วารสารราชบััณฑิิตยสภา
                                              ปีีที่่� ๔๕ ฉบัับัที่่� ๓  กัันยายน-ธัันวาคม ๒๕๖๓

                 ศาสตราจารย์์ ดร.สักกมน เทพหััสดิน ณ อย์ุธย์า และ ดร.ลักษิิกา งามวงศ์ลำ�าเลิศ    109


                          Value, Production and Applications. Kidlington: Woodhead Publishing,

                          191-246
                 Gupta, S.K., Sharma, M., Deeba, F. & Pandey, V. (2017). Plant response: UV-B avoidance

                          mechanisms. In: Singh, V.P., Singh, S., Prasad, S.M. & Parihar, P. (Eds.) UV-B
                          Radiation: From Environmental Stressor to Regulator of Plant Growth.

                          West Sussex: Wiley-Blackwell, 217-258.
                 Hossen, M.Z. (2007). Light emitting diodes increase phenolics of buckwheat

                          (Fagopyrum esculentum) sprouts. Journal of Plant Interactions. 2, 71-78.
                 Kerckhoffs, L.H.J., Kendrick, R.E., Whitelam, G.C. & Smith, H. (1992). Extension growth

                          and anthocyanin responses of photomorphogenic tomato mutants to changes
                          in the phytochrome: Photoequilibrium during the daily photoperiod.

                          Photochemistry and Photobiology. 56, 611-615.
                 Kim, J.-I., Kozhukh, G.V. & Song, P.-S. (2002). Phytochrome-mediated signal transduction

                          pathways in plants. Biochemical and Biophysical Research Communications.
                          298, 457-463.

                 Komenda, J. & Sobotka, R. (2019). Chlorophyll-binding subunits of photosystem I and II:
                          Biosynthesis, chlorophyll incorporation and assembly. Advances in Botanical

                          Research. 91, 195-223.
                 Kovalikova, Z., Kubes, J., Skalicky, M., Kuchtickova, N., Maskova, L., Tuma, J., Vachova,

                          P. & Hejnak, V. (2019). Changes in content of polyphenols and ascorbic acid
                          in leaves of white cabbage after pest Infestation. Molecules. 24, 2622.

                 Król, A., Amarowicz, R. & Weidner, S. (2014). Changes in the composition of phenolic
                          compounds and antioxidant properties of grapevine roots and leaves

                          (Vitis vinifera L.) under continuous of long-term drought stress. Acta Physiologiae
                          Plantarum. 36, 1491-1499.

                 Kvíčalová, Z., Alster, J., Hofmann, E., Khoroshyy, P., Litvín, R., Bína, D. & Pšenčík,
                          J. (2016). Triplet–triplet energy transfer from chlorophylls to carotenoids in










                                                                                                  19/1/2565 BE   08:52
       _21-0851(097-113)5.indd   109                                                              19/1/2565 BE   08:52
       _21-0851(097-113)5.indd   109