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Geoffrey Weaver and Marc W. van Iersel

processes, which include the xanthophyll cycle and molecular rearrangement of the chlorophyll antennae and photosynthetic reaction centers ( Demmig-Adams et al., 2012 ; Horton, 2012 ; Rochaix, 2014 ; Ruban, 2015 ). Because light drives photosynthesis more

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Ritu Dhir, Richard L. Harkess, and Guihong Bi

. Abadia, A. Abadia, J. 1990 Characterization of the xanthophylls cycle and other photosynthetic pigment changes induced by iron deficiency in sugarbeet ( Beta vulgaris) Plant Physiol. 94 607 613 Morales, F. Abadia, A. Abadia, J. 1994 Iron deficiency

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William E. Klingeman, Gregory R. Armel, Henry P. Wilson, Thomas E. Hines, Jose J. Vargas, and Philip C. Flanagan

registered for POST weed control in corn and turfgrass (e.g., Amvac, 2007 ; BASF, 2013 ). Apparent as foliar photobleaching, topramezone reduces total chlorophyll, β-carotene, lutein, and other xanthophyll cycle pigments in susceptible grassy and broadleaf

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Dean A. Kopsell, J. Scott McElroy, Carl E. Sams, and David E. Kopsell

Fat soluble pigments. CRC Press, Inc Boca Raton, Fla Demmig-Adams, B. Adams W.W. III 1996 The role of xanthophyll cycle carotenoids in the protection of photosynthesis Trends Plant Sci. 1 21 26

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Vincent Martineau, Mark Lefsrud, Most Tahera Naznin, and Dean A. Kopsell

. Arvidsson, P.O. Åkerlund, H.E. 1997 The xanthophyll cycle, its regulation and components Physiol. Plant. 100 806 816 French, C.S. 1991 Action spectra of photosystems I and II scaled by comparison of their sums with absorption spectra of photosynthetic plants

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James C. Fulton, Francisco O. Holguin, Robert L. Steiner, and Mark E. Uchanski

biosynthesis changes in five red pepper ( Capsicum annuum L.) cultivars during ripening: Cultivar selection for breeding J. Agr. Food Chem. 48 3857 3864 doi: 10.1021/jf991020r Jahns, P. Holzwarth, A.R. 2012 The role of the xanthophyll cycle and

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Cui-ping Hua, Zhong-kui Xie, Zhi-jiang Wu, Yu-bao Zhang, Zhi-hong Guo, Yang Qiu, Le Wang, and Ya-jun Wang

Plant cell membrane as a marker for light-dependent and light-independent herbicide mechanisms of action Pestic. Biochem. Physiol. 101 182 190 Demmig-Adams, B. Adams, W.W. 1996 The role of xanthophyll cycle carotenoids in the protection of photosynthesis

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Tao Hu, Haiying Yi, Longxing Hu, and Jinmin Fu

sensitive pathway genes determines salinity stress tolerance in Brassica genotypes Plant Physiol. Biochem. 51 90 101 Chen, L.S. Cheng, L. 2004 CO 2 assimilation, carbohydrate metabolism, xanthophyll cycle, and the antioxidant system of ‘Honeycrisp’ apple

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Krishna S. Nemali and Marc W van Iersel

differences in g m (or photosynthetic capacity). Therefore, it may be possible to screen for high WUE by screening for a high g m . Literature Cited Adams W.W. III Demmig-Adams, B. 1992 Operation of xanthophyll cycle in

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Kathleen G. Haynes, Beverly A. Clevidence, David Rao, and Bryan T. Vinyard

in leaves ( Ben Ahmed et al., 2009 ). Low temperatures increased the ratios of lutein, neoxanthin, and xanthophyll-cycle carotenoids and decreased the ratio of β-carotene to chlorophyll a + b in leaves of corn ( Zea mays ) ( Haldimann, 1998