 |
 |
 |
 |
 |
 |
Sains Malaysiana 50(10)(2021): 2965-2975
http://doi.org/10.17576/jsm-2021-5010-11
Perubahan Fizikokimia dalam Brokoli dan Bunga Kobis semasa Penyimpanan
(Physicochemical
Changes in Broccoli and Cauliflower during Storage)
JING
YI LER1, ARNIDA HANI TEH1,2* & HAFEEDZA ABDUL RAHMAN1,2
1Department of Food Sciences, Faculty of
Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi,
Selangor Darul Ehsan, Malaysia
2Innovation Center for Confectionary
Technology (MANIS), Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi,
Selangor Darul Ehsan, Malaysia
Diserahkan: 15 Disember 2020/Diterima: 19
Februari 2021
ABSTRAK
Kualiti fizikokimia dalam sayur-sayuran berubah semasa penyimpanan. Kajian ini menentukan perubahan fizikokimia dalam brokoli dan bunga kobis semasa penyimpanan dan menentukan keadaan penyimpanan yang paling sesuai.
Uji kaji ini dijalankan berdasarkan suhu penyimpanan (4 °C dan 23 °C)
dan kaedah pembungkusan (tidak dibungkus dan dibungkus dengan beg plastik polietilena) berbeza sepanjang tempoh 168 jam (7 hari). Perubahan warna, kehilangan berat (PLW), kandungan kelembapan, kandungan klorofil dan aktiviti antioksidan (kandungan jumlah polifenol (TPC) dan aktiviti penyingkiran radikal bebas (DPPH)) ditentukan pada
24-, 96- dan 168- jam. Sampel disimpan pada 4 °C dan dibungkus mengalami kehilangan fizikokimia paling minimum berbanding disimpan pada 23 °C dan tidak dibungkus. Brokoli disimpan pada 4 °C
dan dibungkus dengan beg plastik polietilena mempunyai perubahan minimum bagi warna (L*= 40.63, a*= -9.88,
b*= 19.71), PLW (2.03%), kelembapan (84.42%), klorofil (2.66 mg/g) dan vitamin C (122.05 mg/100 g). Manakala brokoli disimpan pada 23 °C dan dibungkus dengan beg plastik polietilena mempunyai kandungan antioksida yang lebih tinggi (171.15 mg/100 g bagi TPC, 77.66% bagi DPPH). Bunga kobis disimpan pada 4 °C dan dibungkus dengan beg plastik polietilena mengalami perubahan fizikokimia paling minimum bagi warna (L*= 67.63, a*= -1.36, b*= 4.77), PLW (0.97%), kelembapan (93.26%), klorofil (1.22 mg/g) dan vitamin C (41.92 mg/100 g). Manakala bunga kobis disimpan pada 23 °C dan dibungkus dengan beg plastik polietilena mempunyai kandungan antioksida yang lebih tinggi (167.64 mg/100 g bagi TPC,
85.51% bagi DPPH). Justeru, keadaan penyimpanan yang
paling sesuai bagi sampel brokoli dan bunga kobis adalah pada suhu 4 °C dan dibungkus dengan beg plastik polietilena.
Kata kunci: Antioksidan; brokoli; bunga kobis; fizikokimia
ABSTRACT
Physicochemical quality in vegetables changes
during storage. This study determined the physicochemical changes in broccoli
and cauliflower during storage and determine the best storage condition.
Experiments were conducted based on different storage temperatures (4 °C and 23
°C) and packaging conditions (without packaging and with polyethylene plastic
bag) during the period of 168 hours (7 days). Changes in colour,
physiological lost in weight (PLW), moisture content, chlorophyll content, and
antioxidant activity (total polyphenol (TPC) and DPPH radical scavenging
activity) were measured at 24-, 96- and 168-hours. Samples stored at 4 °C and
packed with polyethylene plastic bag had the minimum loss of physicochemical
compared to those stored at 23 °C and without packaging. Broccoli stored at 4
°C and packed with polyethylene plastic bag had the minimum loss of colour (L*= 40.63, a*= -9.88, b*= 19.71), PLW (2.03%),
moisture (84.42%), chlorophyll (2.66 mg/g) and vitamin C (122.05 mg/100 g).
While broccoli stored at 23 °C and packed with polyethylene plastic bag had
higher antioxidant activity (171.15 mg/100 g for TPC, 77.66% for DPPH).
Cauliflower stored at 4 °C and packed with polyethylene plastic bag had the
minimum loss of colour (L*= 67.63, a*= -1.36, b*= 4.77),
PLW (0.97%), moisture (93.26%), chlorophyll (1.22 mg/g) and vitamin C (41.92
mg/100 g). While cauliflower stored at 23 °C and packed with polyethylene
plastic bag had higher antioxidant activity (167.64 mg/100 g for TPC, 85.51%
for DPPH). Thus, the best storage condition for broccoli and cauliflower were
with storage temperature of 4 °C and packed with polyethylene plastic bag.
Keywords: Antioxidant; broccoli; cauliflower;
physicochemical
Abidin, I.Z.Z., Fazry, S., Jamar, N.H., Dyari, H.R.E., Ariffin, Z.Z.,
Johari, A.N., Ashaari, N.S., Johari, N.A., Wahab,
R.M.A. & Ariffin, S.H.Z. 2020. The effects of Piper sarmentosum aqueous extracts on zebrafish (Danio
rerio) embryos and caudal fin tissue regeneration. Scientific Reports 10(1): 1-11.
Ali, A.A.M., Noor, H.S.M., Chong, P.K., Babji,
A.S. & Lim, S.J. 2019a. Comparison of amino acids profile and antioxidant
activities between edible bird nest and chicken egg. Malaysian Applied
Biology 48(2): 63-66.
Ali, S.A.M., Mohd, C.R.C. & Latip, J. 2019b. Comparison of phenolic constituent in Hibiscus
sabdariffa cv. UKMR-2 Calyx at different harvesting times. Sains Malaysiana 48(7): 1417-1424.
AOAC. 1990. Official Methods of Analysis. Edisi ke-15. Washington D.C.: AOAC International.
Arvanitoyannis, I. 2012. Modified Atmosphere and Active Packaging Technologies. Boca
Raton: CRC Press.
Bastrash, S., Makhlouf, J., Castaigne, F. & Willemot, C. 2003. Optimal controlled atmosphere conditions for storage of broccoli florets. Journal of Food Science 58: 338-341.
Blessington, T., Nzaramba, M.N., Scheuring,
D.C., Hale, A.L., Reddivari, L. & Miller, J.C.
2010. Cooking methods and storage treatments of potato: Effects on carotenoids,
antioxidant activity and phenolics. American
Journal of Potato Research 87(6): 479-491.
Camire, M.E., Dougherty, M.P. & Briggs, J.L. 2005.
Antioxidant‐rich foods retard lipid oxidation in extruded corn. Cereal
Chemistry 82(6): 666-670.
Cantwell, M.I. & Kasmire,
R.F. 2002. Handling systems: Flower, leafy, and stem vegetables, In Postharvest Technology of Horticultural
Crops, disunting oleh Kander,
A.A. Richmond, Calif.: Univ. California Agriculture and Natural Resources
Communication Services. hlm. 423-432.
Chan, E.W.C., Lim, Y.Y., Wong, S.K., Lim, K.K., Tan, S.P.
& Lianto, F.S. 2009. Effects of different drying
methods on the antioxidant properties of leaves and tea of ginger species. Food Chemistry 113: 166-172.
Chew, Y.L., Lim, Y.Y., Omar, M. & Khoo, K.S. 2008.
Antioxidant activity of three edible seaweeds from two areas in South East
Asia. Journal of Food Science and
Technology 41: 1067-1072.
Cho, M., Hong, Y., Choi, J., Won,
Y. & Bae, D. 2009. Effect of packaging film and storage temperature on
quality maintenance of broccoli. Journal
of Horticultural Science and Technology 27(1): 128-139.
Costa, M.L., Civello,
P.M., Chaves, A.R. & Martínez, G.A. 2005. Effect
of hot air treatments on senescence and quality parameters of harvested
broccoli heads. Journal of the Science of Food and Agriculture 85(7):
1154-1160.
Crisosto, C.H., Mitcham, B. & Cantwell, M. 2008.
Optimum temperature conditions for produce handlers. Central Valley
Postharvest Newsletter 17: 1-18.
Cunniff, P. 1995. Official Methods of Analysis of AOAC International. Edisi ke-16. Arlington
VA: AOAC International.
Dhall, R.K.,
Sharma, S.R. & Mahajan, B.V.C. 2010. Effect of packaging on storage life
and quality of cauliflower stored at low temperature. Journal of Food Science and Technology 47(1): 132-135.
Fernández-León, M.F.,
Fernández-León, A.M., Lozano, M., Ayuso, M.C., Amodio, M.L., Colelli, G. &
González-Gómez, D. 2013. Retention of quality and functional values of broccoli
‘Parthenon’ stored in modified atmosphere packaging. Food Control 31(2):
302-313.
