Reporter:  Sergey Shabala

Professor and Head, Stress Physiology Laboratory

University of Tasmania

Email: sergey.shabala@utas.edu.au

Time：2019年5月29日（星期三）   上午10:00

Adress：生命科学技术学院树华多功能厅

Contacts：张大兵

Background：

Professor Sergey Shabala is a Distinguished Professor and Director of the International Research Centre for Environmental Membrane Biology at Foshan University and a Head of the Stress Physiology Research Laboratory at the University of Tasmania in Australia. He is a former President of the Australian Society of Plant Scientists and a current Editor in Chief for Functional Plant Biology. His area of expertise is stress physiology and membrane transport in plants. His work is aimed at revealing and quantifying the role of specific ion transporters in plant adaptive responses to salinity, waterlogging, osmotic stress, chilling, acidity, elicitors and oxidative stress, as well as to understand the signalling cascades mediating plant-environment interactions. Over his research career, Prof Shabala has published over 270 peer-reviewed papers and successfully supervised to completion 34 PhD students. He is ISI Highly Cited researcher and most cited Australian Plant Biologist in the last 5 years. His work has been cited 17,000 times, and his H-index = 70. He is a member of editorial boards of 12 international journals, and he holds a title of the Visiting or Distinguished Professor in four overseas universities.  

References：

Bazihizina N, Colmer TD, Cuin TA, Mancuso S, Shabala S (2019) Friend or foe? Chloride patterning in halophytes. Trends Plant Sci 24 (2):142-151.

Hedrich R, Shabala S (2018) Stomata in a saline world. Current Opinion in Plant Biology 46: 87–95

Gill MB, Zeng FR, Shabala L, Bohm J, Zhang GP, Zhou MX, Shabala S (2018) The ability to regulate voltage-gated K⁺-permeable channels in the mature root epidermis is essential for waterlogging tolerance in barley. J Exp Botany 69: 667-680.

Wu H, Shabala L, Azzarello E, Huang Y, Pandolfi C, Su N, Wu Q, Cai S, Bazihizina N, Wang L, Zhou M, Mancuso S, Chen Z, Shabala S (2018) Na⁺ extrusion from the cytosol and tissue-specific Na⁺ sequestration in roots confer differential salt stress tolerance between durum and bread wheat. J Exp Bot 69: 3987-4001

Kiani-Pouya A, Roessner U, Jayasinghe NS, Lutz A, Rupasinghe T, Bazihizina N, Bohm J, Alharbi S, Hedrich R, Shabala S (2017) Epidermal bladder cells confer salinity stress tolerance in the halophyte quinoa and Atriplex species. Plant Cell Environ 40: 1900-1915

Wang F, Chen ZH, Shabala S (2017) Hypoxia sensing in plants: on a quest for ion channels as putative oxygen sensors. Plant Cell Physiol 58: 1126-1142

Azhar N, Su N, Shabala L, Shabala S (2017) Exogenously applied 24-epibrassinolide (EBL) ameliorates detrimental effects of salinity by reducing K⁺ efflux via depolarization-activated K⁺ channels. Plant Cell Physiol 58: 802-810.

Zhu M, Zhou M, Shabala L, Shabala S (2017) Physiological and molecular mechanisms mediating xylem Na⁺ loading in barley in the context of salinity stress tolerance. Plant Cell Environ 40: 1009-1020

Wang F, Chen ZH, Liu X, Colmer TD, Shabala L, Salih A, Zhou M, Shabala S (2017) Revealing the roles of GORK channels and NADPH oxidase in acclimation to hypoxia in Arabidopsis. J Exp Botany 68: 3191-3204

Shabala L, Zhang J, Pottosin II, Bose J, Zhu M, Fuglsang AT, Velarde-Buendia A, Massart A, Hill CB, Roessner U, Bacic A, Wu H, Azzarello E, Pandolfi C, Zhou M, Poschenrieder C, Mancuso S, Shabala S (2016) Cell-type specific H⁺-ATPase activity enables root K⁺ retention and mediates acclimation to salinity. Plant Physiology 172: 2445-2458

Pottosin I, Shabala S (2016) Transport across chloroplast membranes: optimizing photosynthesis for adverse environmental conditions. Molecular Plant 9: 356-370

Shabala S, Bose J, Fuglsang AT, Pottosin I (2016) On a quest for stress tolerance genes: membrane transporters in sensing and adapting to hostile soils. J Exp Botany 67: 1015-1031

Wang F, Chen ZH, Liu X, Colmer TD, Zhou M, Shabala S (2016) Tissue-specific root ion profiling reveals essential roles of the CAX and ACA calcium transport systems for hypoxia response in Arabidopsis. J Exp Botany 67: 3747-3762

Zhu M, Shabala L, Cuin TA, Huang X, Zhou M, Munns R, Shabala S (2016) Nax loci affect SOS1-like Na⁺/H⁺ exchanger expression and activity in wheat. J Exp Botany 67: 835-844

Ma Y, Zhu M, Shabala L, Zhou M, Shabala S (2016) Roots conditioning with hypoxia increase aluminium and acid stress tolerance by mitigating activation of K⁺ efflux channels by ROS in barley: insights into cross-tolerance mechanisms. Plant Cell Physiol 57:160-73

Chakraborty K, Bose J, Shabala L, Shabala S (2016) Difference in root K⁺ retention ability and reduced sensitivity of K⁺-permeable channels to reactive oxygen species confer differential salt tolerance in three Brassica species. J Exp Botany 67: 4611-4625

Shabala S, Bose J, Hedrich R (2014) Salt bladders: do the matter? Trends Plant Sci 19: 687-691

Panta S, Flowers T, Lane P, Doyle R, Haros G, Shabala S (2014) Halophyte agriculture: Success stories. Env Exp Bot 107:71-83

Pottosin I, Velarde-Buendía AM, Bose J, Fuglsang AT, Shabala S (2014) Polyamines cause plasma membrane depolarization, activate Ca-, and modulate H-ATPase pump activity in pea roots. J Exp Bot 65: 2463-2472