TitleA Low Ratio of Red/Far-Red in the Light Spectrum Accelerates Senescence in Nest Leaves of Platycerium Bifurcatum
Journal titleActa Biologica Cracoviensia s. Botanica
Divisions of PASNauki Biologiczne i Rolnicze
PublisherBiological Commission of the Polish Academy of Sciences – Cracow Branch
IdentifierISSN 0001-5296 ; eISSN 1898-0295
ReferencesKELLY (2003), NM Spectral absorption features as indicators of water status in coast live oak agrifolia leaves, International Journal of Remote Sensing, 24, 1799. ; BUTT (1985), VS Oxygenation and oxidation in the metabolism of aromatic compounds of the of, Annual Proceedings Phytochemical Society Europe, 25, 349. ; VAUGHN (1984), SO Function of polyphenol oxidase in higher plants, Physiologia Plantarum, 60. ; PEÑUELAS (1993), SAVE The Reflectance at the region as an indicator of plant water status, International Journal of Remote Sensing, 14, 950. ; HALL (1999), DO Photosynthesis sixth edition University, null. ; KODIS (2004), Light harvesting and photoprotective functions of carotenoids in compact artificial photosynthetic antenna designs of, Journal Physical Chemistry, 108. ; ROUSSEAUX (2000), Basal leaf senescence in a sunflower annuus canopy Responses to increased FR ratio, Physiologia Plantarum, 110. ; KRAEPIEL (2001), The growth of tomato esculentum Mill hypocotyls in the light and in darkness differentially involves auxin, Plant Science, 161. ; RÖSLER (2010), ZEIDLER phytochrome action and, Plant Cell Physiology, 1248. ; SERRANO (2000), Deriving water content of chaparral vegetation from AVIRIS data of, Remote Sensing Environment, 570. ; STREB (1993), FEIERABEND Sensitivity to photodamage increases during senescence in excised leaves of, Journal Plant Physiology, 141. ; LICHTENTHALER (1997), Fluorescence imaging as a diagnostic tool for plant stress Trends in Plant, Sciences, 316. ; LICHTENTHALER (1998), wall bound ferulic acid the major substance of the blue - green fluorescence emission of plants of, Cell Journal Plant Physiology, 152. ; BEHERA (1990), senescence in fern : effect of duration intensity and quality of light and, Environmental Experimental Botany, 30, 181. ; LU (1998), Changes in photosystem II function during senescence of wheat leaves, Physiologia Plantarum, 239. ; KIRCHER (1999), Light quality - dependent nuclear import of the plant photoreceptors phytochrome, Plant Cell, 11, 1445. ; STOBER (1992), Changes of the laserinduced blue green and red fluorescence signatures during greening of etiolated leaves of wheat, Plant Physiology, 140. ; YAMAGUCHI (1999), Light - dependent translocation of a phytochrome GFP fusion protein to the nucleus in transgenic Arabidopsis of, Journal Cell Biology, 145. ; STRASSER (2004), of the chlorophyll a fluorescence transient In ed Chlorophyll a fluorescence signature of photosynthesis, Analysis, 321. ; HOCH (2001), BH Physiological significance of anthocyanins during autumnal leaf senescence, Tree Physiology, 21, 1. ; NADKARNI (2004), NM The nature of forest canopy In MD ed Canopies Academic, USA, 3. ; PONTING (1997), PAS a multifunctional domain family comes to light, Current Biology, 674. ; STRASSER (2000), The fluorescence transient as a tool to characterize and screen photosynthetic samples In ed Probing photosynthesis mechanism regulation and adaptation Chapter, null, 25, 443. ; BISWAL (1984), of leaf senescence and, Photochemistry Photobiology, 39. ; BRIGGS (2001), Photoreceptors in plant photomorphogenesis to date : five phytochromes two cryptochromes one phototropin and one superchrome, Plant Physiology, 125, 85. ; EULLAFFROY (2003), The chlorophyll fluorescence ratio : a potential tool for rapid detection and determination of herbicide phytotoxicity in algae, Water Research, 684. ; MERZLYAK (2003), Application of reflectance spectroscopy for analysis of higher plant pigments, Russian Journal of Plant Physiology, 785. ; KADOTA (1999), Red light - aphototropic rap mutants lack red light - induced chloroplast relocation movement in the fern Adiantum capillus - veneris and, Plant Cell Physiology, 238. ; MERZLYAK (1997), Reflectance spectra of plant leaves and fruits during their development senescence and under stress, Russian Journal of Plant Physiology, 614. ; GITELSON (2002), ZUR OB Assessing carotenoid content in plant leaves with reflectance spectroscopy and, Photochemistry Photobiology, 272. ; KENDRICK (1994), RE Photomorphogenesis in plants Publishers Dordrecht, null. ; GITELSON (2001), OB Optical properties and nondestructive estimation of anthocyanin content in plant leaves and, Photochemistry Photobiology, 71, 38. ; SKINNER (1993), Modulation of leaf elongation tiller appearance and tiller senescence in spring barley by far - red light and, Plant Cell Environment, 16, 555. ; GITELSON (1998), BUSCHMANN chlorophyll fluorescence corrected for re - absorption by means of absorption and reflectance measurements of, Journal Plant Physiology, 152. ; CASTRO (2011), Relationship between photochemical efficiency Test Parameters and portable chlorophyll meter readings in papaya plants of, Journal Plant Physiology, 