Ferrante, A. & Maggiore, T.
2007. Chlorophyll a fluorescence measurement to evaluate storage time and
temperature of Valeriana leafy
vegetables. Postharvest Biology and
Technology 45(1): 73-80.
Franke, A.A., Custer, L.J.,
Arakaki, C. & Murphy, S.P. 2004. Vitamin C and flavonoid levels of fruits
and vegetables consumed in Hawaii. Journal of Food Composition and Analysis 17(1): 1-35.
Galani, J.H.Y., Mankad, P.M., Shah, A.K., Patel, N.J., Acharya, R.R. & Talati, J.G. 2017. Effect of storage temperature on vitamin
C, total phenolics, UPLC phenolic acid profile and antioxidant capacity of
eleven potato varieties. Horticultural Plant Journal 3(2): 73-89.
Gawlik-Dziki, U. 2008. Effect of hydrothermal
treatment on the antioxidant properties of broccoli florets. Food Chemistry 109(2): 393-401.
Gu, H., Wang, J., Zhao, Z.,
Sheng, X., Yu, H. & Huang, W. 2015. Characterisation of the appearance,
health-promoting compounds and antioxidant capacity of the florets of the
loose-curd cauliflower. International
Journal of Food Properties 18(2): 392-402.
Habeeb Rahman, A. 2011. Quality
aspects of cauliflower during storage. International Food Research Journal 18: 427-431.
Hertog, M.L., Nicholson, S.E. & Banks, N.H. 2001. The effect of
modified atmospheres on the rate of firmness change in ‘Braeburn’
apples. Postharvest Biology and
Technology 23(3): 175-184.
Hiscox, J.D.
& Israelstam, G.F. 1979. A method for extraction
of chlorophyll from leaf tissue without eration. Canadian Journal of Botany 57:
1332-1334.
Hong, T.D., Ellis, R.H., Gunn, J. & Moore, D. 2002.
Relative humidity, temperature, and the equilibrium moisture content of conidia
of Beauveria bassiana (Balsamo) Vuillemin: A quantitative approach. Journal of Stored Products Research 38(1):
33-41.
Jiménez‐Monreal, A.M., García‐Diz, L., Martínez‐Tomé, M., Mariscal, M.M.M.A. &
Murcia, M.A. 2009. Influence of cooking methods on antioxidant activity of
vegetables. Journal of Food Science 74(3): H97-H103.
Jones, R.B., Faragher, J.D. &
Winkler, S. 2006. A review of the influence of postharvest treatments on
quality and glucosinolate content in broccoli heads. Postharvest Biology and Technology 41(1): 1-8.
Kaewsuksaeng, S., Yamauchi, N., Funamoto, Y., Mori, T., Shigyo, M. & Kanlayanarat, S.
2007. Effect of heat treatment on catabolites formation in relation to
chlorophyll degradation during storage of broccoli florets. Journal of the
Japanese Society for Horticultural Science 76(4): 338-344.
Kevers, C., Falkowski, M., Tabart,
J., Defraigne, J.O., Dommes,
J. & Pincemail, J. 2007. Evolution of antioxidant
capacity during storage of selected fruits and vegetables. Journal of Agricultural and Food Chemistry 55(21): 8596-8603.
Leja, M., Mareczek, A., Starzynska,
A. & Rozek, S. 2011. Antioxidant ability of
broccoli flower buds during short-term storage. Food Chemistry 72(2): 219-222.
Li, J., Li, Q., Lei, X., Tian,
W., Cao, J., Jiang, W. & Wang, M. 2018. Effects of wax coating on the
moisture loss of cucumbers at different storage temperatures. Journal of
Food Quality 2018: 1-7.
Manolopoulou, E. & Varzakas, T. 2016. Effect of
temperature in color changes of green vegetables. Current
Research in Nutrition and Food Science Journal 4(Special Issue Nutrition in
Conference October 2016): 10-17.
Martin, S.K. & Sheppard, R.L.
1983. Effect of different packaging materials and light exposure times on
chlorophyll concentration in 2 cultivars of potato. New Zealand Journal of
Experimental Agriculture 11(1): 63-67.
McGuire, R.G. 1992. Reporting of objective colour measurements. HortScience 27: 1254-1255.
Mgaya-Kilima, B., Remberg, S.F., Chove, B.E. & Wicklund, T. 2015. Physicochemical and antioxidant
properties of roselle-mango juice blends; effects of packaging materials,
storage temperature and time. Food Science and Nutrition 3:
100-109.
Mudgal, V.D.
& Pandey, V.K. 2007. Dehydration characteristics of cauliflower. International Journal of Food Engineering 3(6): Article 6.
