 |
 |
 |
 |
 |
 |
Sains Malaysiana 49(2)(2020):
http://dx.doi.org/10.17576/jsm-2020-4902-07
Mineral Contents of
Chickpea Cultivars (Cicer arietinum L.) Grown at Different
Locations of Turkey
(Kandungan Mineral Tanaman Kultivar Kacang Kuda (Cicer arietinum L.) di Lokasi Berbeza di Turki)
ÖZGE DOGANAY ERBAS KOSE* & ZEKI MUT
Department of Field Crops, Faculty of Agriculture and
Nature Sciences, Bilecik Şeyh Edebali University, 11230 Bilecik,
Turkey
Diserahkan:
20 Ogos 2019/Diterima: 25 Oktober 2019
ABSTRACT
Mineral
deficiency-induced diseases and health problems influence billions of people
worldwide. Development of edible legumes with high mineral contents will
provide significant contributions in reducing the frequency of such diseases.
Among the edible legumes, chickpea has quite high nutritional values and quite
low production costs, thus commonly grown and consumed worldwide. This study
was conducted to determine mineral (potassium, phosphorus, sulphur,
calcium, magnesium, sodium, zinc, iron, boron, manganese, copper) contents of
eight different chickpea cultivars (Akçin-91, Azkan, Hisar, Akça, Gökçe,
Yaşa-05,
Işık-05 and Çakır) grown in two different locations (Afyonkarahisar and Yozgat provinces of Turkey) for two years (2015 and 2016).
Experiments were conducted in randomized blocks design
with three replications. Among the minerals, potassium was highest
(6435.2-8231.7 mg kg-) followed by phosphorus (2573.9-3094.0 mg kg-1)
and sulphur (1710.9-2060.7 mg kg-1). Among the minerals, copper was lowest followed by
boron and manganese. Considering the average of locations, it was observed that Gökçe, Akçin-91, Azkan and Hisar cultivars
were prominent with sulphur content; Akça with boron, sodium and calcium contents; Yaşa-05
and Işık-05 with potassium, phosphorus, magnesium, zinc, iron,
magnesium, manganese and copper contents. Çakır cultivar was stable for all minerals. The concentrations of seed P, S, Ca, Mg,
B and Mn were significantly
affected by locations.
Keywords: Cultivar; mineral; potassium; quality
ABSTRAK
Penyakit disebabkan kurang mineral dan masalah
kesihatan mempengaruhi berbilion orang di seluruh dunia. Pembangunan kekacang
yang boleh dimakan dengan kandungan mineral yang tinggi akan memberi sumbangan
yang besar dalam mengurangkan kekerapan penyakit tersebut. Antara kekacang yang
boleh dimakan, kacang kuda mempunyai nilai nutrisi yang agak tinggi dengan kos
pengeluaran yang agak rendah dan umumnya ditanam dan dimakan di seluruh dunia.
Kajian ini dijalankan untuk mengenal pasti kandungan mineral (kalium, fosforus,
sulfat, kalsium, magnesium, natrium, zink, besi, boron, mangan, kuprum) lapan
jenis kacang kuda berbeza kultivar (Akçin-91, Azkan, Hisar, Akça, Gökçe,
Yaşa-05,
Işık-05 dan Çakır) ditanam di dua
lokasi berbeza (Wilayah Afyonkarahisar dan Yozgat, Turki) selama dua tahun
(2015 dan 2016). Uji kaji telah dijalankan dalam reka bentuk blok rawak dengan
tiga replikasi. Antara mineral, kalium adalah tertinggi (6435.2-8231.7 mg kg-1-)
diikuti dengan fosforus (2573.9-3094.0 mg kg-1) dan sulfat
(1710.9-2060.7 mg kg-1). Antara mineral, kuprum adalah paling rendah
diikuti dengan boron dan mangan. Mengambil kira purata lokasi, telah
diperhatikan bahawa kultivar Gökçe, Akçin-91, Azkan dan Hisar menonjol dengan
kandungan sulfat; Akça dengan boron, natrium dan kandungan kalsium;
Yaşa-05 dan Işık-05 dengan kalium, fosforus, magnesium, zink,
besi, mangan dan kandungan kuprum. Kultivar Çakır adalah stabil untuk
semua mineral. Kepekatan benih P, S, Ca, Mg, B dan Mn dengan ketara terjejas
disebabkan lokasi.
