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1.	Braisch, U, et al. (author) Identification of symbol digit modality test score extremes in Huntington's disease 2019 In: American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics. - : Wiley. - 1552-485X .- 1552-4841. ; 180:3, s. 232-245 Journal article (peer-reviewed)
2.	Wang-Erlandsson, Lan, et al. (author) Global root zone storage capacity from satellite-based evaporation 2016 In: Hydrology and Earth System Sciences. - : Copernicus GmbH. - 1027-5606 .- 1607-7938. ; 20:4, s. 1459-1481 Journal article (peer-reviewed)abstract This study presents an "Earth observation-based" method for estimating root zone storage capacity – a critical, yet uncertain parameter in hydrological and land surface modelling. By assuming that vegetation optimises its root zone storage capacity to bridge critical dry periods, we were able to use state-of-the-art satellite-based evaporation data computed with independent energy balance equations to derive gridded root zone storage capacity at global scale. This approach does not require soil or vegetation information, is model independent, and is in principle scale independent. In contrast to a traditional look-up table approach, our method captures the variability in root zone storage capacity within land cover types, including in rainforests where direct measurements of root depths otherwise are scarce. Implementing the estimated root zone storage capacity in the global hydrological model STEAM (Simple Terrestrial Evaporation to Atmosphere Model) improved evaporation simulation overall, and in particular during the least evaporating months in sub-humid to humid regions with moderate to high seasonality. Our results suggest that several forest types are able to create a large storage to buffer for severe droughts (with a very long return period), in contrast to, for example, savannahs and woody savannahs (medium length return period), as well as grasslands, shrublands, and croplands (very short return period). The presented method to estimate root zone storage capacity eliminates the need for poor resolution soil and rooting depth data that form a limitation for achieving progress in the global land surface modelling community.

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Type of publication: journal article (2)

Type of content: peer-reviewed (2)

Author/Editor: Owen, M. (1); Petersen, J. (1); Taylor, C. (1); Gonzalez, S. (1); Haider, S. (1); Pierre, M. (1); show more...; Hare, M. (1); Jones, M. (1); Schmidt, A. (1); Martin, A. (1); Jung, H. (1); Tan, L. (1); Davies, R (1); Schmidt, S. (1); Svenningsson, P (1); Marder, K (1); Pagonabarraga, J (1); Poewe, W (1); Adams, J. (1); Hoffmann, R. (1); Robertson, S. (1); Schneider, A. (1); Wood, J. (1); Edwards, M. (1); Jones, R. (1); Kumar, R. (1); Taylor, R. (1); Ross, C (1); Peterson, M. (1); Williams, J (1); Thompson, J. (1); Rothenbacher, D (1); Garcia, A. (1); Weindl, A. (1); Coleman, A. (1); Edwards, R (1); Roth, J. (1); Padovani, A (1); Frost, J. (1); Marshall, F. (1); Hughes, M (1); Wright, J (1); Wojcik, M. (1); Barton, S (1); Peter, M. (1); Sanchez-Ramos, J. (1); Gonzalez, A. (1); Clayton, C. (1); Barth, K. (1); Benoît, A. (1); show less...

University: Uppsala University (1); Stockholm University (1); Karolinska Institutet (1)

Language: English (2)

Research subject (UKÄ/SCB): Natural sciences (1); Medical and Health Sciences (1)

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