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Review Article

A review on: Response of crops to paclobutrazol application

Wakjira TesfahunDepartment of plant Science, Raya University, College of Agriculture and Natural Resource, Maichew, EthiopiaCorrespondence[email protected]
View further author information
|
Fatih YildizFood Engineering and Biotechnology, Middle East Technical University, TURKEYView further author information
(Reviewing editor)
Article: 1525169 | Received 17 Aug 2018, Accepted 13 Sep 2018, Published online: 03 Oct 2018

References

  • Ashraf, M., Akram, N. A., Al Qurainy, F., & Foolad, M. R. (2011). Drought tolerance: Roles of organic osmolytes, growth regulators, and mineral nutrients. Advances in Agronomy, 111, 249–296.
  • Bayat, S., & Sepehri, A. (2012). Paclobutrazol and salicylic acid application ameliorates the negative effect of water stress on growth and yield of maize plants. Journal Researcher Agricultural Sciences, 8(2), 127–139.
  • Chon, N. M., Koseki, N. N., Hirata, Y., Saka, H., & Abe, H. (2000). Effects of brassinolide on coleoptile and leaf growth in rice seedlings. Plant Production Science, 3(4), 360–365. doi:10.1626/pps.3.360
  • Dewi, K., Agustina, R. Z., & Nurmalika, F. (2016). Effects of blue light and paclobutrazol on seed germination, vegetative growth and yield of black rice (Oryza Sativa L. ‘CempoIreng’). Biotropia, 23(2), 85–96. doi:10.11598/btb.2016.23.2.478
  • Finaud, J., Lac, G., & Filaire, E. (2006). Oxidative stress: Relationship with exercise training. Sports Med, 36, 327–359. doi:10.2165/00007256-200636040-00004
  • Fletcher, F. A., Gilley, A., & Sankhla, N. (2000). Triazoles as plant growth regulator and stress protectants. Horticultural Reviews, 24, 55–138.
  • Ghosh, A., Chikara, J., Chaudhary, D. R., Prakash, A. R., Boricha, G., & Zala, A. (2010). Paclobutrazol arrests vegetative growth and unveils unexpressed yield potential of jatrophacurcas. Journal of Plant Growth Regulation. doi:10.1007/s00344-010-9137-0
  • Hajihashemi, S., & Ehsanpour, A. A. (2014). Antioxidant response of Steviarebaudiana B. to polyethylene glycol and paclobutrazol treatments underin vitro culture. Applied Biochemistry and Biotechnology, 172, 4038–4052. doi:10.1007/s12010-014-0791-8
  • Halliwell, B. (2006). Reactive species and antioxidants. Redox biology is a fundamental theme of aerobic life. Plant Physiology, 141, 312–322. doi:10.1104/pp.106.077693
  • Jungklang, J., Saengnil, K., & Uthaibutra, J. (2016). Effects of water-deficit stressand paclobutrazol on growth, relative water content, electrolyte leakage, prolinecontent and some antioxidant changes in Curcuma alismatifoliaGagnep.cv.Chiang Mai Pink. SaudiJ Biologic Sciences, 24(7), 1505–1512.
  • Jungklang, J, Saengnil, K, & Uthaibutra, J. (2017). Effects of water-deficit stress and paclobutrazol on growth, relative water content, electrolyte leakage, proline content and some antioxidant changes in curcuma alismatifolia gagnep. cv. chiang mai pink. Saudi Journal Of Biological Sciences, 24(7), 1505–1512. doi: 10.1016/j.sjbs.2015.09.017
  • Jungklang, J., Usui, K., & Matsumoto, H. (2003). Differences inphysiological responses to NaCl between salt-tolerant SesbaniarostrataBrem.and Oberm and non-tolerant Phaseolus vulgaris L. Weed Biologic Manage, 3, 21–27. doi:10.1046/j.1445-6664.2003.00077.x
  • Kamran, M., et al. (2018). Effect of paclobutrazol, a potential growth regulator on stalk mechanical strength, lignin accumulation and its relation with lodging resistance of maize. Plant Growth Regulation, 84, 317–332. doi:10.1007/s10725-017-0342-8
  • Kamran, M., Wennan, S., Ahmad, I., Xiangping, M., Wenwen, C., Xudong, Z., … Tiening, L. (2018). Application of paclobutrazol affect maize grain yield by regulating root morphological and physiological characteristics under a semi-arid region. Scientific Reports. doi:10.1038/s41598-018-23166-z
