Response of secondary metabolites in Aristolochia bracteolata Lam. under water stress regimes
Автор: Madhuri P. Patil, Shashikant J. Chavan, Chandrashekhar V. Murumkar
Журнал: Журнал стресс-физиологии и биохимии @jspb
Статья в выпуске: 4 т.16, 2021 года.
Бесплатный доступ
Effect of water stress on leaf water relations and some secondary metabolites in root stem and leaf of Aristolochia bracteolata Lam. has been studied. Mature potted plants were imposed to short term water stress. Moisture content, succulence index, mesophyll succulence index showed a very meager decline under water scarcity thereby showing its ability to maintain water status even under water deficiency. Significant rise in proline content in leaf followed by stem and root observed under water stress. Polyphenol and tannin content has increased considerably in all parts but more pronounced effect is seen in root. Maintenance of high succulence even under water stress and concurrent accumulation of secondary metabolites helps in membrane protection and osmoregulation influences for induction of facultative CAM.
Weed, drought, abiotic, polyphones, Crassulacean Acid Metabolism
Короткий адрес: https://sciup.org/143178314
IDR: 143178314
Список литературы Response of secondary metabolites in Aristolochia bracteolata Lam. under water stress regimes
- Abreu Nde and Mazzafera P (2005) Effect of water and temperature stress on the content of active constituents of Hypericum brasiliense Choisy Plant Physiol Biochem 43(3):241-248
- Ashraf M and Aafia I (2005) Drought stress induced changes in some organic substances in nodules and other plant parts of two potential legumes differing in salt tolerance Flora, 200 :535-546.
- Ashrafia, M., Azimi-Moqadama, M.R., Moradib, P., Mohseni Farda, E., Shekaria, F., Kompany-Zareh, M., 2018. E ffect of drought stress on metabolite adjustments in drought tolerant and sensitive thyme. Plant Physiol. Biochem. 132, 391 -399.
- Bacelar A. Eunice, Carlos M. Correia, José M. Moutinho-Pereira, Berta C. Gonçalves, Joâo I. Lopes, José M. G. Torres-Pereira, (2004), Sclerophylly and leaf anatomical traits of five field-grown olive cultivars growing under drought conditions, Tree Physiology, 24( 2); 233239, https://doi.org/10.1093/treephys/24.2.233
- Bates, L. S., Waldern, R. P. and Teare, I. D. (1973) Rapid determination of free proline for water stress studies. Plant and Soil, 39: 205-207.
- Bolat Ibrahim, Murat Dikilitas, Sezai Ercisli, Ali Ikinci and Tahsin Tonkaz (2014), The Effect of Water Stress on Some Morphological, Physiological, and Biochemical Characteristics and Bud Success on Apple and Quince Rootstocks, The scientific World Journal, 1-8 http://dx.doi.org/10.1155/2014/769732
- Bussoti, F., D. Bettini, P. Grossoni, S. Mansuino, R. Nibbi, C. Soda and C. Tani. 2002. Structural and functional traits of Quercus ilex in response to water availability. Environ. Exp. Bot. 47:11-23.
- Deshmukh, R. B. and Murumkar, C. V. (1995) Occurrence of Crassulacean Acid Metabolism in leaves of Aristolochia bracteata Retz., Acta. Soc. Bot. Pol, 65(3-4) 297-299.
- Edreva A, Velikova V, Tsonev T. (2008) Stress-protective role of secondary metabolites: diversity of functions and mechanisms. Gen Appl Plant Physiol, 34(1-2):67-78.
- Folin, O. and Denis, W. (1915).A colorometric estimation of phenols(and phenol derivatives) in urine Journal Biol. Chem,22:305-308.
- Hura T Katarzyna H and Stanistaw G (2009) Leaf Dehydration Induces Different Content of Phenolics and Ferulic Acid in Drought-Resistant and -Sensitive Genotypes of Spring Triticale Z, Naturforsch, 64: 85 - 95
- Isah Tasiu (2019) Stress and defense responses in plant secondary metabolites production, Biological Research, 52:39, https://doi.org/10.1186/s40659-019-0246-3
- Jain M Nandwal AS Kundu BS Kumar B Sheoran IS Kumar N Mann A and Kukreja S (2006) Water relation activities of antioxidants ethylene evolution and membrane integraty of pigeonpea roots as affected by soil moisture, Biol Plant 50(2) : 303306.