Kata kunci: Kalium; kualiti; kultivar; mineral
RUJUKAN
Akdag, C. 2001. Determination of
sowing time with chickpea varieties that will provide high yield in Tokat. JAFAG 59:
19.
Alajaji, S.A.
& El-Adawy, T. 2006. Nutritional composition of
chickpea (Cicer arietinum L.) as affected by microwave
cooking and other traditional cooking methods. Journal of Food Composition and Analysis 19: 806-812.
Arab,
E.A.A., Helmy, I.M.F. & Bareh,
G.F. 2010. Nutritional evaluation and functional properties of chickpea (Cicer arietinum L.) flour and the improvement
of spaghetti produced from its. Journal
of American Science 6(10): 1055-1072.
Bayrak, H. & Onder, M. 2017. Determination of agricultural, technological and nutritional characteristics of local populations and varieties of chickpea (Cicer arietinum L.) cultivated in Konya ecological region. Journal of Field Crops Central Research Institute 26: 52-61. Budag, C. 2009. Feed grain legumes
and usage in ruminant nutrition. Yuzuncu Yil University Journal
of the Institute of Natural and Applied Sciences 14(2): 88-101.
Bueckert, R.A., Thavarajah, P. &
Pritchard, J. 2011. Phytic acid and mineral
micronutrients in field-grown chickpea (Cicer arietinum L.) cultivars from Western Canada. Eur. Food Res. Technol. 233(2): 203-212.
Ceran, F. 2015. Determination
of some agricultural characteristics on chickpea (Cicer arietinum L.) cultivars that are sown at different
periods. PhD Thesis. Selcuk University, Konya, Turkey (Unpublished).
Daur, I., Khan, I.A. & Jahangir, M. 2008. Nutritional
quality of roasted and pressure-cooked chickpea compared to raw (Cicer arietinum L.) seeds. Sarhad J. Agric. 24(1): 117.
Elinç,
F. 2007. Plant Nutrition and Soil
Fertility. Ondokuz Mayis University, Faculty of Agriculture. Textbook. No: 51.
Erbaş Köse, Ö.D. & Mut, Z. 2019.
Determination of mineral content of chickpea varieties and lines grown in
Turkey. Derim.
36(1): 73-78.
FAO. 2017. Statistical Databases. http://faostat.fao.org/site/567/default.aspx#ancor.
Accessed on 1st April 2019.
Gomez, K.A. & Gomez, A.A. 1984. Statistical Procedure for Agricultural
Research. 2nd ed. New York: Wiley.
Gulumser,
A., Bozoglu, H. & Peksen,
E. 2008. Edible Legumes. Ondokuz Mayıs University
Agriculture Faculty. Texbook. No: 27.
Hangen,
L. & Bennink, M.R. 2002. Consumption of black
beans and navy beans (Phaseolus vulgaris) reduced azoxymethane-induced colon cancer in rats. Nutr. Cancer 44: 60-65.
Haq, M.Z.U., Iqbal, S., Shakeel, A., İmran, M., Niaz,
A. & Bhanger, M. 2007. Nutritional and
compositional study of desi chickpea (Cicer arietinum L.) cultivars grown in Punjab. Pakistan Food Chemistry 105(4): 1357-1363.
Iqbal,
A., Khalil, I.A., Ateeq, N. & Khan, M.S. 2006.
Nutritional quality of important food legumes. Food Chemistry 97: 331-335.
