Growth Performance of Three Ginger (Zingiber officinale Rosc.)
Varieties in Crate System
Ridwansyah
1
, Y. Hasanah
1
, E. Yusraini
1
, N. Rahmawati
1
, M. S. M. Harahap
1
1
Faculty of Agriculture, Universitas Sumatera Utara, Jl. Prof. A. Sofyan No. 3 Kampus USU, Padang Bulan Medan
20155, Indonesia
mhdsyarifulmuharramiharahap@gmail.com
Keywords : Ginger, Variety, Crate System.
Abstract : Ginger growth is an important factor that must be considered to produce ginger rhizome which is very
beneficial for health. The health-promoting perspective of ginger is attributed to its rich phytochemistry.
Ginger cultivation in baskets is one way to cultivate ginger production The study aimed to identify
performance of three ginger varieties growth in crate system. Experimental design was a randomized block
design non factorial with 5 replications. The treatment were ginger varieties (Emprit, Gajah, and Merah). The
result showed that the variety of Gajah ginger and Emprit ginger had higher plant height 2-12 WAP (week
after planting) and also number of leaf 2-12 MST compare than Merah ginger.
1 INTRODUCTION
Ginger is one species belongs to the family
Zingiberaceae family that is used as raw material in
the manufacture of modern and traditional medicines.
The health-promoting perspective of ginger is
attributed to its rich phytochemistry.The content of
secondary metabolites in ginger plants is mainly
flavonoids, phenols, terpenoids and essential oils.
Secondary metabolite compounds produced by
Zingiberaceae plants generally can inhibit the growth
of pathogens that harm human life (Kartika, 2013 ;
Nafiseh., 2013 ; Shukla and Singh, 2007).
Recent studies on health related effects of ginger
which have also stimulated farmers concern on the
growth of the plant have shown the efficacy of the
plant in some life challenging ailments such as entero
toxin induced diarrhea, diabetic nephropathy, nausea,
plasma antioxidant, vomiting, high cholesterol, high
blood pressure and inflammation (Chen., 2007 ;
Ernest and Pittler, 2008 ; Kim., 2008).
Ginger propagation is usually performed with
rhizome but has a lot of obstacles. The obstacle
among other is the availability of good quality
rhizome. Rhizome age, filled out, no wrinkles, bright
shiny skin color, and free of pests attacks is
characteristic of high-quality seed (Hasanah., 2004)
Based on the size, shape and color of the rhizome,
there are 3 types of ginger, namely “jahe gajah”
(Zingiber officinale var. officinale), jahe emprit
(Zingiber officinale var. amarum) and ‘jahe merah’
(Zingiber officinale var. rubrum) (Hapsoh., 2008)
Based on the above background, one method of
ginger cultivation which is aimed at increasing the
growth of ginger is the cultivation of ginger in crate
systems. Previous study by Hapsoh. (2008) state that
the three ginger types have different characteristics in
their secondary metabolites, essential oil, starch
content, ash content (Hapsoh., 2008). Therefore, the
study aimed to identify performance of three ginger
growth in crate system as material for analysis the as
material for the characteristic analysis of tuber starch
and essential oil from the three types of ginger.
2 MATERIALS AND METHODS
2.1 Study Area
The experiments were conducted at the Research
Field Faculty of Agriculture, Universitas Sumatera
Utara on March to July 2018.
132
Ridwansyah, ., Hasanah, Y., Yusrani, E., Rahmawati, N. and Harahap, M.
Growth Performance of Three Ginger (Zingiber officinale Rosc.) Varieties in Crate System.
DOI: 10.5220/0010102801320135
In Proceedings of the International Conference of Science, Technology, Engineering, Environmental and Ramification Researches (ICOSTEERR 2018) - Research in Industry 4.0, pages
132-135
ISBN: 978-989-758-449-7
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
2.2 Procedures
Treatments were arranged in Non Factorial
Randomized Block Design with five replications. The
treatment is variety J1 = Jahe gajah, J2 = Jahe emprit,
V3 = Jahe merah. Parameters observed was plant
height at 2-4 week after planting (WAP).
