Bag P, Chukhutsina V, Zhang Z, Paul S, Ivanov AG, Shutova T, Croce R, Holzwarth AR, Jansson S (2020) Direct energy transfer from photosystem II to photosystem I confers winter sustainability in Scots Pine. Nature Communications 11: 6388

Ostroumov EE, Götze JP, Reus M, Lambrev PH, Holzwarth AR (2020) Characterization of fluorescent chlorophyll charge-transfer states as intermediates in the excited state quenching of light-harvesting complex II. Photosynth Res 1-23

Pawlak K, Paul S, Liu C, Reus M, Yang C, Holzwarth AR (2020) On the PsbS-induced quenching in the plant major light-harvesting complex LHCII studied in proteoliposomes. Photosynth Res 1-14

Chukhutsina VU, Holzwarth AR, Croce R (2019) Time-resolved fluorescence measurements on leaves: principles and recent developments. Photosynth Res.: 140, 355-369

Lambrev PH, Nilkens M, Miloslavina Y, Jahns P, Holzwarth AR (2010) Kinetic and spectral resolution of multiple nonphotochemical quenching components in Arabidopsis leaves. Plant Physiol 152: 1611-1624

Holzwarth AR, Lenk D, Jahns P (2013) On the analysis of non-photochemical chlorophyll fluorescence quenching curves. I. Theoretical considerations. Biochim Biophys Acta,Bioenerg 1827: 786-792

Nilkens M, Kress E, Lambrev P, Miloslavina Y, Müller M, Holzwarth AR, Jahns P (2010) Identification of a slowly inducible zeaxanthin-dependent component of non-photochemical quenching of chlorophyll fluorescence generated under steady-state conditions in Arabidopsis. Biochim Biophys Acta-Bioenergetics 1797: 466-475

Holzwarth AR, Miloslavina Y, Nilkens M, Jahns P (2009) Identification of two quenching sites active in the regulation of photosynthetic light-harvesting studied by time-resolved fluorescence. Chem Phys Lett 483: 262-267

Miloslavina Y, Wehner A, Wientjes E, Reus M, Lambrev P, Garab G, Croce R, Holzwarth AR (2008) Far-red fluorescence: A direct spectroscopic marker for LHCII oligomers forming in non-photochemical quenching. FEBS Lett 582: 3625-3631

Slavov C, Reus M, Holzwarth AR (2013) Two different mechanisms cooperate in the desiccation-induced excited state quenching in Parmelia lichen. The journal of physical chemistry B 117: 11326-11336

Jahns P, Holzwarth AR (2012) The role of the xanthophyll cycle and of lutein in photoprotection of photosystem II. Biochim Biophys Acta, Bioenerg 1817: 182-193

Lambrev PH, Miloslavina Y, Jahns P, Holzwarth AR (2012) On the relationship between non-photochemical quenching and photoprotection of photosystem II. Biochim Biophys Acta, Bioenerg 1817: 760-769

Tian L, Xu P, Chukhutsina VU, Holzwarth AR, Croce R (2017) Zeaxanthin-dependent nonphotochemical quenching does not occur in photosystem I in the higher plant Arabidopsis thaliana. Proc Natl Acad Sci U S A 114: 4828-4832

Liu C, Gao Z, Liu K, Sun R, Cui C, Holzwarth AR, Yang C (2016) Simultaneous refolding of denatured PsbS and reconstitution with LHCII into liposomes of thylakoid lipids. Photosynth Res 127: 109-116

Slavov CL, Schrameyer V, Reus M, Ralston ML, Hill R, Büchel C, Larkum AWD, Holzwarth AR. “Super-quenching” state protects Symbiodinium from thermal stress — Implications for coral bleaching. Biochim.Biophys.Acta 1857, 840-847. 2016.

Holzwarth AR, Jahns P (2014) Non-photochemical quenching mechanisms in intact organisms as derived from ultrafast-fluorescence kinetic studies. In B Demmig-Adams, G Garab, WWI Adams, Govindjee, eds, Non-Photochemical Quenching and Thermal Energy Dissipation In Plants, Algae and Cyanobacteria Vol 40. Springer, Dordrecht, pp 129-156

Kell A, Feng X, Lin C, Reus M, Holzwarth AR, Jankowiak R (2014) On the charge-transfer character of the low-energy Chl a Qy absorption band in aggregated LHCII pigmentprotein complexes. J Phys Chem B 118: 6086-6091

Schansker G, Toth SZ, Kovacs L, Holzwarth AR, Garab G (2011) Evidence for a fluorescence yield change driven by a light-induced conformational change within photosystem II during the fast chlorophyll a fluorescence rise. Biochim Biophys Acta 1807: 1032-1043

Schansker G, Tóth SZ, Holzwarth AR, Garab G (2013) Chlorophyll a fluorescence: beyond the limits of the QA model. Photosynth Res DOI: 10.1007/s11120-013-9806-5: