Effects of High-Temperature and Soil Moisture Conditions on the Physiological Response of Onion

Hee Ju Lee; Sang Gyu Lee; Sung Kyeom Kim; Sewoong An; Jin Hyoung Lee; Hee Su Lee; Cheol Woo Kim; Young Seok Kwon; Ji Won Han

doi:10.7235/HORT.20190057

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2019 Vol.37, Issue 5 Preview Page Next Page

Research Article

Effects of High-Temperature and Soil Moisture Conditions on the Physiological Response of Onion 고온과 다습조건이 양파의 생리반응에 미치는 영향

31 October 2019. pp. 571-578

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Abstract

The objectives of this study were to determine the effects of a combination of high-temperature and excessive irrigation treatments on growth, physiological response, and yield of onion (Allium cepa). These experiments were conducted in a typical plastic house (one side open and the other side installed ventilation fans) with a gradient air temperature (maximum different value of air temperature: 6°C). The excessive irrigation (EI) treatment commenced at 149 days after transplanting. Significant differences were found in the growth parameters in response to air temperature and soil moisture conditions. Under a combination of ambient (A) + 6°C and A + 3°C with optimal irrigation (OI) conditions, the plant height was 128.7 and 128.9 cm/plant, respectively, which was the highest among all the tested treatments. The number of leaves showed the greatest difference of 11.8 and 11.7/plant at A + 3°C and A + 6°C with OI and least difference of 8.6/plant in A-EI. The stem diameter and leaf width were higher under A + 3°C and A + 6°C with OI conditions than in the ambient temperature treatment. Bulb weight dramatically increased under the A + 6°C and A + 3°C temperature treatments. The marketable yields increased by 157% and 127% under A + 6°C-OI and A + 6°C-EI temperature treatments than in ambient temperature with OI. These results indicated that onion yields increased in response to 6°C or 3°C high-temperature treatments than under the ambient temperature treatment.

Keywords

Allium cepa L.

bulb

disorder

irrigation

root activity

yield

양파의 고온과 다습조건이 생육, 생리반응 및 수량에 미치는 영향을 구명하고자 본 실험을 수행하였다. 본 실험은 하우스의 막혀 있는 부분에 설치된 환기팬을 이용하여 시설 내부로 공기를 빨아들여 개방된 반대쪽 입구로 배출함으로써 입구와 안쪽의 온도차가 6°C로 조절되는 시설에서 수행하였다. 토양수분 다습처리(EI)는 정식후 149일부터 토양수분 함량이 40%가 되도록 처리하였다. 양파의 생육특성은 온도와 토양수분에 의해 유의성이 있었다. 초장은 외기 + 3°C(Ambient; A + 3°C), 외기 + 6°C(A + 6°C)의 적습(OI) 처리구가 각각 128.7cm와 128.9cm로 다른 처리구보다 컸다. 엽수는 A + 3°C-OI 처리와 A + 6°C-OI 처리구가 주당 11.8매와 11.7매로 가장 많았고, A-EI 처리구가 8.6매로 가장 적었다. 양파의 경경과 엽폭은 A + 3°C-OI 처리와 A + 6°C-OI 처리구가 외기처리구보다 증가하였다. 양파의 구중은 A + 3°C, A + 6°C 처리구에서 증가하였다. 상품수량은 A + 6°C-OI처리와 A + 3°C-OI 처리구가 외기-OI 대비 각각 157%, 127% 가 증가하였다. 따라서 양파는 외기보다 6°C 정도 고온이 되면 수량이 증가하는 것으로 나타났다. 생육 후기 과다한 토양 수분에 따라 생장이 억제되었다. 그리고 수량과 과실의 형태는 토양수분보다는 기온의 영향이 컸다. 외기온 처리구(대조구)에서 토양 수분이 과다한 처리구에서 수량이 감소하였으나, 고온 처리구(+ 3°C)에서는 과다한 토양 수분이 구중의 무게가 유의하게 컸다.

