Authors:
PAAKKONEN E
GUNTHARDTGOERG MS
HOLOPAINEN T
Citation: E. Paakkonen et al., RESPONSES OF LEAF PROCESSES IN A SENSITIVE BIRCH (BETULA-PENDULA ROTH) CLONE TO OZONE COMBINED WITH DROUGHT, Annals of botany (Print), 82(1), 1998, pp. 49-59
Authors:
EGLI P
MAURER S
GUNTHARDTGOERG MS
KORNER C
Citation: P. Egli et al., EFFECTS OF ELEVATED CO2 AND SOIL QUALITY ON LEAF GAS-EXCHANGE AND ABOVEGROUND GROWTH IN BEECH-SPRUCE MODEL-ECOSYSTEMS, New phytologist, 140(2), 1998, pp. 185-196
Authors:
MAURER S
MATYSSEK R
GUNTHARDTGOERG MS
LANDOLT W
EINIG W
Citation: S. Maurer et al., NUTRITION AND THE OZONE SENSITIVITY OF BIRCH (BETULA-PENDULA) .1. RESPONSES AT THE LEAF LEVEL, Trees, 12(1), 1997, pp. 1-10
Authors:
GUNTHARDTGOERG MS
MCQUATTIE CJ
SCHEIDEGGER C
RHINER C
MATYSSEK R
Citation: Ms. Gunthardtgoerg et al., OZONE-INDUCED CYTOCHEMICAL AND ULTRASTRUCTURAL-CHANGES IN LEAF MESOPHYLL CELL-WALLS, Canadian journal of forest research, 27(4), 1997, pp. 453-463
Authors:
LANDOLT W
GUNTHARDTGOERG MS
PFENNINGER I
EINIG W
HAMPP R
MAURER S
MATYSSEK R
Citation: W. Landolt et al., EFFECT OF FERTILIZATION ON OZONE-INDUCED CHANGES IN THE METABOLISM OFBIRCH (BETULA-PENDULA) LEAVES, New phytologist, 137(3), 1997, pp. 389-397
Citation: Ms. Gunthardtgoerg, DIFFERENT RESPONSES TO OZONE OF TOBACCO, POPLAR, BIRCH, AND ALDER, Journal of plant physiology, 148(1-2), 1996, pp. 207-214
Authors:
GUNTHARDTGOERG MS
SCHMUTZ P
MATYSSEK R
BUCHER JB
Citation: Ms. Gunthardtgoerg et al., LEAF AND STEM STRUCTURE OF POPLAR (POPULUS X EURAMERICANA) AS INFLUENCED BY O-3, NO2, THEIR COMBINATION, AND DIFFERENT SOIL N SUPPLIES, Canadian journal of forest research, 26(4), 1996, pp. 649-657
Authors:
FREY B
SCHEIDEGGER C
GUNTHARDTGOERG MS
MATYSSEK R
Citation: B. Frey et al., THE EFFECTS OF OZONE AND NUTRIENT SUPPLY ON STOMATAL RESPONSE IN BIRCH (BETULA-PENDULA) LEAVES AS DETERMINED BY DIGITAL AS IMAGE-ANALYSIS AND X-RAY-MICROANALYSIS, New phytologist, 132(1), 1996, pp. 135-143
Authors:
SCHMUTZ P
BUCHER JB
GUNTHARDTGOERG MS
TARJAN D
LANDOLT W
Citation: P. Schmutz et al., RESPONSE OF POPLAR TO OZONE ALONE AND IN COMBINATION WITH NO2 AT DIFFERENT NITROGEN-FERTILIZATION LEVELS, Phyton, 35(2), 1995, pp. 269-289