The planting area to be used is cleaned from
weeds, then made drainage beds and ditches, and
crate are arranged on beds. The planting medium used
is top soil: manure: husks (3: 1: 1). The media is
mixed evenly and loosened using a hoe, then put into
a basket that has been arranged on the bed. Ginger
seeds are prepared which are ready for sowing. The
seeds are soaked in Dithane M-45 solution about 1
hour to control the fungus, then drained and the seeds
are cut into pieces according to the segment and the
seeds are ready to be sown. Seedlings are planted at
the nursery. Nursery media are compost and sand in a
ratio of 3: 1. The media is distributed evenly, then the
prepared seeds are arranged on a stretch of the
planting medium with the buds going above.
Seedlings that have been sown and old enough are
moved into the crate. Each crate is planted with 5
seeds. After the seeds are planted, the crate is
sheltered with paranet to avoid direct sunlight.
Watering is done every morning and evening
according to weather conditions, while the change of
damaged plant is done no later than 2 weeks after
planting (WAP). Sprouting is done so that the plant
does not fall easily, by making a mound of soil around
the plant, started at 2 WAP when the clump has
formed with 4-5 tillers.
2.3 Data Collection and Data Analysis
The growth parameters were determined at 4, 6, 8, 10
and 12 weeks after planting (WAP). The parameters
essentially determined were; plant height which was
measured from the base of the plant to the apex using
measuring tape. Number of leaves was measured by
counting manually. Number of tillers was taken at the
middle of each bed by counting at 12 WAP. Data
were subjected to analysis of variance (ANOVA) for
comparison of means. Means were separated using
Duncan’s Multiple Range Test at the 0.05 probability
level.
3 RESULT AND DISCUSSION
3.1 Plant Height
The ginger of jahe emprit and jahe gajah, generally
has the higher of plant height 2-12 WAP than jahe
merah. Increasing the plant height of jahe gajah and
jahe empritat 2-12 WAP is almost similar, while the
growth of plant height of jahe merah is lower. The
plant height increase of jahe emprit and jahe gajah at
4-10 WAP increased sharply, but the plant height of
jahe merah at 4-12 WAP increased (Table 1).
The growth phase of ginger is divided into 4
phases, i.e. (1) the budding phase, (2) the seedling
phase, (3) the growth and development phase, and (4)
the sleep rhizome phase. The phase of growth and
development in the ginger plant is divided into two
phases, namely the rapid growth phase (active phase)
and the phase of the development of the rhizome (the
stage of rhizome expansion). Phase growth and
development needs 70-80 days after the seedling
phase. Lijiu who mentions the fast growth phase is the
price of 110-130 day after planting (DAP), while the
development phase of the rhizome is 130-160 DAP.
(Hapsoh., 2008 ; Li., 2010)
3.2 Number of Leaves
Based on Table 2 it can be seen that generally the
ginger of jahe emprit and jahe gajah has the higher of
number of leaves 2-12 WAP than jahe merah.
Increasing thenumber of leaves of jahe gajah and jahe
emprit at 8-10 WAP is almost similar, while the
growth of number of leaves of jahe merah is lower.
The plant height increase of jahe emprit and jahe
gajah at 4-10 WAP increased sharply, but the number
of leavesof jahe merah at 4-12 WAP increased
slowly.
Growth Performance of Three Ginger (Zingiber officinale Rosc.) Varieties in Crate System
133
Variety Week after transplanting (WAP)
2 4 6 8 10 12
…………..leaf ……………
Jahe
emprit 9.40 11.36 11.80 11.80 17.40 18.08a
Jahe
gajah 9.92 10.92 10.92 10.92 17.04 17.60a
Jahe
merah 7.72 8.72 8.72 8.72 14.48 14.48b
Note : Different letter represent significant differences as Duncan’s Multiple Range Test (p=0.05)
Table 1. Plant height 2-12week after planting of ginger varieties in crate system cultivation
Variety Week after transplanting (WAP)
2 4 6 8 10 12
…………..cm .....................