키워드

마늘

인경

생리장해

관수

뿌리활력

수량

References

Abdullah ZN, Ahmad R (1980) Effect of ABA and GA3ontuberizationandsomechemicalconstituentsofpotato.Plant Cell Physiol 21:1343- 1346. doi:10.1093/oxfordjournals.pcp.a076134

10.1093/oxfordjournals.pcp.a076134

Bandara MS, Krieger K, Slinkard AE, Tanino KK (2000) Pre-plant chilling requirements for closing of spring-planted garlic. Can J Plant Sci 80:379-384. doi:10.4141/P99-074

10.4141/P99-074

Berridge MV, Herst PM, Tan AS (2005) Tetrazolium dyes as tools in cell biology: New insights into their cellular reduction. Biotechnol Ann Rev 11:127-152. doi:10.1016/S1387-2656(05)11004-7

10.1016/S1387-2656(05)11004-7

Brewster JL (1990) The influence of cultural and environmental factors on the time of maturity of bulb onion crops. Acta Hortic 267:289-296. doi:10.17660/ActaHortic.1990.267.36

10.17660/ActaHortic.1990.267.36

Cho J, Lee SK (2008) Current research status of postharvest technology of garlic (Allium sativum L.). Korean J Hortic Sci Technol 26:350-356

Choi HS, Yang EY, Chae WB, Kwack YB, Kim HK (2009) Effect of soil temperature, seedtime, and fertilization rate on the secondary growth in the cultivation of the big bulbils of Namdo garlic (Allium sativum L). J Bio-Environ Cont 18:454-459

De Ruiter JM (1986) The effects of temperature and photoperiod on onion bulb growth and development. Proc Agron Soc NZ 16:93-100

Henriksin K (1987) Effect of N-and P-fertilization on yield and harvest time in bulb onions (Allium cepa L.) Acta Hortic 208:207-215. doi:10.17660/ActaHortic.1987.198.26

10.17660/ActaHortic.1987.198.26

Huh EJ, Cho KS, Kwon YS, Woo JG (2002) Effects of temperature and photoperiod on bulbing and maturity of spring sown onions in highland. J Kor Soc Hortic Sci 43:587-590

Intergovernmental Panel on Climate Change (IPCC) (2013) Climate change 2013: The physical science basis. Contribution of working group I to the fifth assessment report of the inter governmental panel on climate change. Cambridge University Press, Cambridge, UK K and New York, NY, USA

KOSTAT statistics Korea (2017) Crop production statistics. http://www.kosis.kr. Accessed 30 August 2017

Lee HJ, Lee SG, Kim SK, Mun BH, Lee JH, Lee HS, Kwon YS, Han JW, Kim CW (2018) Effects of combination of air temperature and soil moisture contents on growth, clove initiation, physiological disorders, and yield of garlic. J Bio-Environ Cont 27:191-198. doi:10.12791/KSBEC.2018.27.3.191

10.12791/KSBEC.2018.27.3.191

Lee JM (2003) Vegetable horticulture. 1th ed., Hyang Moon Sa, Seoul, Korea, p 421

Lee KC, Kim HS, Noh HS, Kim JW, Han SS (2012) Comparison of photosynthetic responses in Allium microdictyon Prokh and Allium ochotense Prokh from atmosphere-leaf vapor pressure deficit (VPD). Korean J Med Crop Sci 20:171-176. doi:10.7783/KJMCS.2012. 20.3.171

10.7783/KJMCS.2012.20.3.171

Lee SG, Kim SK, Lee HJ, Choi CS, Park ST (2016) Impacts of climate change on the growth, morphological and physiological responses, and yield of Kimchi cabbage leaves. Hortic Environ Biotechnol 57:470-477. doi:10.1007/s13580-016-1163-9

10.1007/s13580-016-1163-9

Lee SG, Kim SK, Lee HJ, Lee HS, Lee JH (2018) Impact of moderate and extreme climate change scenarios on growth, morphological features, photosynthesis, and fruit production of hot pepper. Ecol Evol 8:197-206. doi:10.1002/ece3.3647

10.1002/ece3.364729321863PMC5756829

Lim KB, Son KC, Chung JD (1997a) Influences of difference between day and night temperature (DIF) on growth and development of bell pepper plants before and after transplanting. J Biol Prod Facil Environ Cont 6:15-25

