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[125] Allen, D. J, & Ort, D. R. Impacts of chilling temperatures on photosynthesis in warm-
climate plants. Trends in Plant Science (2001). , 6, 36-42.
[126] Strand, A, Foyer, C. H, Gustafsson, P, & Hurry, V. Increased expression of sucrose-
phosphate synthase in transgenic Arabidopsis thaliana results in improved photosyn‐
thetic performance and increased freezing tolerance al low temperatures. Plant, Call &
Environment (2003). , 26, 523-535.
[127] Yordanova, R, & Popova, L. Effect of exogenous treatment with salicylic acid on
photosynthetic activity and antioxidant capacity of chilled wheat plants. General and
Applied Plant Physiology (2007). , 33, 155-170.
[128] Ramalho, J. C, Quartin, V. L, Leitão, E, & Campos, P. S. Carelli MLC, Fahl JI, Nunes
MA. Cold acclimation ability and photosynthesis among species of the tropical Coffea
genus. Plant Biology (2003). , 5, 631-641.
[129] Silva, E. A, Damatta, F. M, Ducatti, C, Regazzi, A. J, & Barros, R. S. Seasonal changes
in vegetative growth and photosynthesis of Arabica coffee trees. Field Crops Research
(2004).
[130] Partelli, F. L, Vieira, H. D, & Viana, A. P. Batista-Santos P, Rodrigues AP, Leitão AE,
Ramalho JC. Low temperature impact on photosynthetic parameters of coffee geno‐
types. Pesquisa Agropecuária Brasileira (2009). , 44, 1404-1415.
[131] Aghaee, A, Moradi, F, Zare-maivan, H, Zarinkamar, F, Irandoost, H. P, & Sharifi, P.
Physiological responses of two rice ( Oryza sativa L.) genotypes to chilling stress at
seedling stage. African Journal of Biotechnology (2011). , 10, 7617-7621.
[132] Salinas, J. Molecular mechanisms of signal transduction in cold acclimation. In: Scheel
D, Wasternack C (eds) Plant signal transduction. London: Oxford University Press;
(2002). , 116-139.
[133] Mahajan, S, & Tuteja, N. Cold, salinity and drought stresses: An overview. Archives of
Biochemistry and Biophysics (2005). , 444, 139-158.
[134] Yadav, S. K. Cold stress tolerance mechanisms in plants. A review. Agronomy for
Sustainable Development (2010). , 30, 515-527.
[135] Thomashow, M. F. Plant cold acclimation: freezing tolerance genes and regulatory
mechanisms. Annual Review of Plant Physiology and Plant Molecular Biology (1999). ,
50, 571-579.
[136] Enns, L. C, Mccully, M. E, & Canny, M. J. Branch roots of young maize seedlings, their
production, growth, and phloem supply from the primary root. Functional Plant
Biology (2006). , 33, 391-399.
[137] Lee, H, Guo, Y, Ohta, M, Xiong, L, Stevenson, B, & Zhu, J. K. LOS2 , a genetic locus
required for cold responsive transcription encodes a bi-functional enolase. EMBO
Journal (2002). , 21, 2692-2702.
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