Veröffentlichungen 

Bantis F, Früchtenicht E, Graap J, Ströll S, Reininger N, Schäfer L,
Pollastrini M, Holland V, Bussotti F, Radoglou K & Brüggemann W (2020). The JIP-test as a tool for forestry in times of climate change. Photosynthetica, 58 (SI).

Koller S, Holland V & Brüggemann W (2020). Seasonal monitoring of PSII functionality and relative chlorophyll content on a field site in two consecutive years: A case study of different oak species. Photosynthetica, 58 (SI), 194-205.

Kotrade P, Sehr EM & Brüggemann W (2019). Expression profiles of 12 drought responsive genes in two European (deciduous) oak species during a two-year drought experiment with consecutive drought periods. Plant Gene, 100193.

Madritsch S, Wischnitzki E, Kotrade P, Ashoub A, Burg A, Fluch S, Brüggemann W & Sehr EM (2019). Elucidating drought stress tolerance in European oaks through cross-species transcriptomics. G3: Genes, Genomes, Genetics, g3-400456.

Kotrade P, Sehr EM, Wischnitzki E & Brüggemann W (2019). Comparative transcriptomics-based selection of suitable reference genes for normalization of RT-qPCR experiments in drought-stressed leaves of three European Quercus species. Tree Genetics & Genoms, 15(3), 38.

Bantis F, Radoglou K & Brüggemann W (2019). Differential ecophysiological responses to seasonal drought of three co-existing oak species in northern Greece. Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology, 153(3), 378-384.

Früchtenicht E, Neumann L, Klein N & Brüggemann W (2018). Response of Quercus robur and two potential climate change winners—Quercus pubescens and Quercus ilex—To two years summer drought in a semi-controlled competition study: II— . Environmental and Experimental Botany, 152, 118-127.

Früchtenicht E, Neumann L, Klein N, Bonal D & Brüggemann W (2018). Response of Quercus robur and two potential climate change winners—Quercus pubescens and Quercus ilex—To two years summer drought in a semi-controlled competition study: I—Tree water Status. Environmental and Experimental Botany, 152, 107-117.

Ashoub A, Müller N, Jiménez‐Gómez JM & Brüggemann W (2017). Prominent alterations of wild barley leaf transcriptome in response to individual and combined drought acclimation and heat shock conditions. Physiologia plantarum, 163(1), 18-29.

Holland V, Fragner L, Jungcurt T, Weckwerth W & Brüggemann W (2016). Girdling interruption between source and sink in Quercus pubescens does not trigger leaf senescence. Photosynthetica, 1-9.

Pollastrini M, Holland V, Brüggemann W, Bruelheide H, Dănilă I, Jaroszewicz B, Valladares F & Bussotti F (2016). Taxonomic and ecological relevance of the chlorophyll a fluorescence signature of tree species in mixed European forests. New Phytologist, 212(1), 51-65.

Pollastrini M, Holland V, Brüggemann W & Bussotti F (2016). Chlorophyll a fluorescence analysis in forests. Annali di Botanica, 6, 23-37.

Ashoub A, Baeumlisberger M, Neupaertl M, Karas M & Brüggemann W (2015). Characterization of common and distinctive adjustments of wild barley leaf proteome under drought acclimation, heat stress and their combination. Plant molecular biology 87(4-5):459-471.

Bussotti F, Pollastrini M, Holland V & Brüggemann W (2015) Functional traits and adaptive capacity of European forests to climate change. Environmental and Experimental Botany 111:91-113.

Holland V, Koller S, Lukas S & Brüggemann W (2015) Drought-and frost-induced accumulation of soluble carbohydrates during accelerated senescence in Quercus pubescens. Trees. DOI 10.1007/s00468-015-1290-4.

Jedmowski C, Ashoub A, Momtaz O & Brüggemann W (2015) Impact of Drought, Heat, and Their Combination on Chlorophyll Fluorescence and Yield of Wild Barley (Hordeum spontaneum). Journal of Botany, 2015.

Jedmowski C & Brüggemann W (2015) Imaging of fast chlorophyll fluorescence induction curve (OJIP) parameters, applied in a screening study with wild barley (Hordeum spontaneum) genotypes under heat stress. Journal of Photochemistry and Photobiology B: Biology 151:153-160.

Holland V, Koller S & Brüggemann W (2014) Insight into the photosynthetic apparatus in evergreen and deciduous European oaks during autumnal senescence by using OJIP fluorescence transient analysis. Plant biology 16:801-808.

Jedmowski C, Ashoub A, Beckhaus T, Berberich T, Karas M & Brüggemann W (2014) Comparative analysis of Sorghum bicolor proteome in response to drought stress and following Recovery. International journal of proteomics. Article ID 395905: 10 pages

Jedmowski C, Bayramov S & Brüggemann W (2014) Comparative analysis of drought stress effects on photosynthesis of Eurasian and North African genotypes of wild barley. Photosynthetica 52(4):564-573.

Koller S, Jedmowski C, Kamm K & Brüggemann W (2014) The South Hesse Oak Project (SHOP): Species- and sitespecific efficiency of the photosynthetic apparatus of Mediterranean and Central European Oaks. Plant Biosystems 148:237-248.

Pollastrini M, Holland V, Brüggemann W, Koricheva J, Jussila I, Scherer-Lorenzen M, Berger S & Bussotti F (2014) Interactions and competition processes among tree species in young experimental mixed forests, assessed with chlorophyll fluorescence and leaf morphology. Plant Biology 16(2): 323-331.

Ashoub A, Beckhaus T, Berberich T, Karas M & Brüggemann W (2013): Comparative analysis of barley leaf proteome as affected by drought stress. Planta, 237: 771-781.

