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Kaisa Västilä
Kaisa Västilä
Postdoctoral Researcher, Aalto University (Senior Research Scientist, Finnish Environment Institute)
Verified email at aalto.fi - Homepage
Title
Cited by
Cited by
Year
Modelling climate change impacts on the flood pulse in the Lower Mekong floodplains
K Västilä, M Kummu, C Sangmanee, S Chinvanno
Journal of Water and Climate Change Vol 1 (1), 67-86, 2010
1852010
Climate change and water resources in the Lower Mekong River Basin: putting adaptation into the context
M Keskinen, S Chinvanno, M Kummu, P Nuorteva, A Snidvongs, O Varis, ...
Journal of water and climate change 1 (2), 103-117, 2010
1312010
Modeling the flow resistance of woody vegetation using physically based properties of the foliage and stem
K Västilä, J Järvelä
Water Resources Research 50 (1), 229-245, 2014
1132014
How vegetation can aid in coping with river management challenges: A brief review
PM Rowiński, K Västilä, J Aberle, J Järvelä, MB Kalinowska
Ecohydrology & Hydrobiology 18 (4), 345-354, 2018
892018
Turbulence at water-vegetation interface in open channel flow: Experiments with natural-like plants
G Caroppi, K Västilä, J Järvelä, PM Rowiński, M Giugni
Advances in water resources 127, 180-191, 2019
772019
Characterizing natural riparian vegetation for modeling of flow and suspended sediment transport
K Västilä, J Järvelä
Journal of Soils and Sediments 18, 3114-3130, 2018
742018
Characteristic reference areas for estimating flow resistance of natural foliated vegetation
K Västilä, J Järvelä, J Aberle
Journal of Hydrology 492, 49-60, 2013
732013
Flow resistance of floodplain vegetation mixtures for modelling river flows
W Box, J Järvelä, K Västilä
Journal of Hydrology 601, 126593, 2021
522021
Flow–vegetation–sediment interaction in a cohesive compound channel
K Västilä, J Järvelä, H Koivusalo
Journal of Hydraulic Engineering 142 (1), 04015034, 2016
472016
Comparison of Flexible and Rigid Vegetation Induced Shear Layers in Partly Vegetated Channels
G Caroppi, K Västilä, P Gualtieri, J Järvelä, M Giugni, PM Rowiński
Water Resources Research, e2020WR028243, 2021
442021
Environmentally preferable two-stage drainage channels: considerations for cohesive sediments and conveyance
K Västilä, J Järvelä
International Journal of River Basin Management 9 (3-4), 171-180, 2011
232011
Flow and wake characteristics associated with riparian vegetation patches: Results from field‐scale experiments
G Caroppi, K Västilä, J Järvelä, C Lee, U Ji, HS Kim, S Kim
Hydrological Processes 36 (2), e14506, 2022
212022
Agricultural Water Management Using Two-Stage Channels: Performance and Policy Recommendations Based on Northern European Experiences
K Västilä, S Väisänen, J Koskiaho, V Lehtoranta, K Karttunen, ...
Sustainability 13 (16), 9349, 2021
202021
The Interplay between Flow Field, Suspended Sediment Concentration, and Net Deposition in a Channel with Flexible Bank Vegetation
W Box, K Västilä, J Järvelä
Water 11 (11), 2250, 2019
172019
Vegetative drag in natural, foliated plant stands
K Västilä, J Järvelä, J Aberle, T Schoneboom
Proceedings of 34th IAHR World Congress, 26.6.-1.7.2011, Brisbane, Australia …, 2011
172011
Water and climate change in the lower Mekong basin: diagnosis and recommendations for adaptation
SEASRC TKK
Water and Development Research Group, Helsinki University of Technology (TKK …, 2009
17*2009
Flow field downstream of individual aquatic plants–experiments in a natural river with Potamogeton crispus L. and Myriophyllum spicatum L.
Ł Przyborowski, AM Łoboda, RJ Bialik, K Västilä
Hydrological Processes, 2019
142019
Predicting discharge capacity of vegetated compound channels: uncertainty and identifiability of one-dimensional process-based models
A Kiczko, K Västilä, A Kozioł, J Kubrak, E Kubrak, M Krukowski
Hydrology and Earth System Sciences 24 (8), 4135-4167, 2020
112020
Acoustic Doppler velocimetry (ADV) data on flow-vegetation interaction with natural-like and rigid model plants in hydraulic flumes
G Caroppi, K Västilä, P Gualtieri, J Järvelä, M Giugni, PM Rowiński
Data in brief 32, 106080, 2020
102020
Flow–plant–sediment interactions: Vegetative resistance modeling and cohesive sediment processes. Doctoral thesis.
K Västilä
http://urn.fi/URN:ISBN:978-952-60-6597-7, 2015
9*2015
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