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http://dx.doi.org/10.7740/kjcs.2020.65.3.248

Effect of Harvest Time on Yield Components and Quality in 'Heuksaeng', the Purple-Skin Peanut Variety  

Oh, Eunyoung (National Institute of Crop Science, Rural Development Administration)
Pae, Suk-Bok (National Institute of Crop Science, Rural Development Administration)
Park, Jae Eun (National Institute of Crop Science, Rural Development Administration)
Kim, Jung-In (National Institute of Crop Science, Rural Development Administration)
Kim, Sungup (National Institute of Crop Science, Rural Development Administration)
Lee, Myoung-Hee (National Institute of Crop Science, Rural Development Administration)
Ha, Tae Joung (National Institute of Crop Science, Rural Development Administration)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.65, no.3, 2020 , pp. 248-254 More about this Journal
Abstract
This study was conducted to investigate the impact of harvest time on yield and seed quality in purple seed coat peanut. Compared to the average Virginia peanut variety, 'Heuksaeng', purple peanut variety has been reported to experience yield loss and reduced seed quality under delayed harvest. We examined the yield components and seed quality at different harvest times from 70 to 110 days after flowering (DAF), with harvesting occurring at intervals of 10 days. The number of mature pods per plant reached a maximum of 51.0 at 80 DAF, and average pod and seed yield peaked at 80 DAF with values of 5,229 and 3,532 kg per ha, respectively. Seed quality drastically decreased after 100 DAF, and the concentrations of two major anthocyanin compounds were significantly lower under delayed harvest. The antioxidative activities of DPPH and ABTS decreased to only 69 and 83% of their maximum values at 110 DAF. On the basis of these results, we recommend that 'Heuksaeng' is harvested approximately 10 to 15 days earlier that average Virginia-type cultivars to obtain the highest yield while minimizing the deterioration of seed quality.
Keywords
anthocyanin; harvest; peanut; seed quality;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Attree, R., B. Du, B. Xu. 2015. Distribution of phenolic compounds in seed coat and cotyledon, and their contribution to antioxidant capacities of red and black seed coat peanuts (Arachis hypogaea L.). Industrial Crops and Products 67 : 448-456.   DOI
2 Branch, W. D. 2011. First 100 years - inheritance of testa color in peanut (Arachis hypogaea L.). Crop Science 51(1) : 1-4.   DOI
3 Canavar, O. and M. A. Kaynak. 2013. Determination of yield and yield components and seed quality of peanuts (Arachis hypogaea L.) at different harvest times. International Journal of Agronomy and Plant Production 4 : 3791-3803.
4 Cheng, J. C., L. S. Kan, J. T. Chen, L. G. Chen, H. C. Lu, S. M. Lin. R. Y. Y. Chiou, 2009. Detection of cyanidin in differentcolored peanut testae and identification of peanut cyanidin 3-sambubioside. Journal of Agricultural and Food Chemistry 57(19) : 8805-8811.   DOI
5 Constanza, K. E., B. L. White, J. P. Davis, T. H. Sanders, L. L. Dean. 2012. Value-added processing of peanut skins: Antioxidant capacity, total phenolics, and procyanidin content of spray-dried extracts. Journal of Agricultural and Food Chemistry 60(43) : 10776-10783.   DOI
6 Gulluoglu, L., H. Bakal, B. Onat, C. Kurt, H. Arioglu. 2016. The effect of harvesting date on some agronomic and quality characteristics of peanut grown in the Mediterranean region of Turkey. Turkish Journal of Field Crops 21(2) : 224-232.   DOI
7 Joo, Y. H., J. H. Park, Y. H. Kim, M. G. Choung, K. W. Chung. 2004. Change in anthocyanin contents by cultivation and harvest time in black-seeded soybean. Korean Journal of Crop Science 49(6) : 512-515.
8 Lee, J. M., S. B. Pae, M. G. Choung, M. H. Lee, S. U. Kim, E. Oh, K. W. Oh, C. S. Jung, I. S. Oh. 2016. Determination of fatty acid composition in peanut seed by near infrared reflectance spectroscopy. Korean Journal of Crop Science 61(1) : 64-69.   DOI
9 Lee, S. W., C. H. Park, C. W. Kang, S. D. Kim. 1999. Changes in oil, tannin, total sugar contents and yield after flowering in peanut. Korean Journal of Crop Science 44(2) : 159-162.
10 Oupadissakoon, C., C. T. Young, F. G. Giesbrecht, A. Perry. 1980. Effect of location and time of harvest on free amino acid and free sugar contents of Florigiant peanut. Peanut Science 7(2) : 61-67.   DOI
11 Pae, S. B. and J. J. Kim. 1997. Inflorescence habits of different plant types in peanut. Korean Journal of Crop Science 42(6) : 841-848.
12 Pae, S. B., S. U. Kim, M. H. Lee, C. D. Hwang, K. W. Oh, C. S. Jung, D. Y. Song, I. Y. Baek, Y. H. Lee. 2017. A peanut variety 'Heuksaeng' with short stem and purple testa. Korean Journal of Breeding Science 49(2) : 103-108.   DOI
13 Park, C. H. and H. W. Park. 2002. Review of the studies on the qualities in peanut. Korean Journal of Crop Science 47(S) : 163-174.
14 Park, C. K. and J. H. Oh. 1992. Effect of cultural practice and harvest time on yield component of peanut. Korean Journal of Crop Science 37(4) : 347-354.
15 SAS Institute. 2012. Cary, NC: SAS Institute Inc.
16 Pattee, H. E., J. C. Wynne, T. H. Sanders, A. M. Schubert, 1980. Relation of the seed/hull ratio to yield and dollar value in peanut production 1. Peanut Science 7(2) : 74-77.   DOI
17 Sanders, T. H. and K. L. Bett. 2010. Effect of harvest date on maturity, maturity distribution, and flavor of Florunner peanuts 1. Peanut Science 22(2) : 124-129.   DOI
18 Sanders, T. H., E. J. Williams, A. M. Schubert, H. E. Pattee. 1980. Peanut maturity method evaluations. I. Southeast. Peanut Science 7(2) : 78-82.   DOI
19 Stalker, H. T. and R. F. Wilson. (ed) 2016. Peanuts: Genetics, Processing, and Utilization. AOCS Press. Urbana, IL.
20 Yi, E. S., Y. S. Lee, H. D. Kim, Y. H. Kim, 2008. Variation of anthocyanin contents according to collection site and maturity in black soybean. Korean Journal of Crop Science 53(4) : 376-381.
21 Zhao, Z., M. Wu, Y. Zhan, K. Zhan, X. Chang, H. Yang, Z. Li. 2017. Characterization and purification of anthocyanins from black peanut (Arachis hypogaea L.) skin by combined column chromatography. Journal of Chromatography A 1519 : 74-82.   DOI