Last update: Apr 2019
Karin van der Wiel
www.karinvanderwiel.nl | email@example.com | +31 (0)30 2206 783
Hi, I'm Karin.
I work as a postdoctoral research scientist at the Royal Netherlands Meteorological Institute (KNMI).
My general research interests include atmospheric dynamics, atmosphere-ocean and atmosphere-land interactions, extreme events, and the impact of weather on society. Most of my research focuses on how internal climate variability and climate change might impact these topics.
With my research I hope to contribute to increasing our understanding of Earth’s weather and climate in a way that is useful for society.
Please be in contact with any questions, requests for PDFs of publications or anything else. Thank you for visiting!
Van der Wiel et al., 2017: Characteristics of colliding sea breeze gravity current fronts: a laboratory study
Sea breezes (and also land and lake breezes) develop due to differences in heating between over land and the water body. Over islands or peninsulas two sea breezes can develop and meet each other somewhere near the middle, i.e. they converge and collide. This is known to occur in many places globally. Sea breeze fronts can often be tracked by the development of cumulus clouds, at the collision line of two fronts a line of deep convection can develop. In the image above (circle) these characteristics can be seen at the land bridge between lakes Erie and Ontario.
During my summer at the Woods Hole Geophysical Fluid Dynamics program I carried out experiments in a water tank to simulate this collision. The experimental videos (one shown below) were analysed to find characteristics of the collision front.
Experimental video showing an asymmetric collision (note loud sound).
Image in circle: NASA Aqua satellite, 23 May 2012, source.
EGU conference talk
I will give an oral presentation in the 'Energy Meteorology' session at the European Geosciences Union (EGU) annual meeting in Vienna. The abstract summary can be found here.
University of Reading seminar
I will give a seminar in the University of Reading NCAS-climate science meeting.
Paper accepted for publication in Geophysical Research Letters.
A study in collaboration with Utrecht University, we show the importance and benefits of large ensembles for the investigation of hydrological extremes. Early online release here.
|xvi.||K van der Wiel, N Wanders, FM Selten, MFP Bierkens (2019): Added value of large ensemble simulations for assessing extreme river discharge in a 2 °C warmer world. Geophysical Research Letters, 46, pp. 2093-2102. |
|xv.||S Philip, S Sparrow, SF Kew, K van der Wiel, N Wanders, R Singh, A Hassan, K Mohammed, H Javid, K Haustein, FEL Otto, F Hirpa, RH Rimi, AKM Saiful Islam, DCH Wallom, and GJ van Oldenborgh (2019): Attributing the 2017 Bangladesh floods from meteorological and hydrological perspectives. Hydrology and Earth System Sciences, 23, pp. 1409-1429. Highlighted article. |
|xiv.||K van der Wiel, SB Kapnick, GA Vecchi, JA Smith, PCD Milly, L Jia (2018): 100-year Lower Mississippi floods in a global climate model: characteristics and future changes. Journal of Hydrometeorology, 19, pp. 1547-1563. |
|xiii.||L Krishnamurthy, GA Vecchi, X Yang, K van der Wiel, V Balaji, SB Kapnick, L Jia, F Zeng, K Paffendorf, S Underwood (2018): Causes and probability of occurrence of extreme precipitation events like Chennai 2015. Journal of Climate, 31, pp. 3831–3848. |
|xii.||FEL Otto, K van der Wiel, GJ van Oldenborgh, S Philip, S Kew, P Uhe, H Cullen (2018): Climate change increases the probability of heavy rains in Northern England/Southern Scotland like those of storm Desmond - a real-time event attribution revisited. Environmental Research Letters, 13, pp. 024006. |
|xi.|| GJ van Oldenborgh, K van der Wiel, A Sebastian, R Singh, J Arrighi, FEL Otto, K Haustein, S Li, GA Vecchi, H Cullen (2017): Attribution of extreme rainfall from Hurricane Harvey, August 2017. Environmental Research Letters, 12, pp. 124009. Featured article. |
|x.||K van der Wiel, ST Gille, SG Llewellyn Smith, PF Linden, C Cenedese (2017): Characteristics of colliding sea breeze gravity current fronts: a laboratory study. Quarterly Journal of the Royal Meteorological Society, 143, pp. 1434-1441. |
|ix.||K van der Wiel, SB Kapnick, GJ van Oldenborgh, K Whan, S Philip, GA Vecchi, RK Singh, J Arrighi, H Cullen (2017): Rapid attribution of the August 2016 flood-inducing extreme precipitation in south Louisiana to climate change. Hydrology and Earth System Sciences, 21, pp. 897-921. Highlighted article. |
|viii.||K van der Wiel, SB Kapnick, GA Vecchi (2017): Shifting patterns of mild weather in response to projected radiative forcing. Climatic Change, 140, pp. 649-658. |
|vii.||K van der Wiel, SB Kapnick, GA Vecchi, WF Cooke, TL Delworth, L Jia, H Murakami, S Underwood, F Zeng (2016): The resolution dependence of contiguous U.S. precipitation extremes in response to CO2 forcing. Journal of Climate, 29, pp. 7991-8012. |
|vi.||MA Stiller-Reeve, C Heuzé, WT Ball, RH White, G Messori, K van der Wiel, I Medhaug, AH Eckes, A O'Callaghan, MJ Newland, SR Williams, M Kasoar, HE Wittmeier and V Kumer (2016): Improving together: better science writing through peer learning. Hydrology and Earth System Science, 20, pp. 2965-2973. |
|v.||K van der Wiel, AJ Matthews, MM Joshi, DP Stevens (2016): The influence of diabatic heating in the South Pacific Convergence Zone on Rossby wave propagation and the mean flow. Quarterly Journal of the Royal Meteorological Society, 142, pp. 901-910. |
|iv.||K van der Wiel, AJ Matthews, MM Joshi, DP Stevens (2016): Why the South Pacific Convergence Zone is diagonal. Climate Dynamics, 46, pp. 1683-1698. |
|iii.||K van der Wiel, AJ Matthews, DP Stevens, MM Joshi (2015): A dynamical framework for the origin of the diagonal South Pacific and South Atlantic Convergence Zones. Quarterly Journal of the Royal Meteorological Society, 141, pp. 1997-2010. Featured article. |
|ii.||MM Joshi, M Stringer, K van der Wiel, A O'Callaghan, S Fueglistaler (2015): IGCM4: A fast, parallel and flexible intermediate climate model. Geoscientific Model Development, 8, pp. 1157-1167. |
|i.||W Hazeleger, X Wang, C Severijns, S Ştefănescu, R Bintanja, A Sterl, K Wyser, T Semmler, S Yang, B van den Hurk, T van Noije, E van der Linden, K van der Wiel (2012): EC-Earth V2.2: description and validation of a new seamless earth system prediction model. Climate Dynamics, 39, pp. 2611-2629. |
A pdf-version of my C.V. is available here.