Effect of paclobutrazol and irrigation duration on concentration of some nutritional elements in citrange and citromelo rootstocks leaves
Subject Areas :
Agroecology Journal
Aram Rezaie
1
,
Alireza Giti
2
,
Ali Momenpour
3
,
Davood Habibi
4
,
Mahboubeh Mazhari
5
,
Shahin Jahangirzadeh
6
,
Maryam Golbaz
7
1 - M.Sc. respectively, Karaj Branch, Islamic Azad University, Karaj,
Iran.
2 - Assistant Prof, respectively, Karaj Branch, Islamic Azad University, Karaj,
3 - Ph.D Student, Horticulture Department, University of Gilan, Gilan, Iran.
4 - Assistant Prof. in Agronomy, Karaj Branch, Islamic Azad University, Karaj, Iran.
5 - Assistant Prof., respectively, Karaj Branch, Islamic Azad University, Karaj,
Iran.
6 - Ph.D Student, Horticulture Department, University of Gilan, Gilan, Iran.
7 - M.Sc., Agriculture Management Department, University of Tabriz, Tabriz, Iran.
Received: 2013-06-22
Accepted : 2014-02-09
Published : 2014-01-21
Keywords:
Drought stress,
citrus,
pacloboutrazol,
macro nutritional element,
Abstract :
The effect of paclobutrazol and irrigation duration on concentration of some nutritional macro elements in citrange and citromelo rootstocks leaves was evaluated. Experiment was carried out as factorial based on a randomized complete block design in Tonekabon, Iran. Factors included paclobutrazol at three levels (0, 0.25 and 0.75 g) and irrigation duration in three levels (3, 6 and 9 days) and rootstocks in two levels (citrange and citromelo). The results showed that paclobutrazol, rootstock and irrigation duration affected concentration of nutritional elements, significantly. Concentration of phosphor, nitrogen, potassium, calcium and magnesium in citromelo rootstock was significantly more than that in citrange rootstock. Also, results showed that increasing irrigation duration from 3 to 9 days, decreased concentration of nitrogen and calcium in both citrange and citromelo rootstocks. Concentration of phosphorus was decreased with increasing irrigation duration in citrange rootstock, but it was increased in citromelo. In conclusion, pacloboutrazol significantly increased nutritional elements in both rootstocks and concentration of 0.25 g.l-1 pacloboutrazol was better than 0.75 g.l-1 in nutritional element absorbtion.
References:
Alizadeh A. (1999) Relative water, soil and plant. Publication Ghods Razavi. Pp: 353. (In farsi).
Arzani k. (1994) Horticultural and physiological aspects of vigor control in apricot (prunus armeniaca) under orchard and controlled environmental conditions. Ph. D. thesis Department of plant Science Massey University New Zealand.
Baker RJ. (1994) Breeding methods and selection indices for improved tolerance to biotic and abiotic stresses in cool season food legume, Euphytica. 73: 67-72.
Blanco A. (1986) Effects of Paclobutrazol on shoot growth and fruit thinning of peach trees, Acta horticultural, 179: 573-574.
Cohen G, Goell, A, (1988) Fruit growth and dry matter accumulation in grape fruit during periods of water with holding and after irrigation, Journal of plant physiology. 15(5): 633-639.
Creste JEL, Lima IA, (1995) Effect of different rootstock on mineral composition of leaves on fruiting shoots of Satsuma Tangerine tree, Cientifica-Saboticbal. 23: 4-16.
Davies FSL, Albrigo LG, (1994) Citrus. CAB International. 345 pp
Ehiyayi A (1997) Methods soil chemical analysis. Soil and Water Research Institute. Research organizations, education and extension agricultural, Tehran, Iran. (In farsi).
Faliveen S, Giddings J, Kardy S, Sanderson G, (2007) Managing citrus orchard with less water. www.dpi.nsw.gov.au/primefacts
Garcia F, Syvertsen JP, Perez JG, (2007) Response to flooding and drought stress by two citrus rootstocks seeding with different water use efficiency, Physiology plant arum 130: 532-542.
Iyenger BRV, Iyer CPAL, Sullaamath V, (1982) Influence of rootstocks on the leaf nutrient composition of two scion cultivars of Mandarin, Sciatica Horticulturae.16: 163-169.
Kafi M, Mahdavi Damghani A, (2007) Mechanism plant resistance to environmental stress. Press university of ferdowsi mashhad. Pp: 467. (In farsi).
Lever BG, (1986) Cultar-A technical overview, Acta horticultural. 179: 459-467.
Montieth JL, (1986) Significance of the coupling between saturation vapor pressure deficit rainfalls in monsoon climates, Experimental Agriculture. 22: 329-338
Rodrigues JG, Edvardo PMJ, Forner, B, Angeles F, (2010) Citrus rootstock response to water stress, Sciatica horticulture. 126: 95-102.
SAS Institute. (2000) SAS/STAT User’s Guide. SAS Institute, Cary, NC, USA.
Sheering SJ,Teresa J, (1986) Fruit tree growth control with which method of application, Acta horticultural. 179: 505-511.
Strivastav AK, Kohli R, Ram R, (1994) Caption exchange capacity of root as marker for vigor of citrus rootstock, Indian of Agricultural Sciences.17: 324-326.
Taylor B K, Dimesey RT, (1993) Rootstock and scion effect on the leaf nutrient composition of citrus tree, Australian Journal of Experimental Agriculture. 25: 363-370.
Toplu C, Kaplan M, Demirkeser H, Ercan Y, (2008). The effect of citrus rootstock on Valencia late and Rohde Red Valencia orange for some plant nutrient elements, African Journal of Biotechnology. 7 (24): 4441-4445.
Umar SN, Rao R, Sekhon GS, (1993) Differential effect of moisture stress and potassium levels on growth and k uptake in sorghum, Indian Journal of Plant Physiology. 36: 94-97.
Yazdani N, (2004) Moderate drought stress by paclobutrazol on olive varieties Blade and mishen. Msc. Thesis. Tarbeiat modares University. Tehran, Iran. (In Farsi).
_||_
