[Ahmad S.S., Tahir I., 2015. Storage protocol for improving the postharvest performance in cut scapes of Iris versicolor. Acta Hort. 1060: 71-79.10.17660/ActaHortic.2015.1060.9]Search in Google Scholar
[Ahmad S.S., Tahir I., 2016a. Putrescine and jasmonates outplay conventional growth regulators in improving postharvest performance of Iris germanica L. cut scapes. Proc. Natl. Acad. Sci., India Sec. B: Biol. Sci. (online) doi: 10.1007/s40011-016-0767-2.]Search in Google Scholar
[Ahmad S.S., Tahir I., 2016b. Increased oxidative stress, lipid peroxidation and protein degradation trigger senescence in Iris versicolor L. flowers. Physiol. Mol. Biol. Plants 24(4): 507-514.10.1007/s12298-016-0392-9512004927924123]Search in Google Scholar
[Ahmad S.S., Tahir I., 2016c. How and why of flower senescence: understanding from models to ornamentals. Indian J. Plant Physiol. 21(4): 446-456.10.1007/s40502-016-0267-7]Search in Google Scholar
[Ahmad S.S., Tahir I., 2016d. Regulatory role of phenols in flower development and senescence in the genus Iris. Indian J. Plant Physiol. 22(1): 135-140.10.1007/s40502-016-0278-4]Search in Google Scholar
[Ahmad S.S., Tahir I., Shahri W., 2013. Effect of different storage treatments on physiology and postharvest performance in cut scapes of three Iris species. J. Agric. Sci. Technol. 15: 323-331.]Search in Google Scholar
[Bieleski R.L., 1993. Fructan hydrolysis drives petal expansion in the ephemeral daylily flower. Plant Physiol. 103(1): 213-219.10.1104/pp.103.1.21315896512231928]Search in Google Scholar
[Cavaiuolo M., Cocetta G., Ferrante A., 2013. The antioxidants changes in ornamental flowers during development and senescence. Antioxidants 2: 132-155.10.3390/antiox2030132466543426784342]Search in Google Scholar
[Dar R.A., Tahir I., Ahmad S.S., 2014a. Sugars and sugar alcohol have their say in the regulation of flower senescence in Dianthus chinensis L. Sci. Hort. 174: 24-28.10.1016/j.scienta.2014.04.003]Search in Google Scholar
[Dar R.A., Tahir I., Ahmad S.S., 2014b. Physiological and biochemical changes associated with flower development and senescence in Dianthus chinensis. Indian J. Plant Physiol. 19: 215-221.10.1007/s40502-014-0104-9]Search in Google Scholar
[Dar R.A., Tahir I., Ahmad S.S., 2015a. Is the biochemical mechanism of petal senescence similar within a genus? A case study of Dianthus. Hort. Environ. Biotechnol. 56(5): 654-661.10.1007/s13580-015-1068-z]Search in Google Scholar
[Dar R.A., Tahir I., Ahmad S.S., 2015b. Cycloheximide efficacy varies temporally in improving postharvest performance of cool wet stored Dianthus chinensis L. cut sprays. Proc. Natl. Acad. Sci. India, Sec. B: Biol. Sci. (online) doi: 10.1007/s40011-015-0584-z.]Search in Google Scholar
[Lowry O.H., Rosebrough N.J., Farr A.L., Randall R.J., 1951. Protein measurement with the Folin phenol reagent. J. Biol. Chem. 193: 265-275.10.1016/S0021-9258(19)52451-6]Search in Google Scholar
[Macnish A.J., Jiang C.Z., Negre-Zakharov F., Reid M.S., 2010. Physiological and molecular changes during opening and senescence of Nicotiana mutabilis flowers. Plant Sci. 179(3): 267-272.10.1016/j.plantsci.2010.05.011]Search in Google Scholar
[Mittler R., Vanderauwera S., Gollery M., Van Breusegem F., 2004. Reactive oxygen gene network of plants. Trends Plant Sci. 9: 490-498.10.1016/j.tplants.2004.08.009]Search in Google Scholar
[Nelson N., 1944. A photometric adaptation of the Somogyi method for the determination of glucose. J. Biol. Chem. 153: 375-380.10.1016/S0021-9258(18)71980-7]Search in Google Scholar
[Nisar S., Tahir I., Ahmad S.S., 2015. Modulation of flower senescence in Nicotiana plumbaginifolia L. by polyamines. Indian J. Plant Physiol. 20: 186-190.10.1007/s40502-015-0154-7]Search in Google Scholar
[Rahmani I., Ahmadi N., Ghanati F., Sadeghi M., 2015. Effects of salicylic acid applied pre- or post-transport on post-harvest characteristics and antioxidant enzyme activity of gladiolus cut flower spikes. New Zeal. J. Crop Hort. 43(4): 294-305.10.1080/01140671.2015.1096799]Search in Google Scholar
[Reid M.S., Jiang C.Z., 2012. Postharvest biology and technology of cut flowers and potted plants. Hort. Rev. 40: 1-54.10.1002/9781118351871.ch1]Search in Google Scholar
[Rosen H., 1957. A modified ninhydrin colorimetric analysis for amino acids. Arch. Biochem. Biophys. 67: 10-15.10.1016/0003-9861(57)90241-2]Search in Google Scholar
[Smith M.T., Saks Y., Sta den V.J., 1992. Ultrastructural changes in the petals of senescing flowers of Dianthus caryophyllus. Ann. Bot. 69: 277-285.10.1093/oxfordjournals.aob.a088341]Search in Google Scholar
[Swain T., Hillis W.E., 1959. The phenolic constituents of Prunus domestica L. - the quantitative analysis of phenolic constituents. J. Sci. Food Agric. 10: 63-68.10.1002/jsfa.2740100110]Search in Google Scholar
[Tayyab S., Qamar S., 1992. A look into enzyme kinetics: Some introductory experiments. Biochem. Edu. 20: 116-118.10.1016/0307-4412(92)90122-3]Search in Google Scholar
[Trivellini A., Ferrante A., Vernieri P., Carmassi G., Serra G., 2011. Spatial and temporal distribution of mineral nutrients and sugars throughout the lifespan of Hibiscus rosa-sinensis L. flower. Cent. Eur. J. Biol. 6(3): 365-375.10.2478/s11535-011-0025-9]Search in Google Scholar
[van Doorn W.G., Woltering E.J., 2008. Physiology and molecular biology of petal senescence. J. Exp. Bot. 59: 453-480.10.1093/jxb/erm35618310084]Search in Google Scholar
[Yamada K., Ito M., Oyama T., Nakada M., Maesaka M., Yamaki S., 2007. Analysis of sucrose metabolism during petal growth of cut roses. Postharv. Biol. Technol. 43(1): 174-177.10.1016/j.postharvbio.2006.08.009]Search in Google Scholar
[Zhou Y., Wang C., Hong G.E., Hoeberichts F.A., Visser P.B., 2005. Programmed cell death in relation to petal senescence in ornamental plants. J. Integ. Plant Biol. 47: 641 650.10.1111/j.1744-7909.2005.00112.x]Search in Google Scholar