| Potassium in agriculture–status and perspectives C Zörb, M Senbayram, E Peiter Journal of plant physiology 171 (9), 656-669, 2014 | 1312 | 2014 |
| Salinity and crop yield C Zörb, CM Geilfus, KJ Dietz Plant biology 21, 31-38, 2019 | 760 | 2019 |
| Adaptation of H+-Pumping and Plasma Membrane H+ ATPase Activity in Proteoid Roots of White Lupin under Phosphate Deficiency F Yan, Y Zhu, C Muller, C Zörb, S Schubert Plant physiology 129 (1), 50-63, 2002 | 364 | 2002 |
| Perspective on wheat yield and quality with reduced nitrogen supply C Zörb, U Ludewig, MJ Hawkesford Trends in plant science 23 (11), 1029-1037, 2018 | 287 | 2018 |
| Drought and crop yield KJ Dietz, C Zörb, CM Geilfus Plant Biology 23 (6), 881-893, 2021 | 222 | 2021 |
| The biochemical reaction of maize (Zea mays L.) to salt stress is characterized by a mitigation of symptoms and not by a specific adaptation C Zörb, S Schmitt, A Neeb, S Karl, M Linder, S Schubert Plant Science 167 (1), 91-100, 2004 | 205 | 2004 |
| Development of salt-resistant maize hybrids: the combination of physiological strategies using conventional breeding methods S Schubert, A Neubert, A Schierholt, A Sümer, C Zörb Plant Science 177 (3), 196-202, 2009 | 200 | 2009 |
| Molecular characterization of Na+/H+ antiporters (ZmNHX) of maize (Zea mays L.) and their expression under salt stress C Zörb, A Noll, S Karl, K Leib, F Yan, S Schubert Journal of plant physiology 162 (1), 55-66, 2005 | 194 | 2005 |
| Silicon-mediated improvement in the salt resistance of wheat (Triticum aestivum) results from increased sodium exclusion and resistance to oxidative stress M Saqib, C Zörb, S Schubert Functional Plant Biology 35 (7), 633-639, 2008 | 172 | 2008 |
| Proteomic changes in maize roots after short‐term adjustment to saline growth conditions C Zörb, S Schmitt, KH Mühling Proteomics 10 (24), 4441-4449, 2010 | 158 | 2010 |
| The influence of salt stress on ABA and auxin concentrations in two maize cultivars differing in salt resistance C Zörb, CM Geilfus, KH Mühling, J Ludwig-Müller Journal of Plant Physiology 170 (2), 220-224, 2013 | 155 | 2013 |
| Metabolite Profiling of Wheat Grains (Triticum aestivum L.) from Organic and Conventional Agriculture C Zörb, G Langenkämper, T Betsche, K Niehaus, A Barsch Journal of Agricultural and Food Chemistry 54 (21), 8301-8306, 2006 | 142 | 2006 |
| Short‐term effects of salt exposure on the maize chloroplast protein pattern C Zörb, R Herbst, C Forreiter, S Schubert Proteomics 9 (17), 4209-4220, 2009 | 128 | 2009 |
| Evidence of sodium toxicity for the vegetative growth of maize (Zea mays L.) during the first phase of salt stress. A Sümer, C Zörb, YF Yan Feng, S Schubert | 127 | 2004 |
| Salt stress differentially affects growth-mediating β-expansins in resistant and sensitive maize (Zea mays L.) CM Geilfus, C Zörb, KH Mühling Plant Physiology and Biochemistry 48 (12), 993-998, 2010 | 125 | 2010 |
| Salt resistance is determined by osmotic adjustment and abscisic acid in newly developed maize hybrids in the first phase of salt stress W De Costa, C Zörb, W Hartung, S Schubert Physiologia Plantarum 131 (2), 311-321, 2007 | 116 | 2007 |
| A Link Between Citrate and Proton Release by Proteoid Roots of White Lupin (Lupinus albus L.) Grown Under Phosphorus-deficient Conditions? Y Zhu, F Yan, C Zörb, S Schubert Plant and Cell Physiology 46 (6), 892-901, 2005 | 115 | 2005 |
| Metabolic contribution to salt stress in two maize hybrids with contrasting resistance JA Richter, A Erban, J Kopka, C Zörb Plant Science 233, 107-115, 2015 | 108 | 2015 |
| The expression of the endogenous vacuolar Na+/H+ antiporters in roots and shoots correlates positively with the salt resistance of wheat (Triticum aestivum L.) M Saqib, C Zörb, Z Rengel, S Schubert Plant Science 169 (5), 959-965, 2005 | 107 | 2005 |
| Improving crop salt tolerance using transgenic approaches: An update and physiological analysis L Kotula, P Garcia Caparros, C Zörb, TD Colmer, TJ Flowers Plant, Cell & Environment 43 (12), 2932-2956, 2020 | 106 | 2020 |
