (2022), Bulletin of the American Meteorological Society, 103(5), E1321-E1329
BibTeX
@article{understandingcl-2022/2,
title={Understanding climate risk in future energy systems: an energy-climate data hackathon},
author={Fallon JC, Bloomfield HC, Brayshaw DJ, Sparrow S, Wallom DCH et al.},
journal={Bulletin of the American Meteorological Society},
volume={103},
pages={E1321-E1329},
publisher={American Meteorological Society},
year = "2022"
}
Physical processes of summer extreme rainfall interannual variability in eastern China: part I—observational analysis
Tian F, Li S, Dong B, Klingaman NP, Freychet N et al. (2022), Climate Dynamics, 59(1), 201-217
BibTeX
@article{physicalprocess-2022/1,
title={Physical processes of summer extreme rainfall interannual variability in eastern China: part I—observational analysis},
author={Tian F, Li S, Dong B, Klingaman NP, Freychet N et al.},
journal={Climate Dynamics},
volume={59},
pages={201-217},
publisher={Springer},
year = "2022"
}
Changes in Cooling Degree Days (CDD) between the 1.5ºC and 2.0ºC IPCC Scenarios.
Miranda N, Lizana J, Sparrow S, Wallom D, Zachau Walker M et al. (2022)
BibTeX
@misc{changesincoolin-2022/1,
title={Changes in Cooling Degree Days (CDD) between the 1.5ºC and 2.0ºC IPCC Scenarios.},
author={Miranda N, Lizana J, Sparrow S, Wallom D, Zachau Walker M et al.},
year = "2022"
}
Drivers behind the summer 2010 wave train leading to Russian heat wave and Pakistan flooding
Di Capua G, Sparrow S, Kornhuber K, Rousi E, Osprey S et al. (2021), npj Climate and Atmospheric Science, 4
BibTeX
@article{driversbehindth-2021/11,
title={Drivers behind the summer 2010 wave train leading to Russian heat wave and Pakistan flooding},
author={Di Capua G, Sparrow S, Kornhuber K, Rousi E, Osprey S et al.},
journal={npj Climate and Atmospheric Science},
volume={4},
number={55},
publisher={Springer Nature},
year = "2021"
}
Anthropogenic climate change contribution to wildfire-prone weather conditions in the Cerrado and Arc of deforestation
Li S, Sparrow SN, Otto FEL, Rifai SW, Oliveras I et al. (2021), Environmental Research Letters, 16(9)
BibTeX
@article{anthropogeniccl-2021/9,
title={Anthropogenic climate change contribution to wildfire-prone weather conditions in the Cerrado and Arc of deforestation},
author={Li S, Sparrow SN, Otto FEL, Rifai SW, Oliveras I et al.},
journal={Environmental Research Letters},
volume={16},
number={94051},
publisher={IOP Publishing},
year = "2021"
}
Identifying local-scale meteorological conditions favorable to large fires in Brazil
Li S, Rifai S, Anderson L & Sparrow S (2021), Climate Resilience and Sustainability, 1(1)
BibTeX
@article{identifyingloca-2021/8,
title={Identifying local-scale meteorological conditions favorable to large fires in Brazil},
author={Li S, Rifai S, Anderson L & Sparrow S},
journal={Climate Resilience and Sustainability},
volume={1},
number={e11},
publisher={Wiley},
year = "2021"
}