Cuticular water permeability and its physiological significance G Kerstiens Journal of Experimental Botany 47 (12), 1813-1832, 1996 | 580 | 1996 |
Diffusion of water vapour and gases across cuticles and through stomatal pores presumed closed G Kerstiens Plant cuticles: an integrated functional approach. Oxford: BIOS Scientific …, 1996 | 265* | 1996 |
Interactions between ozone and plant cuticles. II. Water permeability G Kerstiens, KJ Lendzian New Phytologist 112 (1), 21-27, 1989 | 256* | 1989 |
Current issues and uncertainties in the measurement and modelling of air–vegetation exchange and within-plant processing of POPs JL Barber, GO Thomas, G Kerstiens, KC Jones Environmental Pollution 128 (1-2), 99-138, 2004 | 242 | 2004 |
Signalling across the divide: a wider perspective of cuticular structure—function relationships G Kerstiens Trends in plant science 1 (4), 125-129, 1996 | 232 | 1996 |
Interactions between ozone and plant cuticles: I. Ozone deposition and permeability G Kerstiens, KJ Lendzian New Phytologist 112 (1), 13-19, 1989 | 231 | 1989 |
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon J Heath, E Ayres, M Possell, RD Bardgett, HIJ Black, H Grant, P Ineson, ... Science 309 (5741), 1711-1713, 2005 | 209 | 2005 |
Water transport in plant cuticles: an update G Kerstiens Journal of Experimental Botany 57 (11), 2493-2499, 2006 | 204 | 2006 |
Water permeability of plant cuticles: permeance, diffusion and partition coefficients M Becker, G Kerstiens, J Schönherr Trees 1 (1), 54-60, 1986 | 173 | 1986 |
Sorption and transport of gases and vapors in plant cuticles KJ Lendzian, G Kerstiens Reviews of environmental contamination and toxicology, 65-128, 1991 | 138 | 1991 |
Effects of elevated CO2 on leaf gas exchange in beech and oak at two levels of nutrient supply: consequences for sensitivity to drought in beech J Heath, G Kerstiens Plant, Cell & Environment 20 (1), 57-67, 1997 | 130 | 1997 |
Cuticular wax deposition in growing barley (Hordeum vulgare) leaves commences in relation to the point of emergence of epidermal cells from the sheaths of older leaves A Richardson, R Franke, G Kerstiens, M Jarvis, L Schreiber, W Fricke Planta 222 (3), 472-483, 2005 | 93 | 2005 |
Tree physiological responses to above‐ground herbivory directly modify below‐ground processes of soil carbon and nitrogen cycling E Ayres, J Heath, M Possell, HIJ Black, G Kerstiens, RD Bardgett Ecology Letters 7 (6), 469-479, 2004 | 90 | 2004 |
Meta-analysis of the interaction between shade-tolerance, light environment and growth response of woody species to elevated CO< sub> 2</sub> G Kerstiens Acta Oecologica 22 (1), 61-69, 2001 | 86 | 2001 |
Cuticular permeance in relation to wax and cutin development along the growing barley (Hordeum vulgare) leaf A Richardson, T Wojciechowski, R Franke, L Schreiber, G Kerstiens, ... Planta 225 (6), 1471-1481, 2007 | 67 | 2007 |
Study of plant-air transfer of PCBs from an evergreen shrub: Implications for mechanisms and modeling JL Barber, GO Thomas, G Kerstiens, KC Jones Environmental science & technology 37 (17), 3838-3844, 2003 | 67 | 2003 |
Sodium‐related partial stomatal closure and salt tolerance of Aster tripolium G Kerstiens, W Tych, MF Robinson, TA Mansfield New phytologist 153 (3), 509-515, 2002 | 63 | 2002 |
Investigation into the importance of the stomatal pathway in the exchange of PCBs between air and plants JL Barber, PB Kurt, GO Thomas, G Kerstiens, KC Jones Environmental science & technology 36 (20), 4282-4287, 2002 | 61 | 2002 |
The lack of control of water loss in micropropagated plants is not related to poor cuticle development JM Santamaria, G Kerstiens Physiologia Plantarum 91 (2), 191-195, 1994 | 61 | 1994 |
Response of growth and carbon allocation to elevated CO2 in young cherry (Prunus avium L.) saplings in relation to root environment G Kerstiens, CV Hawes New Phytologist 128 (4), 607-614, 1994 | 60 | 1994 |