Baeten L,… Brüggemann W,… Holland V,… & Scherer-Lorenz M (2013) A novel comparative research platform designed to determine the functional significance of tree species diversity in European forests. Perspectives in Plant Ecology, Evolution and Systematics 15(5):281-291.

Jedmowski C, Ashoub A & Brüggemann W (2013): Reactions of Egyptian landraces of Hordeum vulgare and Sorghum bicolor to drought stress, evaluated by the OJIP fluorescence transient analysis. Acta Physiologiae Plantarum 35:345-354.

Koller S, Holland V & Brüggemann W (2013) Effects of drought stress on the evergreenQuercus ilex L., the deciduous Q. robur L. and their hybrid Q. × turneri Willd., Photosynthetica 51(4):574-582.

Alfonso SU & Brüggemann W (2012) Photosynthetic responses of a C3 and three C4 species of the genus Panicum (s.l.) with different metabolic subtypes to drought stress. Photosynthesis Research 112:175-191.

Dorow W., Lange A, Querbach A & Brüggemann W (2012): Mediterranean Oaks (Quercus spp.) and Central European Oak-feeding Lepidoptera in Southern Hesse, Germany. Entomologia Generalis 34:119-134.

Pflug E & Brüggemann W (2012) Frost-acclimation of photosynthesis in overwintering Mediterranean holm oak, grown in Central Europe. International Journal of Plant Biology 3:1-8.

Zimmermann T, Bocksberger G, Brüggemann W & Berberich T (2012) Phylogenetic relationship and molecular taxonomy of African grasses of the genus Panicum inferred from four chloroplast DNA-barcode sequences and phosphoenolpyruvate carboxylase. Journal of Plant Research 126:363–371.

Ashoub A, Berberich T, Beckhaus T & Brüggemann W (2011): A competent extraction method of plant proteins for 2-D gel electrophoresis. Electrophoresis 32:2975-2978.

Bussotti F, ... Weber D, ... & Strasser RJ (2011) Conclusive remarks. Reliability and comparability of chlorophyll fluorescence data from several field teams. Environmental and Experimental Botany 73:116–119.

Holland V & Brüggemann W (2011) Photosynthetic properties of Quercus x hispanica Lam. and Quercus suber L. under harsh Central European winter conditions. Photosynthetica 49:459-465.

Vargas GA, Brueggemann W & Bernal JA (2011) Diversidad de mariposas diurnas (Lepidoptera) del jardín Botánico de la Universidad Autónoma de Chiriquí. Puente Biológico 4:25-43.

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

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

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.

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.

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

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

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

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

Koroleva OY, Krause GH & Brüggemann W (2000) Effects of long-term chilling on xanthophyll cycle activity and non-photochemical fluorescence quenching in Lycopersicon genotypes. Journal ofPlant Physiology 156:341-349.

Rombola AD, Brüggemann W, Tagliavini M, Marangoni B & Moog PR (2000): Iron source affects Fe reduction and regreening of Kiwifruit (Actinidia deliciosa). Journal of Plant Nutrition 23:1751-1765.

Linger P & Brüggemann W (1999): Correlations between chlorophyll fluorescence quenching parameters and photosynthesis in a segregating Lycopersicon esculentum x L. peruvianum population as measured under constant conditions. Photosynthesis Research 61:145-156.

van Heusden AW, Koornneef M, Voorrips RE, Brüggemann W, Pet G, Vrielink-van Ginkel R, Chen X & Linhout P (1999) Three QTLs from Lycopersicon peruvianum confer a high level of resistance to Clavibacter michiganensis ssp. michiganensis. Theoretical and Applied Genetics 99:1068-1074.

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

Dauborn B & Brüggemann W (1998) 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. Physiologia Plantarum 104:116-124.

Moog PR (1998) Flooding tolerance of Carex species. I. Root structure. Planta 207:189-198.

Moog PR & Brüggemann W (1998) Flooding tolerance of Carex species. II. Root gas exchange. Planta 207:199-206.

Brüggemann W, Linger P, Wenner A & Koornneef M (1996) Improvement of post-chilling photosynthesis in tomato by sexual hybridisation with a Lycopersicon peruvianum accession from elevated altitude. Advances in Horticultural Science 10:215-218.

Dauborn B & Brüggemann W (1996) Genome and plastome effects on photosynthesis parameters in Oenothera species of differential low-temperature tolerance. Physiologia Plantarum 97:79-84.

Brüggemann W (1995) 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. Plant and Cell Physiology 36:733-736.

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

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

Brüggemann W & Koroleva OY (1995) Chilling sensitivity of violaxanthin deepoxidation inhibits the development of energy-dependent chlorophyll fluorescence quenching in vivo. Plant Physiology and Biochemistry 33:251-259.

Brüggemann W, Wenner A & Sakata Y (1995) 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. Plant Science 108:23-30.

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

Moog PR, van der Kooij TAW, Brüggemann W, Schiefelbein J & Kuiper PJC (1995) Responses to iron deficiency in Arabidopsis thaliana: The Turbo iron reductase does not depend on the formation of root hairs and transfer cells. Planta 195:505-513.


Kontakt

Prof. Dr. rer. nat. Wolfgang Brüggemann

Ökophysiologie der Pflanzen

Institut für Ökologie, Evolution und Diversität

Biologicum (Flügel D, 1. OG, Raum 1.420)
Campus Riedberg
Max-von-Laue-Straße 13
60438 Frankfurt am Main

E-Mail:
W.Brueggemann@bio.uni-frankfurt.de

Tel.: +49.(0)69.798.42192
Fax.: +49.(0)69.798.42001