Nath, A., Mandal, S., Singh, R.K., Deka, B.C. & Ngachan, S.V. 2015. Ascorbic acid, β-carotene and
antioxidant activity of broccoli during short-term refrigerated storage. In Processing
and Impact on Active Components in Food. Massachusetts: Academic Press. hlm. 27-34.
Orak, H.H. 2006. Effect of different blanching methods on peroxidase and
lipoxygenase activity of broccoli and comparison of some nutritional values at
enzymes inactivation levels. Acta Alimentaria 35(3): 259-268.
Othman, Z.S., Maskat,
M.Y. & Hassan, N.H. 2020. Optimization of cinnamaldehyde extraction and
antioxidant activity of Ceylon cinnamon extract. Sains Malaysiana 49(5): 995-1002.
Pankaj, B.P., Umezuruike, L.O.
& Fahad, A.J.S. 2011. Colour measurement and analysis in fresh and processed foods: A review. Food and Bioprocess Technology 6(1): 36-60.
Paramithiotis, S., Hondrodimou, O.L. & Drosinos, E.H. 2010. Development of the microbial community
during spontaneous cauliflower fermentation. Food Research International 43: 1098-1103.
Podsędek, A.
2007. Natural antioxidants and antioxidant capacity of Brassica vegetables: A
review. LWT-Food Science and Technology 40(1): 1-11.
Pramanik, B.K.,
Matsui, T., Suzuki, H. & Kosugi, Y. 2004. Changes
in acid invertase activity and sugar distribution during postharvest senescence
in broccoli. Pakistan Journal of
Biological Sciences 7: 679-684.
Rai, D.R., Tyagi, S.K., Jha, S.N.
& Mohan, S. 2008. Qualitative changes in the broccoli under modified
atmosphere packaging in perforated polymeric film. Jounal of Food Science and Technology 45(3): 247-250.
Rao, D.S. & Shivashankara, K.S. 2015. Individual shrink wrapping
extends the storage life and maintains the antioxidants of mango stored at 8
°C. Journal of Food Science and Technology 52(7): 4351-4359.
Rickman, J.C., Barrett, D.M.
& Bruhn, C.M. 2007. Nutritional comparison of fresh, frozen and canned
fruits and vegetables. Journal of the Science of Food and Agriculture 87(6): 930-944.
Safaryani, N., Haryanti, S. & Hastuti, E.D.
2007. Pengaruh suhu dan
lama penyimpanan terhadap penurunan kadar vitamin C brokoli. Anatomi Fisiologi15(2): 39-45.
Serrano, M., Castillo, S.,
Guillen, F. & Martinez-Romero, D. 2006. Maintenance of broccoli quality and
functional properties during cold storage as affected by modified atmosphere
packaging. Postharvest Biology Technology 39: 61-68.
Shi, C., Sun, G., Zhang, H.,
Xiao, B., Ze, B., Zhang, N. & Wu, N. 2014. Effects of warming on
chlorophyll degradation and carbohydrate accumulation of alpine herbaceous
species during plant senescence on the Tibetan Plateau. PLoS ONE 9(9): 107874.
Spokowski, A.L. 2010. Effect of refrigerated vacuum storage on the shelf life of
comingled broccoli, cauliflower, and carrots. MSc thesis, Clemson University,
South Carolina, United States of America (Tidak diterbitkan).
Van Bree, I., De Meulenaer, B., Samapundo, S., Vermeulen, A., Ragaert,
P., Maes, K.C., De Baets,
B. & Devlieghere, F. 2010. Predicting the
headspace oxygen level due to oxygen permeation across multilayer polymer
packaging materials: A practical software simulation tool. Innovative
Food Science and Emerging Technology 11(3): 511-519.
Walkowiak-Tomczak, D. 2007. Changes in antioxidant activity of black chokeberry
juice concentrate solutions during storage. Acta Scientiarum Polonorum Technologia Alimentaria 6(2): 49-54.
Yahia, E.M., Soto-Zamora, G.,
Brecht, J.K. & Gardea, A. 2007. Postharvest hot
air treatment effects on the antioxidant system in stored mature-green
tomatoes. Postharvest Biology and Technology 44(2): 107-115.
Zayapor, M.N., Abdullah, A. & Mustapha, W.A.W. 2020. Antioxidant and
anti-diabetic status of popular Malay health tonic consumed for wellness: help
or hype? Sains Malaysiana 49(1): 145-154.
*Pengarang untuk surat-menyurat; email: arnida@ukm.edu.my
|
|||
|