  • Khan, M. S. H., Wagatsuma, T., Akhter, A., & Tawaraya, K. (2009). Sterol biosynthesis inhibition by paclobutrazol induces greater aluminum (Al) sensitivity in Al-tolerant rice. Amer Journal Plant Physiological, 4, 89–99. doi:10.3923/ajpp.2009.89.99
  • Kim, J., Wilson, R. L., Case, J. B., & Binder, B. M. (2012). A comparative study of ethylene growth response kinetics in eudicots and monocots reveals a role for gibberellin in growth inhibition and recovery. Plant Physiology, 160, 1567–1580. doi:10.1104/pp.112.205799
  • Kondhare, K. R., Hedden, P., Kettlewell, P. S., Farrell, A. D., & Monaghan, J. M. (2014). Use of the hormone-biosynthesisinhibitors fluridone and paclobutrazol to determine the effects of altered abscisic acid and gibberellin levelson pre-maturity amylase formation in wheat grains. Journal of Cereal Science, 60, 210–216. doi:10.1016/j.jcs.2014.03.001
  • Kuai, J., Yingying S., Min Z., Peipei Z., Qingsong Z., Jiangsheng W., Guangsheng Z. (2016). The effect of nitrogen application and planting density on the radiation use efficiency and the stem lignin metabolism in rapeseed (Brassica napusL.). F Crop Researcher, 199, 89–98. doi:10.1016/j.fcr.2016.09.025
  • Manivannan, P., AbdulJaleel, C., Kishorekumar, A., Sankar, B., Somasundaram, R., & Panneerselvam, R. (2008). Protection of Vignaunguiculata (L.)Walp. Plants form salt stress by paclobutrazol. Colloid Surf, 61, 315–318. doi:10.1016/j.colsurfb.2007.09.007
  • Mohamed, G. F., Agamy, R. A., & Rady, M. M. (2011). Ameliorative effects of some antioxidants on water-stressed tomato (Lycopersicon esculentum Mill.) plants. Journal Applications Sciences Researcher, 7, 2470.
  • Morita, S., Okamoto, M., Abe, J., & Yamagishi, J. (2008). Bleeding rate of field-grown maize with reference to root system development. Japanese Journal Crop Sciences, 69, 80–85. doi:10.1626/jcs.69.80
  • Nivedithadevi, D., Somasundaram, R., & Pannerselvam, R. (2015). Effect of abscisic acid, paclobutrazol and salicylic acid on the growth and pigment variation in solanum trilobatum (l). International Journal Drug Developments Researcher, 4, 236–246.
  • Orabi, S. A., Salman, S. R., & Shalaby, M. A. F. (2010). Increasing resistance to oxidative damage in cucumber (CucumissativusL.) plants by exogenous application of salicylic acid and paclobutrazol. World Journal Agricultural Sciences, 6(3), 252–259.
  • Pan, S., Rasul, F., Li, W., Tian, H., Mo, Z., Duan, M., & Tang, X. (2013). Roles of plant growth regulators on yield, grainqualities and antioxidant enzyme activities in super hybrid rice (Oryza sativa L.). Rice, 6, 9. doi:10.1186/1939-8433-6-9
  • Percival, G. C., & Salim AlBalushi, A. M. (2007). Paclobutrazol-induced drought tolerance in containerized English and evergreen oak. Arboriculture Urban Forest, 33, 397–409.
  • PGRSA. (2007). Plant growth regulation handbook of the Plant Growth Regulation Society of America (4th ed.). Athens: The Plant Growth Regulation Society of America.
  • Qi, W. Z., Hui. H. L., Peng. L., Shu. T. D., Bing. Q. Z., Hwat. B. S., Geng L., Heng D.L., Ji. W. Z. and Bin Z. . (2012). Morphological and physiological characteristics of corn (Zea mays L.) roots from cultivars with different yield potentials. European Journal Agronomic, 38, 54–63. doi:10.1016/j.eja.2011.12.003
  • Rady, M. M., & Gaballah, M. S. (2012). Improving barley yield grown under water stress conditions. Research Journal of Recent Sciences, 1(6), 1–6.
  • Reddy Surender, P., Jogeswar, G., Rasineni, G.K., Varshney, R.K., #&. (2015). Prolineover-accumulation alleviates salt stress and protects photosyntheticand antioxidant enzyme activities in transgenic sorghum (sorghumbicolor (l.). Moench. Plant Physiol. Biochem., 94, 104–113.
