Grain yield performance of Carthamus tinctorius L. cultivars under water deficient condition

Paper Details

Research Paper 01/12/2017
Views (417) Download (22)
current_issue_feature_image
publication_file

Grain yield performance of Carthamus tinctorius L. cultivars under water deficient condition

Behnam Tahmasbpour, Mehdi Younessi-Hamzekhanlu, Davood Mahdavisafa, Mohsen Sabzi Nojadeh
J. Bio. Env. Sci.11( 6), 235-243, December 2017.
Certificate: JBES 2017 [Generate Certificate]

Abstract

To evaluate the effect of drought stress (control and no irrigation at budding and flowering stages) on growth and grain yield of three spring safflower (Saffeh, Goldasht and Sina), a factorial experiment based on randomized complete block design with three replications was performed in Khsroshar of Tabriz, during 2014-15 growing season. There were significant differences between cultivars according to traits including dry plant weight, 1000 seed weight, number of fertile boll, number of buds, plant height and petal weight. Drought stress effect was significant on all of the traits except of root dry weight. The interaction effects of two factors were significant on all of the traits except of seed yield per plant, harvest index, seed weight per boll, boll weight and root dry weight. Sina was as a best cultivar due to seed yield per plant, harvest index, seed weight per boll, boll weight and root dry weight. Drought stress caused a significant reduction in seed yield per plant, harvest index, seed weight per boll and boll weight. Water deficiency stress at budding and flowering stages also caused 40.92 and 35.35 percent reduction in seed yield compared to control (no stress). Seed yield per plant had positive and significant correlation with number of boll per plant, seed weight per boll, boll weight, number of fertile boll and number of buds. Stepwise regression showed seed yield per plant increased with increase of seed weight per boll and number of fertile boll.

VIEWS 33

Ahmadzadeh AR, Alizadeh B, Shahryar HA, Narimani-Rad M. 2012. Path analysis of the relationships between grain yield and some morphological characters in spring safflower (Carthamus tinctorius) under normal irrigation and drought stress condition. Journal of Medicinal Plants Research 6, 1268-1271.

Amini F, Saeedi G. 2006. Study on genetic variation in external and Iranian safflower cultivars using agronomic traits. Paper presented at: 9th. Iranian Congress of Crop Sciences. Aburayhan Campus of Tehran University, Pakdasht, Iran.

Ashkani J, Pakniyat H, Emam Y, Assad M, Bahrani M. 2010. The evaluation and relationships of some physiological traits in spring safflower (Carthamus tinctorius L.) under stress and non-stress water regimes. Journal of Agricultural Science and Technology 9, 267-277.

Ebrahimi F, Majidi MM, Arzani A, Mohammadi-Nejad G. 2016. Oil and seed yield stability in a worldwide collection of safflower under arid environments of Iran. Euphytica 212, 131-144.

Emongor V. 2010. Safflower (Carthamus tinctorius L.) the underutilized and neglected crop: A review. Asian J Plant Sci 9, 299-306.

Eslam BP, Monirifar H, Ghassemi MT. 2010. Evaluation of late season drought effects on seed and oil yields in spring safflower genotypes. Turkish Journal of Agriculture and Forestry 34, 373-380.

Flemmer A, Franchini M, Lindström L. 2015. Description of safflower (Carthamus tinctorius) phenological growth stages according to the extended BBCH scale. Annals of Applied Biology 166, 331-339.

Gholinezhad E, Aynaband A, Hassanzade A, Noormohamadi G, Bernousi I. 2009. Study of the effect of drought stress on yield, yield components and harvest index of sunflower hybrid iroflor at different levels of nitrogen and plant population. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 37, 85.

Golparvar AR, Ghasemi-Pirbalouti A, Madani H. 2006. Genetic control of some physiological attributes in wheat under drought stress conditions. Pak J Bio Sci 9, 1442-1446.

Hussain MI, Lyra D-A, Farooq M, Nikoloudakis N, Khalid N. 2016. Salt and drought stresses in safflower: a review. Agronomy for sustainable development 36, 4.

Istanbulluoglu A, Gocmen E, Gezer E, Pasa C, Konukcu F. 2009. Effects of water stress at different development stages on yield and water productivity of winter and summer safflower (Carthamus tinctorius L.). Agricultural Water Management 96, 1429-1434.

Khalili M, Alireza P-A, Naghavi MR, Mohammad-Amini E. 2014. Evaluation of drought tolerance in safflower genotypes based on drought tolerance indices. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 42, 214.

Khalili MA, Taghizadeh R, Khazaei H, Omidi TA. 2009. Investigation of variation and determination of genetic distance among 25 genotypes of spring safflower (Carthamus tinctorius L.).

Kocaman I, Istanbulluoglu A, Konukcu F. 2016. The effects of deficit irrigation regimes on yield and growth components of winter safflower (Carthamus tinctorius L.). Romanian Agricultural Research 33, 267-274.

Marita T, Muldoon D. 1995. Effect of irrigation schedules and new spacing on the yield of safflower (Carthamus tinctorius L.). J Oilseed Res 7, 307-308.

Nazari M, Mirlohi A, Majidi MM. 2017. Effects of Drought Stress on Oil Characteristics of Carthamus Species. Journal of the American Oil Chemists’ Society 94, 247-256.

Öztürk E, Özer H, Polat T. 2008. Growth and yield of safflower genotypes grown under irrigated and non-irrigated conditions in a highland environment. Plant Soil Environ 54, 453-460.

Santos RF, Bassegio D, de Almeida Silva M. 2017. Productivity and production components of safflower genotypes affected by irrigation at phenological stages. Agricultural Water Management 186, 66-74.

Shahrokhnia MH, Sepaskhah AR. 2016. Effects of irrigation strategies, planting methods and nitrogen fertilization on yield, water and nitrogen efficiencies of safflower. Agricultural Water Management 172, 18-30.

Sharrifmoghaddasi M, Omidi A. 2010. Study of interrupting irrigation effects at different growth stages on grain and oil yield of new safflower varieties. Advances in Environmental Biology 4, 387-391.

Talebi R, Abhari SA. 2016. Evaluation of genetic diversity in safflower (Carthamus tinctorius L.) using agro-morphological, fatty acid composition and ISSR molecular markers. Research Journal of Biotechnology Vol 11, 7.

Tarighi S, Jamshidi K, Tavakoli A, Moghadam M. 2012. Effect of drought stress and plant density on yield, component yield and content oil of Safflower in province of Zanjan, Iran. Management Science Letters 2, 2159-2164.

Yari P, Keshtkar A. 2016. Correlation between traits and path analysis of safflower grain yield under water stress conditions. Iranian Journal of Field Crops Research 14.

Yari P, Keshtkar A, Sepehri A. 2014. Evaluation of water stress effect on growth and yield of spring safflower. Plant Products Technology 14, 101-117.

Zareie S, Mohammadi-Nejad G, Sardouie-Nasab S. 2013. Screening of Iranian safflower genotypes under water deficit and normal conditions using tolerance indices. Australian Journal of Crop Science 7, 1032.