Jukanti, A.K., Gaur, P.M., Gowda, C.L.L. & Chibbar, R.N. 2012. Nutritional quality and health benefits
of chickpea (Cicer arietinum L.): A review. British
Journal of Nutrition 108(S1):
11-26.
Kacar, B. 1984. Plant Nutrition. AÜ Faculty of Agriculture Publications. Textbook. No: 5090. p. 317. Kacar, B. & Katkat, A.V. 1998. Plant Nutrition. Uludag University
Pub No: 127. Vipas Press: 3, Bursa. Kahraman, A., Ceyhan, E. & Harmankaya,
M. 2015. Nutritional variation and drought tolerance in chickpeas (Cicer arietinum L.). J. Elem. 20(2): 331-341.
Khetarpaul, N. 2018. Total mineral content present (calcium,
magnesium, potassium, phosphorus, iron, zinc, manganese, copper, and boron and
nickel) in leaves of Desi and Kabuli chickpea varieties (on dry matter
basis). IJCS 6(2):
633-635.
Lee,
S.C., Prosky, L. & Devries, J.W. 1992. Determination of total, soluble, and
insoluble dietary fibre in
foods-enzymatic-gravimetric method, mes-tris buffer:
Collaborative study. Journal of
AOAC International 75: 395-416.
Marschner, H. 1995.
Mineral Nutrition of Higher Plants. 2nd ed.
New York: Academic Press. pp. 379-396. Mut, Z. & Gulumser,
A. 1998. The effects of bacteria
inoculation, zinc and molybdenum application on some quality traits of Damla-89
chickpea cultivar. Ondokuz Mayis University Faculty of Agriculture Journal 20(2):
1-10.
Ozcan, M.M., Dursun, N. & Juhaimi, F.A. 2013. Macro-and microelement contents of some
legume seeds. Environ. Monit. Assess. 185(11): 9295-9298.
Ray, H., Bett,
K., Taran, B., Vandenberg, A., Thavarajah,
D. & Warkentin, T. 2014. Mineral micronutrient
content of cultivars of field pea, chickpea, common bean, and lentil grown in
Saskatchewan, Canada. Crop Sci. 54(4): 1698-1708.
SAS, INC SAS/STAT users’ guide release
7.0. 1998. Cary, NC, USA.
TUIK. 2017. Agricultural
statistics database. Ankara: Turkish Statistical
Institute.www.tuik.gov.tr.
Accessed on 1st May 2019.
Vandemark, G.J., Grusak, M.A. & Mcgee, R.J. 2018. Mineral concentrations of chickpea and
lentil cultivars and breeding lines grown in the US Pacific Northwest. The
Crop Journal 6(3):
253-262.
Viswanathan, B. & Sudha, K. 1989. Photoelectrochemical properties of platinised TiO2. Asian Journal of Chemistry 1(2): 129.
Wang,
N. & Daun, J.K. 2004. The chemical composition
and nutritive value of Canadian pulses. Canadian
Grain Commission. pp. 19-29.
Wang, N., Hatcher, D.W., Tyler, R.T., Toews, R. & Gawalko,
E.J. 2010. Effect of cooking on the composition of beans (Phaseolus vulgaris L.) and chickpeas (Cicer arietinum L.). Food Research
International 43(2):
589-594.
Wood, A. & Grusak, M.A. 2007. Nutritional
value of chickpea. In Chickpea Breeding
and Management, edited by Yadav, S.S., Redden, B., Chen, W. & Sharma,
B. Wallingford, UKC: AB International. pp. 101-142.
Yalçın, F., Mut, Z. & Erbas Kose, O.D. 2018. Determination of suitable chickpea (Cicer arietinum L.) varieties to provide high yield in Afyonkarahisar and Yozgat Conditions. JAFAG 35(1):
46-59.
*Pengarang untuk surat-menyurat; email: ozgedoganay.erbas@bilecik.edu.tr
|
|||
|