23, 295. ; ARAUS (2001), Recent tools for the screening of physiological traits determining yield In ed Application of physiology in wheat breeding, null, 59. ; BJÖRKMAN (1987), yield of evolution and chlorophyll fluorescence characteristics at among vascular plants of diverse origins, Photon Planta, 77. ; SCHAEFER (2006), Photomorphogenesis in plants and bacteria Function and signal transduction mechanism rd, Edition. ; WEAVER (2001), Senescence is induced in individually darkened Arabidopsis leaves but inhibited in whole darkened plants, Plant Physiology, 127. ; MERZLYAK (1990), CHIVKUNOVA OB Reflectance spectra of potato tuber discs as related to wounding infection with Phytophthora infestans and treatment with arachidonic acid, Soil Science Bulletin, 1. ; GAMON (1999), Assessing leaf pigment content and activity with a reflectometer, New Phytologist, 143. ; SIMS (2003), DA Estimation of vegetation water content and photosynthetic tissue area from spectral reflectance : a comparison of indices based on liquid water and chlorophyll absorption features of, Remote Sensing Environment, 526. ; STOBER (1993), Characterisation of the laser - induced blue green and red fluorescence signatures of leaves of wheat and soybean leaves grown under different irradiance, Physiologia Plantarum, 696. ; BISWAL (1995), Carotenoid catabolism during leaf senescence and its control by light and Biology, Photochemistry Photobiology, 30. ; NEFF (2000), Light an indicator of time and place Genes, Development, 14, 257. ; OLIWA (2016), Morphogenesis of sporotrophophyll leaves in Platycerium bifurcatum depends on the red / far - red ratio in the light spectrum, Acta Physiologiae Plantarum, 247. ; PEÑUELAS (1998), Visible and near - infrared reflectance techniques for diagnosing plant physiological status in, Trends Plant Science, 151. ; FALQUETO (2010), AR Chlorophyll fluorescence in rice : probing of senescence driven changes of PSII activity on rice varieties differing in grain yield capacity of, AM Journal Plant Physiology, 22. ; CAUSIN (2006), The effect of light spectral quality on leaf senescence and oxidative stress in wheat, Plant Science, 171. ; MAXWELL (2000), Chlorophyll fluorescence - a practical guide of, Journal Experimental Botany, 659. ; FEILD (2001), Why leaves turn red in autumn The role of anthocyanins in senescing leaves of red - osier dogwood, Plant Physiology, 127. ; WADA (1988), photoorientation in enucleate fern protonemata and, Plant Cell Physiology, 29, 1227. ; JEDYNAK (2014), Light regulation of chlorophyll biosynthesis in angiosperm plants : the role of photoreceptors and the photomorphogenesis repressor COP In eds pigments chemical structure biological function and, ecology, 1. ; PETERMAN (1997), Xanthophylls in light - harvesting complex II of higher plants : light harvesting and triplet quenching, Biochemistry, 12208. ; BILGER (2001), UV - excited chlorophyll fluorescence as a tool for the assessment of UV - protection by the epidermis of plants of, Journal Experimental Botany, 2007. ; STEELE (2009), Nondestructive estimation of anthocyanin content in grapevine leaves of and, American Journal Enology Viticulture, 60. ; CHIVKUNOVA (2001), OB IV Reflectance spectral features and detection of superficial scald - induced browning in storing apple fruit of, Journal Phytopathology, 73. ; LINKE (2008), Occurrence of repeated drought events : can repetitive stress situations and recovery from drought be traced with leaf reflectance, Periodicum Biologorum, 110. ; COONEY (null), CO Functional significance of anthocyanins in peduncles of Sambucus nigra and, Environmental Experimental Botany, 2015. ; KULA (2016), Far reddependent changes in the chemical composition of Spirulina platensis of Life, Engineering Science, 16, 777. ; SCHWEIGER (1996), Differences in fluorescence excitation spectra of leaves between stressed and non - stressed plants of, Journal Plant Physiology, 148. ; ANDERSON (null), Early autumn senescence in red maple rubrum is associated with high leaf anthocyanin content Plants, null, 2015. ; BUKHOV (1997), senescence an evaluation of limiting steps in photosynthesis by means of chlorophyll fluorescence - quenching coefficients and redox changes in leaves, Russian Journal of Plant Physiology, 700. ; LICHTENTHALER (1998), BUSCHMANN Principles and characteristics of multi - colour fluorescence imaging of plants of, Journal Plant Physiology, 152. ; MORAN (2000), Differentiation among effects of nitrogen fertilization treatments on conifer seedlings by foliar reflectance : a comparison of methods, Tree Physiology, 20, 1113. ; KAWAI (2003), Responses of ferns to red light are mediated by an unconventional photoreceptor, Nature, 421. ; PEREIRA (2000), WE CA Gas exchange and chlorophyll fluorescence in four citrus rootstocks under aluminium stress of, Journal Plant Physiology, 157. ; LEE (2002), in autumn leaf senescence in, Advances Botanical Research, 37. ; SOLOVCHENKO (2010), Quantification of screening pigments and their efficiency in situ In ed Photoprotection in plants in Biophysics Verlag, null, 14.