[Abadía J., Lopez-Millan A.-F., Rombola A., Abadía A., 2002. Organic acids and Fe deficiency: a review. Plant Soil 241: 75-86. 10.1023/A:1016093317898]Search in Google Scholar
[Álvarez-Fernández A., García-Laviña P., Fidalgo C., Abadía J., Abadía A., 2004. Foliar fertilization to control iron chlorosis in pear (Pyrus communis L.) trees. Plant Soil 263: 5-15.10.1023/B:PLSO.0000047717.97167.d4]Search in Google Scholar
[da Silva J.A.T., 2003. The cut flower: postharvest considerations. J. Biol. Sci. 3: 406-442. 10.3923/jbs.2003.406.442]Search in Google Scholar
[Darandeh N., Hadavi E., 2012. Effect of pre-harvest foliar application of citric acid and malic acid on chlorophyll content and post-harvest vase life of Lilium cv. Brunello. Front. Plant Sci. 2: 106.10.3389/fpls.2011.00106]Search in Google Scholar
[Day D.A., Hanson J.B., 1977. Pyruvate and malate transport and oxidation in corn mitochondria. Plant Physiol. 59: 630-635.10.1104/pp.59.4.630]Search in Google Scholar
[de Vries D., Dubois L.A., 1988. The effect of BAP and IBA on sprouting and adventitious root formation of ‘Amanda’ rose single-node softwood cuttings. Sci. Hortic. 34 :115-121.10.1016/0304-4238(88)90081-7]Search in Google Scholar
[Eidyan B., Hadavi E., Moalemi N., 2014. Pre-harvest foliar application of iron sulfate and citric acid combined with urea fertigation affects growth and vase life of tuberose (Polianthes tuberosa L.) ‘Por- Par’. Hortic. Environ. Biotechnol. 55: 9-13.10.1007/s13580-014-0061-2]Search in Google Scholar
[El-Tohamy W., El-Abagy H., Badr M., Gruda N., 2013. Drought tolerance and water status of bean plants (Phaseolus vulgaris L.) as affected by citric acid application. J. Appl. Bot. Food Qual. 86: 212-216.]Search in Google Scholar
[Hajreza M., Hadavi E., Zeynanlou A., Mirzapour M., Naeini M., 2013. Effect of different levels of citric acid and salicylic acid at pre-harvesting stage on vase-life of rose (Rosa hybrida L.) cut flower. J. Sci. Technol. Greenhouse Culture 4: 99-109.]Search in Google Scholar
[Hu L., Zhang Z., Xiang Z., Yang Z., 2016. Exogenous application of citric acid ameliorates the adverse effect of heat stress in tall fescue (Lolium arundinaceum). Front. Plant Sci. 7: 179.10.3389/fpls.2016.00179475768126925085]Search in Google Scholar
[Hwang C.H., Dal Jin Sim J.E.P., Park Y.G., Jeong B.R., 2015. Rooting and growth affected by physiological condition of the stock plant for cutting propagation of roses. Propag. Ornam. Plants 15: 95-100.]Search in Google Scholar
[Jaafari N., Hadavi E., 2012a. Growth and essential oil yield of basil (Ocimum basilicum L.) as affected by foliar spray of citric acid and salicylic acid. Z. Arznei Gewurzpfl. 17: 80-83.]Search in Google Scholar
[Jaafari N., Hadavi E., 2012b. Growth and essential oil yield of dill (Anethum graveolens) as affected by foliar sprays of citric acid and malic acid. Acta Hort. 955: 287-290.10.17660/ActaHortic.2012.955.42]Search in Google Scholar
[Jaafari N., Mirzaei H.H., Hasanloo T., Hadavi E., 2015. Manipulating essential oil composition of dill (Anethum graveolens L.) by using preharvest foliar sprays of citric acid and malic acid. J. Essent. Oil Bear. Plants 18: 556-560.10.1080/0972060X.2014.977566]Search in Google Scholar
[Lopez-Bucio J., Nieto-Jacobo M.I., 2000. Organic acid metabolism in plants: from adaptive physiology to transgenic varieties for cultivation in extreme soils. Plant Sci. 160: 1-13.10.1016/S0168-9452(00)00347-2]Search in Google Scholar
[Mirzajani Z., Hadavi E., Kashi A., 2015. Changes in the essential oil content and selected traits of sweet basil (Ocimum basilicum L.) as induced by foliar sprays of citric acid and salicylic acid. Ind. Crops Prod. 76: 269-274.10.1016/j.indcrop.2015.06.052]Search in Google Scholar
[Osmond C., Laties G.G., 1969. Compartmentation of malate in relation to ion absorption in beet. Plant Physiol. 44: 7-14.10.1104/pp.44.1.7]Search in Google Scholar
[Pivetta K., Pereira F., Banzatto D., Graziano T., 1997. Effect of type of cuttings and indolbutyric acid on the rooting of rose (Rosa sp. ‘Red Sucess’) leafy cuttings during two seasons. Acta Hort. 482: 333-338.10.17660/ActaHortic.1999.482.49]Search in Google Scholar
[Stoutemyer V., O’rourke F., 1945. Rooting of cuttings from plants sprayed with growth regulating substances. Proc. Am. Soc. Hortic. Sci. 46: 407-411.]Search in Google Scholar
[Sun W.-Q., Bassuk N.L., 1993. Auxin-induced ethylene synthesis during rooting and inhibition of budbreak of ‘Royalty’ Rose Cuttings. J. Am. Soc. Hort. Sci. 118: 638-643.10.21273/JASHS.118.5.638]Search in Google Scholar
[Tagliavini M., Abadía J., Rombolà A., Abadía A., Tsipouridis C., Marangoni B., 2000. Agronomic means for the control of iron deficiency chlorosis in deciduous fruit trees. J. Plant Nutr. 23: 2007-2022.10.1080/01904160009382161]Search in Google Scholar
[Talebi M., Hadavi E., Jaafari N., 2014. Foliar sprays of citric acid and malic acid modify growth, flowering, and root to shoot ratio of gazania (Gazania rigens L.): A comparative analysis by ANOVA and structural equations modeling. Adv. Agric. 2014: 147278.10.1155/2014/147278]Search in Google Scholar
[Ting I., 1981. Towards a model for malate accumulation in plant tissues. Plant Sci. Lett. 21: 215-221. 10.1016/0304-4211(81)90091-2]Search in Google Scholar
[UN Comtrade, 2016. The United Nations Commodity Trade Statistics Database (UN Comtrade). Available online at http://comtrade.un.org; cited on 4 July 2017.]Search in Google Scholar