Lim KB, Son KC, Chung JD (1997b) Influences of DIF on growth and development of plug seed-lings of Lycopersicon esculentum before and after transplanting. J Biol Prod Facil Environ Cont 6:34-42

NIMS (2011) Climate change scenario report. National Institute of Meteorological Science (Seogwipo-si, Jeju-do, Republic of Korea), pp 79-99

Oh SJ, Moon KH, Koh SC (2015) Assessment of high temperature impacts on early growth of garlic plant (Allium sativum L.) through monitoring of photosystem II activities. Korean J Hortic Sci Technol 33:829-838. doi:10.7235/hort.2015.15078

10.7235/hort.2015.15078

Oh SJ, Moon KH, Koh SC (2016) Effects of different day/night temperature regimes on growth and clove development cool-type garlic (Allium sativum L). Korean J Hortic Sci Technol 35:1-10. doi:10.12972/kjhst.20170001

10.12972/kjhst.20170001

Pike LM (1986) Onion breeding, p. 357-394. In MJ Bassett, ed., Breeding vegetable crops. The Avi Publishing Company, Westport, CT, USA

Rahim MA, Fordham R (2001) Environmental manipulation for controlling bulbing in garlic. Acta Hortic 555:181-188. doi:10.17660/ ActaHortic.2001.555.27

10.17660/ActaHortic.2001.555.27

Riekels JW (1972) The influence of nitrogen on the growth and maturity of onions grown on organic soil. J Am Soc Hortic Sci 97:37-40

Sohn EY, Kim YH, Kim BS, Seo DH, Lee HS, Lee IJ (2010) Changes in endogenous gibberellins contents during bulb development period in the cold type cultivar of garlic (Allum sativum L.) of Korea. Korean J Hortic Sci Technol 28:750-756

Song IG, Hwang SG, Lee JK (2001) Garlic cultivation. Rural Development Administration, Sammi Publishing Company, Suwon, Korea

Steer BT (1980) The bulbing response to day-length and temperature of some Australasian cultivars of onion (Allium cepa L.). Aust J Agric Res 31:511-518. doi:10.1071/AR9800511

10.1071/AR9800511

Takagi H (1990) Garlic (Allium sativum L.) In JL Brewster, HS Rabinowitch, eds., Onions and allied crops Ⅲ: Biochemistry, Food Science, and Minor Crops. CRC Press, Boca Raton, FL, USA

Xu X, van Lammeren AAM, Vermeer E, Vreugdenhil D (1998) The role of gibberellin, abscisic acid, and sucrose in the regulation of potato tuber formation in vitro. Plant Physiol 117:575-584. doi:10.1104/pp.117.2.575

10.1104/pp.117.2.5759625710PMC34977

Yamazaki H, Nishijima T, Koshioka M (1995) Changes in abscisic acid content and water status in bulbs of Allium wakegi Araki throughout the year. J Jpn Soc Hortic Sci 64:589-598. doi:10.2503/jjshs.64.589

10.2503/jjshs.64.589

Yamazaki H, Nishijima T, Koshioka M, Miura H (2002) Gibberellins do not act against abscisic acid in the regulation of bulb dormancy of Allium wakegi Araki. Plant Growth Regul 36:223-229. doi:10.1023/A:1016577529378

10.1023/A:1016577529378

Yamazaki H, Nishijima T, Yamato Y, Hamano M, Koshioka K, Miura H (1999) Involvement of abscisic acid (ABA) in bulb dormancy of Allium wakegi Araki II. A comparison between dormant and nondormant cultivars. Plant Growth Regul 29:195-200. doi:10.1023/A: 1006241101936

10.1023/A:1006241101936

Information

Publisher :KOREAN SOCIETY FOR HORTICULTURAL SCIENCE
Publisher(Ko) :원예과학기술지
Journal Title :Horticultural Science and Technology
Journal Title(Ko) :원예과학기술지
Volume : 37
No :5
Pages :571-578
Received Date : 2019-03-27
Revised Date : 2019-06-13
Accepted Date : 2019-06-15
DOI :https://doi.org/10.7235/HORT.20190057

Horticultural Science and Technology ISSN:1226-8763(Print) 2465-8588(Online) 원예과학기술지

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