Publikationen

10. Bussotti F, Pollastrini M, Cascio C, Desotgiu R, Gerosa G, Marzuoli R, Nali C, Lorenzini G, Pellegrini E, Carucci MG, Salvatori E_, Fusaro L, Piccotto M, Malaspina P, Manfredi A, Roccotello E, Toscano S, Gottardini E, Cristofori A, Fini A, Weber D, Baldassarre V, Barbanti L, Monti A, Strasser RJ (2011) Conclusive remarks. Reliability and comparability of chlorophyll fluorescence data from several field teams. Exp. Env. Bot. – in press -

Dias MC, Brüggemann W (2010) Water-use efficiency in Flaveria species under drought-stress conditions. Photosynthetica 48: 469-473.

Dias MC, Brüggemann W (2010) Limitations of photosynthesis inPhaseolus vulgarisunder drought stress: Gas exchange, Chlorophyll fluorescence and Calvin cycle enzymes. Photosynthetica 48: 96-102.

Gerhardt M, Schneider S, Brüggemann W (2009) Physiological acclimation to light in Chara intermedia nodes. Aquatic Bot. 91: 151-156.

Brüggemann W, Bergmann M, Nierbauer K-U, Pflug E, Schmidt C, Weber D (2009): Photosynthesis studies on European evergreen and deciduous oaks grown under Central European climate conditions. II. Photoinhibitory and light-independent Violaxanthin deepoxidation and downregulation of photosystem II in evergreen, winter-acclimated European Quercus taxa.  Trees. 23: 1091-1100.

Both H, Brüggemann W (2009): Photosynthesis studies on European evergreen and deciduous oaks grown under Central European climate conditions. I. A case study of leaf development and seasonal variation of photosynthetic capacity in Quercus robur (L.), Q. ilex (L.) and their semideciduous hybrid, Q. x turneri (Willd.). Trees. 23: 1081-1090.

Dias MC, Brüggemann W: Differential inhibition of photosynthesis under drought stress in Flaveria species with different degrees of development of the C4 syndrome . In: Photosynthetica 45 (2007), S. 25-35.

Beyel V, Brüggemann W: Differential inhibition of photosynthesis during pre-flowering drought stress in Sorghum bicolor genotypes with different senescence traits . In: Physiologia Plantarum 124 (2005), S. 249-259.

Venema JH, Linger P, van Heusden PR, van Hasselt PR, Brüggemann, W: The inheritance of chilling tolerance in tomato (Lycopersicon spp.) . In: Plant Biology 7 (2005), Nr. 2, S. 118-130.

Koroleva OY, Krause GH, Brüggemann W: Effects of long-term chilling on xanthophyll cycle activity and non-photochemical fluorescence quenching in Lycopersicon genotypes. . In: J.Plant Physiol. 156 (2000), S. 341-349.

Rombola AD, Brüggemann W, Tagliavini M, Marangoni B, Moog PR: Iron source affects Fe reduction and regreening of Kiwifruit (Actinidia deliciosa). . In: J. Plant Nutr. (2000), S. 0

Linger, P., Brüggemann, Wolfgang: Correlations between chlorophyll fluorescence quenching parameters and photosynthesis in a segregating Lycopersicon esculentum x L. peruvianum population as measured under constant conditions. . In: Photosynth. Res. 61 (1999), S. 145-156

van Heusden, A.W. ; Koornneef, M. ; Voorrips, R.E. ; Brüggemann, Wolfgang ; Pet, G. ; Vrielink-van Ginkel, R. ; Chen, X. ; Linhout, P.: Three QTLs from Lycopersicon peruvianum confer a high level of resistance to Clavibacter michiganensis ssp. michiganensis. . In: Theor. Appl. Genet. 99 (1999), S. 1068-1074

Dauborn, B. ; Brüggemann, Wolfgang: A spontaneous point mutation in the Rubisco large subunit gene impairing holoenzyme assembly renders the IVb plastome mutant of Oenothera elata ssp. hookeri extremely light- and chilling sensitive. . In: Physiol. Plant. 104 (1998), S. 116-124

Brüggemann, Wolfgang ; Beyel, V. ; Brodka, M. ; Poth, H. ; Weil, M. ; Stockhaus, J.: Antioxidants and antioxidative enzymes in wild-type and transgenic Lycopersicon genotypes of different chilling tolerance. . In: Plant Sci. 140 (1998), S. 145-154

Moog, P.R. ; Brüggemann, Wolfgang: Flooding tolerance of Carex species. II. Root gas exchange. . In: Planta 207 (1998), S. 199-206

Dauborn, B. ; Brüggemann, Wolfgang: Genome and plastome effects on photosynthesis parameters in Oenothera species of differential low-temperature tolerance. . In: Physiol. Plant. 97 (1996), S. 79-84

Brüggemann, Wolfgang ; Linger, P. ; Wenner, A. ; Koornneef, M.: Improvement of post-chilling photosynthesis in tomato by sexual hybridisation with a Lycopersicon peruvianum accession from elevated altitude. . In: Adv. Horticult. Sci. 10 (1996), S. 215-218

Brüggemann, Wolfgang ; Dauborn, B. ; Klaucke, S. ; Linger, P. ; Maas-Kantel, K. ; Wenner, A.: Chilling sensitivity of photosynthesis: Ecophysiological studies in two Lycopersicon species of different chilling tolerance. . In: Acta Physiol. Plant 17 (1995), S. 113-122

Brüggemann, Wolfgang ; Linger, P. ; Maas-Kantel, K.: Chilling sensitivity of photosynthesis: Evidence for differential oxidative stress in two Lycopersicon species of different chilling tolerance . In: Mathis, P. (Hrsg.) : Proc. Xth Intl. Congress on Photosynthesis. Bd. IV. Dordrecht Netherlands : Kluwer Academic Publ.,, 1995, S. 829-832.

Brüggemann, Wolfgang ; Koroleva, O.Y.: Chilling sensitivity of violaxanthin deepoxidation inhibits the development of energy-dependent chlorophyll fluorescence quenching in vivo. . In: Plant Physiol. Biochem. 33 (1995), S. 251-259

Brüggemann, Wolfgang ; Wolter, F.: Decrease of energy-dependent quenching, but no major changes of photosynthesis parameters in Arabidopsis thaliana with genetically engineered phosphatidyl glycerol composition. . In: Plant Sci. 108 (1995), S. 13-21

Brüggemann, Wolfgang: Long-term chilling of young tomato plants under low light. VI. Differential chilling sensitivity of ribulose-1,5-bisphosphate carboxylase / oxygenase is linked to the oxidation of cystein residues. . In: Plant Cell Physiol. 36 (1995), S. 733-736

Brüggemann, Wolfgang ; Wenner, A. ; Sakata, Y.: Long-term chilling of young tomato plants under low light. VII. Increasing chilling tolerance of photosynthesis in Lycopersicon esculentum by somatic hybridization with L. peruvianum. . In: Plant Sci. 108 (1995), S. 23-30

Moog, P. R. ; van der Kooij, T.A.W. ; Brüggemann, Wolfgang ; Schiefelbein, J. ; Kuiper, P.J.C.: Responses to iron deficiency in Arabidopsis thaliana: The Turbo iron reductase does not depend on the formation of root hairs and transfer cells . In: Planta 195 (1995), S. 505-513

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