Jahe
emprit 43.28 59.06a 65.61a 72.51a 82.04a 84.95a
Jahe
gajah 39.72 57.52a 65.65a 74.61a 85.14a 89.34a
Jahe
merah 32.24 44.54b 50.92b 57.42b 61.97b 66.99b
Note : Different letter represent significant differences as Duncan’s Multiple Range Test (p=0.05)
Table 3. Number of tillers 2-12 WAP of ginger varieties in crate system cultivation
Variet
y
Week after transplantin
g
(WAP)
2 4 6 8 10 12
……..tiller ……
Jahe
empri
t
2.3a 2.5a 2.6a 3.4a 3.9a 4.2a
Jahe
g
a
j
ah 1.9a 2.0a 2.2a 2.9a 3.2a 4.0a
Jahe
merah 1.1b 1.2b 1.6b 1.7b 2.0b 2.3b
Note :Different letter represent significant differences as Duncan’s Multiple Range Test (p=0.05)
3.3 Number of Tillers
Based on Table 3 and Figure 3 it can be seen that
generally the ginger of jahe emprit and jahe gajah has
the higher of number of tillers 2-12 WAP than jahe
merah. Increasing the number of tillers of jahe gajah
and jahe emprit at 8-10 WAP is almost similar, while
the growth of number of tillers of jahe merah is lower.
The number of tillers of jaheemprit and jahe gajah at
4-10 WAP increased sharply, but the number of tillers
of jahe merah at 4-12 WAP increased.This might be
due to genetic constitution of the varieties and
genotypic potential and availability of nutrients in the
soil, which were influenced by low light intensity and
high relative humidity condition under shade net
situation (Surendra, 2017 ; Laksmi., 2014).
4 CONCLUSIONS
Each variety has a different growth pattern. Jahe
gajah and jahe emprit have a similar growth pattern
for plant height, number of tillers and number of
leaves. Jahe merah grows more slowly than jahe gajah
and jahe emprit. The growth of a variety is dependent
on vigour of the plant and other plant characters.
ICOSTEERR 2018 - International Conference of Science, Technology, Engineering, Environmental and Ramification Researches
134
ACKNOWLEDGEMENTS
The authors would like to thank Directorate of
Research and Community Services, Ministry of
Research Technology and Higher Education that have
funded this Research in accordance with Research
Contract with Rector Universitas Sumatera Utara,
Fiscal Year 2018 Number :
1140/UN5.1.R/PPM/2018, dated 5 February 2018.
REFERENCES
Chen, J.C. Huang, L., Shiblu, W. Hsiang,C. 2007.
Ginger and its bioactive component in entero
toxigenic Eschericia coli-heat-labile. J. Agric.
Food Chem. 55(21):8390-8397.
Ernest, E., Pittler, M.H. 2008. Efficacy of ginger for
nausea and vomiting: A systematic review of
randomized clinical trial. Br. J. Anesth.
84(3):367-371.
Hapsoh, Y. Hasanah, E Julianti 2008 Budidaya dan
teknologi pascapanen jahe USU Press 112p
P.N. Ravindran and K.N. Babu. 2005. Ginger:The
genus Zingiber. CRC Press, Boca Raton 576 p.
Shukla, Y., Singh, M. 2007. Cancer preventive
properties of ginger : A brief review. Food Chem.
Toxicol. 45:683-690.
Surendra B, MB Prasanna Kumar, DV Swami, KUma
Krishna and Emmanuel, N 2017. Performance of
Ginger (Zingib erofficinaleRosc) Varieties under
Shade Net Condition of Costal Andhra Pradesh.
Int. J. Curr. Microbiol. App. Sci. 6(7):494-498.
Doi:https://doi.org/10.20546/ijmas.2017.607.059
Vastrad, NV, Hegde, RV, and Girtammanavar, VA
2006 Effect of light intensity and vermicompost
and yield of gingerKarnataka J. Agric. Sci., 19:
941-945.
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