  • Sankar, B., Abdul Jaleel, C., Manivannan, P., Kishorekumar, A., Somasundaram, R., & Panneerselvam, R. (2007). Effect of paclobutrazol on water stress amelioration through antioxidants and free radical scavenging enzymes in Arachishypogaea L. Colloid Surf, B 60, 229–235. doi:10.1016/j.colsurfb.2007.06.016
  • Sankar, B., Gopinathan, P., Karthishwaran, K., & Somasundaram, R. (2014). Biochemical content variation in Arachishypogaea under drought stress withor without paclobutrazol and abscisic acid. Journal Ecobiotechnol, 6, 9–14.
  • Sankar, B., Karthishwaran, K., & Somasundaram, R. (2013). Leaf anatomychanges in peanut plants in relation to drought stress with or withoutpaclobutrazol and abscisic acid. Journal Phytol, 5, 25–29.
  • Somasundaram, R., Abdul Jaleel, C., Abraham, S. S., Azooz, M. M., & Panneerselvam, R. (2009). Role of paclobutrazol and ABA in drought stress amelioration in Sesamumindicum L. Global Journal MolSci, 4, 56–62.
  • Srivastav, M., Kishor, A., Dahuja, A., & Sharma, R. R. (2010). Effect of paclobutrazol and salinity on leakage, proline content and activities of antioxidant enzyme in mango (Mangiferaindica L.). Sciences Horticultural, 125, 785–788. doi:10.1016/j.scienta.2010.05.023
  • Sumit, K., Ghatty, S., Satyanarayana, J., Guha, A., Chaitanya, B. S. K., & Reddy, A. R. (2012). Paclobutrazol treatment as a potential strategy for higher seed and oil yield in field-grown camelina sativa L. Crantz. BMC Research Notes, 5, 137. doi:10.1186/1756-0500-5-137
  • Syahputra, B. A. S., Sinniah, U. R., Syed Rastan, S. O., & Ismail, M. R. (2013). Changes in gibberellic acid (GA) content in 3 Oryza sativa due to paclobutrazol treatment. Journal Food Pharmaceutical Sciences, 1, 14–17.
  • Syahputra, B. S. A., Sinniah, U. R., Ismail, M. R., & Swamy, M. K. (2016). Optimization of paclobutrazol concentration and application time for increased lodging resistance and yield in field-grown rice. Philippine Agricultural Sciences, 99, 221–228.
  • Tesfahun, W., & Menzir, A. (2018). Effect of rates and time of paclobutrazol application on growth, lodging, yield and yield components of Tef [Eragrostis Tef (Zucc.)Trotter] in Ada district, East Shewa, Ethiopia. Journal of Biology, Agriculture and Healthcare, 8(3), 104–117.
  • Tsegaw, T. (2007). Growth, photosynthetic efficiency, rate of transpiration, lodging, and grain yield of Tef (Eragrostis Tef (Zucc.)Trotter) as influenced by stage and rate of paclobutrazol application. East African Journal of Sciences, 1(1), 35–44.
  • Yan, W., et al. (2013). Responses of root growth and nitrogen transfer metabolism to uniconazole, a growth retardant, during the seedling stage of soybean under relay strip intercropping system. Communicable Soil Sciences Plant Analysis, 44, 3267–3280. doi:10.1080/00103624.2013.840838
  • Zhang, X., Chen, S., Sun, H., Wang, Y., & Shao, L. (2009). Root size, distribution and soil water depletion as affected by cultivars and environmental factors. F Crop Researcher, 114, 75–83. doi:10.1016/j.fcr.2009.07.006
  • Zhao, J., Zhang, W., Qiu, Q., Li, Z. P., Zhang, M. H., Yan, X. Y., & Du, D. H. (2011). Effects of PP333 spraying at different stages on soybean agronomic and physiological characters. Soybean Sciences, 30, 211–214.
  • Zhao, X. F., Fang, Z. G., & Gao, Z. M. (2006). Effects of paclobutrazol (PP333) on root vigor and IAA oxidase and peroxidase activities in leaf of rice and wheat seedlings. Guangxi Agricultural Sciences, 37, 379–381.
  • 'KOUTROUBAS, S.D, & Damlas, C.A. (2015). Sunflower response to repeated foliar applications of paclobutrazol. Planta Daninha, 33(1), 129-135. doi:10.1590/S0100-83582015000100015

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