G
Gabriele Manoli
Researcher at University College London
Publications - 53
Citations - 1766
Gabriele Manoli is an academic researcher from University College London. The author has contributed to research in topics: Urban heat island & Evapotranspiration. The author has an hindex of 18, co-authored 44 publications receiving 927 citations. Previous affiliations of Gabriele Manoli include ETH Zurich & Duke University.
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Journal ArticleDOI
Magnitude of urban heat islands largely explained by climate and population
Gabriele Manoli,Gabriele Manoli,Simone Fatichi,Markus Schläpfer,Kailiang Yu,Thomas W. Crowther,Naika Meili,Paolo Burlando,Gabriel G. Katul,Elie Bou-Zeid +9 more
TL;DR: A coarse-grained model is introduced that links population, background climate, and UHI intensity, and it is shown that urban–rural differences in evapotranspiration and convection efficiency are the main determinants of warming.
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More green and less blue water in the Alps during warmer summers
Theodoros Mastrotheodoros,Christoforos Pappas,Peter Molnar,Paolo Burlando,Gabriele Manoli,Gabriele Manoli,Juraj Parajka,Riccardo Rigon,Borbála Széles,Michele Bottazzi,Panagiotis E. Hadjidoukas,Simone Fatichi +11 more
TL;DR: In this article, the authors investigated the "drought paradox" for the European Alps using a 1,212-station database and hyper-resolution ecohydrological simulations to quantify blue (runoff) and green (evapotranspiration) water fluxes.
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Understanding climate change from a global analysis of city analogues.
Jean-François Bastin,Emily Rachel Clark,Thomas Elliott,Simon P. Hart,Johan van den Hoogen,Iris Hordijk,Haozhi Ma,Sabiha Majumder,Gabriele Manoli,Julia Maschler,Lidong Mo,Devin Routh,Kailiang Yu,Constantin M. Zohner,Thomas W. Crowther +14 more
TL;DR: The global assessment of city analogues can facilitate the understanding of climate change at a global level but also help land managers and city planners to visualize the climate futures of their respective cities, which can facilitate effective decision-making in response to on-going climate change.
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An urban ecohydrological model to quantify the effect of vegetation on urban climate and hydrology (UT&C v1.0)
Naika Meili,Gabriele Manoli,Gabriele Manoli,Paolo Burlando,Elie Bou-Zeid,Winston T. L. Chow,Andrew M. Coutts,Andrew M. Coutts,Edoardo Daly,Kerry A. Nice,Kerry A. Nice,Kerry A. Nice,Matthias Roth,Nigel J. Tapper,Nigel J. Tapper,Erik Velasco,Enrique R. Vivoni,Simone Fatichi +17 more
TL;DR: In this article, an urban ecohydrological model, Urban Tethys-Chloris (UT&C), is presented, which combines principles of ecosystem modelling with an urban canopy scheme accounting for the biophysical and ecophysiological characteristics of roof vegetation, ground vegetation and urban trees.
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The effect of plant water storage on water fluxes within the coupled soil-plant system.
C. W. Huang,Jean-Christophe Domec,Jean-Christophe Domec,Eric J. Ward,Tomer Duman,Gabriele Manoli,Anthony J. Parolari,Gabriel G. Katul +7 more
TL;DR: Considering the co-occurrence of PWS usage and HR during a single extended dry-down, a wide range of plant attributes and environmental/soil conditions selected to enhance or suppress plant drought resilience is discussed.