- Kadam, M. B., Chavan, S. J. and Murumkar, C. V., 2012, Report of Facultative CAM in Aristolochia bracteolata Lam., Advances in Plant Sciences, 25(2), 755-757. ISBN: 097-3586.
- Khalil, S.E., N.G. Abd Ei-Aziz and B.H. Abou Leila, (2010) Effect of water stress, Ascorbic acid and spraying time on some morphological and biochemical composition of Ocimum basilicum plant, Journal Am. Science., 6:33-34.
- Kirakosyan, A.; Kaufman, P.; Warber, S.; Zick, S.; Aaronson, K.; Bolling, S.; Chul Chang, S. (2004)Applied environmental stresses to enhance the levels of polyphenolics in leaves of hawthorn plants. Physiol. Plant, 121, 182-186. [PubMed]
- Kluge, M. and Ting, I. (1978) Crassulacean Acid Metabolism: Analysis of an Ecological Adaptation. Springer-Verlag, Berlin. http://dx.doi.org/10.1007/978-3-642-67038-1
- Kouki M and Manetas S (2002) Resources availability affects differentially the levels of gallotannin 3 and condense tannins in Ceratonia siliqua, Biochemical Systematics and Ecology, 30(7): 631 - 639.
- Munns Rana , John B. Passioura, Jianmin Guo, Ofer Chazen, Grant R. Cramer (2000), Water relations and leaf expansion: importance of time scale Journal of Experimental Botany, 51(350), 1495-1504, https://doi.org/10.1093/jexbot/51.350.1 495.
- Odjegba Victor J.and Ayodeji A. Alokolaro, (2013), Simulated Drought and Salinity Modulates the Production of Phytochemicals in Acalypha wilkesiana, Journal of Plant Studies, 2( 2):105-112. D0I:10.5539/jps.v2n2p105
- Osuagwu GGE Edeoga HO Osuagwu AN (2010), Flavonoid, saponin and tannin potential of the leaves of Ocimum gratissimum (L) and Gongronema latifolium (Benth) as influenced by water stress (drought), Journal of sustainable Agriculture and the Environment 12:157 - 167.
- Parida AK Dagaokar VS Phalak MS Umalkar GV Aurangabadkar LP (2007) Alterations in photosynthetic pigments proteins and osmotic components in cotton genotypes subjected to short term drought stress followed by recovery, Plant Biotechnol Rep 1:37-48
- Phutela A Jain V Dhawan K and Nainawatee HS (2000) Proline metoblism under water stress in the leaves and roots of Brassica junce cutltivars differing in drought tolerance, Journal of Plant Biochemistry and Biotechnology 9: 35-39.
- Ripley B, A Trevor, K Cornelia, D Michael, 2013. How succulent leaves of Aizoaceae avoid mesophyll conductance limitations of photosynthesis and survive drought. J Exp Bot, 641(18): 5485-5496.
- Sadale AN (2007) Physiological Studies in Sesbania grandiflora (Linn) Poir: Stress Physiology. PhD Thesis submitted to Shivaji University Kolhapur.
- Schanderl S. H., (1970). In: Methods in Food Analysis. Academic Press, New York, Londan. pp.709.
- Shah AR Taria MK Hafeez AS and Ashfaq AC (2011) Alternations in leaf pigments in cotton (Gossypium hirsutum) genotypes subjected to drought stress conditions, Agric and Biol, 00:902-908.
- Verma, N.; Shukla, S. (2015) Impact of various factors responsible for fluctuation in plant secondary metabolites in plants. J. Appl. Res. Med. Aromat. Plants, 2,105-113.
- Wang Qiang ,Li Yang, Kui-Shan Wen, Xiao Ruan, Ying-Xian Zhao and Feng Wei, (2018), Response of Plant Secondary Metabolites to Environmental Factors, Molecules, 23, 762;1-26, doi:10.3390/molecules23040762.
- Yaginuma S Shiraishi T Igarashi K (2003) Developmental transition of the flavonoid content in safflower leaves during stress loaded cultivation, Bioscience Biotech and Biochem 67(8): 16911698.